CN101646272A - Radioactive instrument - Google Patents
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- CN101646272A CN101646272A CN200910160116A CN200910160116A CN101646272A CN 101646272 A CN101646272 A CN 101646272A CN 200910160116 A CN200910160116 A CN 200910160116A CN 200910160116 A CN200910160116 A CN 200910160116A CN 101646272 A CN101646272 A CN 101646272A
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Abstract
A radioactive instrument used in an astronomical instrument in outer space comprises a partially spherical shape structure member certainly with a focal area and a radiation layer with energy providedby energy sources. The radiation layer is connected with the partially spherical shape structure member and concentrates the energy on the focal area so as to realize temperature difference between the focal area and the surrounding environment of the focal area and provide energy to the astronomical instrument and/or an object. The partially spherical shape structure member comprises a heat transfer layer and a heat insulation layer, wherein, the heat insulation layer comprises a concave surface facing a convex surface of the heat transfer layer. The radiation layer comprises at least a radiating element which is in contact with the heat transfer layer or is embedded into at least one part of the heat transfer layer.
Description
The application is the applying date: on February 5th, 2004; Application number: 200480014272.1; Denomination of invention: the dividing an application of radiator apparatus.
Technical field
The invention relates to a radiator apparatus.Particularly the present invention is the radiator apparatus that can concentrate energy or dissipate energy about one.
Background technology
According to Shi Difen, Bo Ziman law (Stefan-Boltzman Law), any object sends radiant energy under some temperature total radiant is R=ECT
4E is the emissivity of this object, promptly is the ratio of the total radiation energy that sent under same temperature of the total radiation energy that sent under some temperature of this object and perfect black matrix.In a perfect black matrix, promptly one under assigned temperature, can perfect absorb and send in theory greatest irradiation can object, E=1; In a perfect in theory reflector, E=0; In other object, 0<E<1.C is the permanent number of Shi Difen, Bo Ziman law, and its numerical value is approximately 5.67 * 10
-8W/m
2-K
4T is Kelvin (Kelvin) absolute temperature of this object.
The object that every temperature is higher than absolute zero (promptly-273 degree centigrade) all sends electromagnetic radiation energy.According to the Planck equation formula, the emittance that object sends is the function of its temperature, emissivity and radiation wavelength.The radiation meeting of an object increases along with the lifting of its absolute temperature, and the wavelength of the energy of a quantum of each photon and this photon is inversely proportional to.According to law of conservation of energy (The Total Power Law), when object of radiant energy projection, the summation of the radiant energy that this object absorbs, reflects and transmits is kept unification.
Infrared ray heats more effective with respect to traditional conduction and convection current method for increasing temperature, because infrared radiation can be able to be directed to only to occupied space, to heat as regionality, and infrared radiation can not can to the air heat in occupied space, only can the object in the occupied space be heated.In fact, infrared radiation can or pass vacuum transmission and need not rely on any medium to conduct heat, different with traditional conduction and convection current method for increasing temperature.
Summary of the invention
The invention relates to an emitter.In an embodiment, emitter is made up of heat transfer layer, radiating layer and thermal insulation layer.Radiating layer is to provide energy by an energy source, and comprises at least one part that at least one radiation assembly is embedded in heat transfer layer.Thermal insulation layer is towards heat transfer layer.Heat transfer layer can comprise a kind of metal oxide.Radiating layer generally is between thermal insulation layer and heat transfer layer.Heat transfer layer can comprise a spherical or hemispherical body of part that central point or focal area are arranged surely, and radiating layer can also comprise a spherical or hemispherical body of part that central point or focal area are arranged surely.The general overlapping done in the focal area of heat transfer layer and the focal area of radiating layer.
The thermal insulation layer of emitter can connect a light bulb base.This base comprises the contact of positive and negative electrode, and the power supply of plugging into is in radiating layer.This base is to be suitable for receiving power supply from a light socket.
In the one side of this embodiment, thermal insulation layer can comprise a concave surface towards the heat transfer layer convex surface, so that the radiation assembly of radiating layer increases the temperature of heat transfer layer, and concentrated energy is in the focal area of radiating layer.The focal area that one group of fibre-optic end can be positioned over radiating layer is with received energy, so that this optical fiber transfers to this fibre-optic other end with the energy that receives from this fibre-optic end.
At this embodiment on the other hand, thermal insulation layer can comprise a convex surface towards the heat transfer layer concave surface, so that the radiation assembly of radiating layer increases the temperature of heat transfer layer, and energy spread is left the focal area of radiating layer.
In another embodiment, emitter comprises that a general helical dome-shaped radiation member and one comprise reflecting surface and towards radiation member's general dome-shaped reflection member.This helical dome-shaped radiation member provides energy by an energy source.This helical dome-shaped radiation member can comprise an electrical coil resistance that is being contained by the heat transfer goods and materials.This general helical dome-shaped radiation member has a central point or focal area surely, and this general dome-shaped reflection member also has a central point or focal area surely.The general overlapping done in this radiation member's focal area and this reflection member's focal area.
In the one side of this embodiment, reflection member's reflecting surface can comprise a general concave surface.Reflection member's reflective concave surface can be towards radiation member's convex surface, so that the radiation member is with the focal area of concentration of energy in the radiation member.
At this embodiment on the other hand, reflection member's reflecting surface can comprise a general convex surface.Reflection member's reflective convex can be towards radiation member's concave surface, so that the radiation member is dispersed energy by radiation member's focal area.
In another embodiment, apply to an emitter on the astronomical instrument that is in the outer space and comprise a spherical or hemispherical structure member of part and the radiating layer that energy is provided by energy source that a central point or focal area are arranged surely.This radiating layer is connected with the spherical or hemispherical structure member of this part.This radiating layer with concentration of energy in this focal area the temperature difference with the surrounding enviroment that realize this focal area and this focal area, give this astronomical instrument and/or object so that one strength to be provided.
In the one side of this embodiment, the spherical or hemispherical structure of this part comprises a heat transfer layer and a thermal insulation layer.This thermal insulation layer comprises a concave surface towards the heat transfer layer convex surface.Radiating layer comprises at least one and is embedded at least one radiation assembly partly of heat transfer layer.
At this embodiment on the other hand, radiating layer comprises one group of infrared emission device of the concave surface that is arranged at the spherical or hemispherical structure member of this part.
In another embodiment, emitter comprises one provides the radiation member of energy and one comprising one towards the radiation member and at least one part is crown or the reflection member of the recessed reflecting surface of ring-type by energy source, with scope or the zone with energy dissipation at least one part ring-type.This radiation member can comprise an at least one part ring-type and be generally positioned at the central point or the focal area of this reflecting surface.This radiation member comprises an electrical coil resistance that is being contained by the heat transfer goods and materials.
Purpose, enforcement and the purposes (so its commerce and industrial value very big) that the present invention has a huge scope includes, but not limited to radiant energy focused on, concentrates and guiding or be directed at:
(a) be provided with and be arranged in the surface that making on satellite or other space equipment and/or the instrument of spacefarer can absorbed radiation energy, object, the chosen scope or the zone of material and/or material, to realize increasing the surface of this energy absorbed radiation energy, object, the chosen scope of material and/or material or zone relatively its surrounding enviroment temperature or realize this chosen scope or the temperature difference of zone and its surrounding enviroment, dynamically provide advance by leaps and bounds power, torque force and motive force with regard to it with respect to the sun or other extratellurian object with the just relevant artificial satellite that is arranged in (comprising other) space or other space equipment and/or instrument; And
(b) on earth in the arctic weather or in space or beyond other earth or on the object in the sky, can (be comprised by anyone, object or object, but be not limited to, computer control and dummy head's cerebrology robot) make, assemble, install, set up, construct, set up, repair, keep in repair, enjoy, take, consume, the surface, object, material and/or the material that use or handle the chosen of (no matter indoor or outdoors) and can absorbed radiation energy (comprise, but be not limited to food and other goods and materials)
(c) main body of health or bodily tissue (no matter existence or dead) or other object or scientific research or medical surgery and treatment; And the cooking eats material and the kitchen prepares goods and materials; And
(d) need be to focus on, to concentrate or guiding or turn to radiant energy and improve its object, material and/or material (including, but not limited to food and other goods and materials) with respect to the temperature of its surrounding enviroment.
Description of drawings
Figure 1A is the perspective view according to emitter of the present invention.
Figure 1B is a part of the emitter shown in Figure 1A, and shows three different aspects, and heat transfer layer and thermal insulation layer partly is removed with the clear visual field.
Fig. 1 C is the side cross-sectional of the emitter shown in Figure 1A.
Fig. 2 A is the perspective view according to emitter of the present invention.
Fig. 2 B is a part of the emitter shown in Fig. 2 A, and shows three different aspects, and heat transfer layer partly and thermal insulation layer partly are removed with the clear visual field.
Fig. 2 C is the side cross-sectional of the emitter shown in Fig. 2 A.
Fig. 3 is the side cross-sectional of the emitter shown in Figure 1A, and shows connection upward optical fiber instrument and optical perspective instrument.
Fig. 4 A is according to the side view of emitter of the present invention, and reflection member partly is removed with the clear visual field.
Fig. 4 B is the radiation member's of the emitter shown in Fig. 4 A perspective view and a side cross-sectional.
Fig. 4 C is the side cross-sectional of the emitter shown in Fig. 4 A.
Fig. 5 A is the side view according to emitter of the present invention.
The side cross-sectional of the emitter shown in Fig. 5 B Fig. 5 A.
Fig. 6 is the side cross-sectional according to emitter of the present invention.
Fig. 7 is for having the perspective view according to the astronomical instrument of emitter of the present invention.
Fig. 8 A is the perspective view according to emitter of the present invention.
Fig. 8 B and Fig. 8 C are the side cross-sectional of the emitter shown in Fig. 8 A.
Fig. 9 A is the perspective view of the emitter shown in Figure 1A, and shows upward light bulb base of connection.
Fig. 9 B is the side cross-sectional of emitter shown in Fig. 9 A and light bulb base.
Figure 10 A is the perspective view of the emitter shown in Fig. 2 A, and shows upward light bulb base of connection.
The emitter shown in Figure 10 B Figure 10 A and the side cross-sectional of light bulb base.
Embodiment
(A) device among the embodiment shown in Figure 1A and Figure 1B, radiation source 10 are to be positioned on the convex surface of a hollow part orbicule or hemispherical body (following general designation " spherical segment " or " spherical member ") 12.Radiation source 10 is with electrical coil resistance or other heat energy assembly 11 that is positioned on spherical segment 12 convex surfaces and embeds and surrounded by electrical insulator and heat conduction goods and materials 25 (include, but not limited to electricity and be fused into magnesium oxide) and is positioned over another side with heat insulation goods and materials 26 and constitutes.Shown in Fig. 1 C, radiation source 10 can comprise any device or instrument that can increase surface temperature to a proper level of spherical segment, and infrared radiation to be concave surface by spherical segment 12 send, and focus on or be concentrated to or to the central point or the focal area 15 of spherical segment 12.The example of radiation source 10 comprises wire heat energy assembly, heat energy casket, quartzy assembly wire heat energy assembly and similar device.The intensity of the radiant energy of the central point of spherical segment 12 or focal area 15 depend on the element of concave surface of formation (on the structure or on the surface) spherical segment 12 or goods and materials can maybe need to send infrared radiation can measure or level and depend on the distance of the concave surface and the object that infrared radiation can focus on or be concentrated to of spherical segment 12.Above-mentioned element or goods and materials can be selected from one group and comprise stainless steel, mild steel, aluminium, aluminium alloy, alfer, chromium, molybdenum, manganese, nickel, niobium, silicon, titanium, zirconium, rare-earth mineral or rare earth element (including but not limited to cerium, lanthanum, neodymium and yttrium) and ceramic material, dilval, resisto, nichrome, nichrome aluminum alloy and other similar alloy and oxide, trivalent, carbide and nitride, carbonaceous goods and materials and other infrared radiation goods and materials.In another aspect of this invention, this embodiment is equal to countless atomic little infrared emitters in theory and is evenly distributed on the concave surface of spherical segment 12, and each infrared emitter all points to, sends, focuses on or concentrated infrared radiation can to or to the central point or the focal area 15 of spherical segment 12.
(B) device in the another embodiment of the present invention shown in Fig. 2 A and Fig. 2 B, radiation source 10 is to be positioned on a spherical segment or spherical member's 12 the concave surface.Radiation source 10 is with electrical coil resistance or other heat energy assembly 11 that is positioned on spherical segment 12 concave surfaces and embeds and surrounded by electrical insulator and conduction material 25 (include, but not limited to electricity and be fused into magnesium oxide) and is positioned over another side with heat insulation material 26 and constitutes.Radiation source 10 can comprise any device that can increase spherical segment surface temperature to a proper level or instrument and infrared radiation can be central point or the focal area 15 of being sent and scatter or disperseed to leave spherical segment 12 by the convex surface of spherical segment 12 shown in Fig. 2 C.The example of radiation source 10 comprises wire heat energy assembly, heat energy casket, quartzy assembly wire heat energy assembly and similar device.The intensity of the central point of spherical segment 12 or focal area 15 radiant energy depend on the element of convex surface of formation (on the structure or on the surface) spherical segment 12 or goods and materials can maybe need to send infrared radiation can measure or level and depend on the distance of the convex surface and the object that infrared radiation can focus on or be concentrated to of spherical segment 12.Above-mentioned element or goods and materials comprise stainless steel, ceramic material, resisto and other similar alloy and oxide, trivalent, carbide and nitride, carbonaceous goods and materials and other infrared radiation goods and materials.In another aspect of this invention, this embodiment is equal to countless atomic little infrared emitters in theory and is evenly distributed on the convex surface of spherical segment 12, and each infrared emitter all points to, sends, distribution or disperse red UV radiation can leave spherical segment 12 central point or focal area 15.
(C) device in the another embodiment of the present invention as shown in Figure 3, radiation source 10 is to be positioned on the convex surface of spherical segment 12.Radiation source 10 is with electrical coil resistance or other heat energy assembly 11 that is positioned on spherical segment 12 convex surfaces and embeds and surrounded by electrical insulator and conduction material 25 (include, but not limited to electricity and be fused into magnesium oxide) and is positioned over another side with heat insulation material 26 and constitutes.In this device, optical fiber bundle 32 or instrument (following general designation " optical fiber instrument ") 30 or optical lens visor (including but not limited to prism), minute surface, reflecting surface or its mixing, arrangement or assembly (following general designation " optical perspective instrument ") 35 is placed or disposes central point or the focal area 15 in spherical segment 12, and infrared radiation can focus on or be concentrated to an end of relevant instrument and from this end of relevant instrument through optical fiber instrument 30 or optical perspective instrument 35 or its mixing, arrangement or assembly transmission.The example of these instruments comprise Medical Devices or instrument with focus on or be concentrated to, to or be directed to infrared radiation can the desired position with operating or treating, take out the universe, heating, heat and make the health and/or the sterilization of equipment, instrument, health or bodily tissue (no matter surviving or death) or goods and materials, thoroughly do away with, reduce or control disease, bacterium or virus infections or infectious disease or other syndrome or morbid state so that be correlated with.Infrared radiation can instrument includes, but is not limited to take out the universe, hot forming on industry or commercial the application, heat, heat (including but not limited to therapeutic, slackness and comfortableness heating), foliation, welding, sclerosis, fixing, manufacturing, modified, cut off, shrink, be coated with mould, fill out envelope, health, sterilization, the sludge ice compacting, evaporation is solidified, hatching, cure, baking, food insulation, and in and/or make similar application with object, surface, product, material and/or material.
(D) in another embodiment, infrared radiation can be able to be utilized, open up or be used in movably, the infrared emission device of portable or hand held, optical fiber, miter guide, leader's device or analogous instrument or lead-in wire or its mixing, arrange or assembly, so that infrared radiation can focus on, concentrate and lead or be directed at or go to the energy that need heat illuminated or external radiation source and specially can shine, be transferred or absorbed chosen scope, the zone, health or bodily tissue (no matter surviving or death), object, material or material (including but not limited to food and other goods and materials).
(E) device among the embodiment shown in Fig. 4 A, the form of radiation source 10 is as the structure (circle having, triangle, rectangle, polygonal or oval-shaped bottom and general hemisphere or similar hemispheric form) 18 of helical dome-shaped.Radiation source 10 is to embed and (to be comprised by electrical insulator and conduction material 25, but be not limited to, electricity is fused into magnesium oxide) electrical coil resistance of being surrounded or other heat energy assembly 11 be positioned over shown in Fig. 4 B that (its one or more goods and materials or material can be selected from one group and comprise stainless steel in the tubular container 16, mild steel, aluminium, aluminium alloy, alfer, chromium, molybdenum, manganese, nickel, niobium, silicon, titanium, zirconium, rare earth or rare earth element (include but not limited to cerium, lanthanum, neodymium and yttrium) and ceramic material, dilval, resisto, nichrome, nichrome aluminum alloy and other similar alloy and oxide thereof, trivalent, carbide and nitride, or its alloy, oxide, trivalent, carbide, the mixture of hydroxide or nitride, carbonaceous goods and materials and other infrared radiation goods and materials) structure that is twisted into helical dome-shaped (has general circle, triangle, rectangle, polygonal or oval-shaped bottom and general hemisphere or similar hemispheric form) 18 and the outer surface of this helical dome-shaped form spherical segment 12.Shown in Fig. 4 B, the cross section of tubular container 16 can be got general circle according to the form of helical dome-shaped, triangle, and rectangle, polygonal or ellipse or its mixing, arrangement or assembly think that chosen purpose reaches best radiation response.The radiation source 10 of the helical dome-shaped structure 18 shown in Fig. 4 C is to forgive or be positioned in the bigger hemispheric reflective concave surface 20, and its purpose is that the radiation source 10 of this helical dome-shaped structure 18 and this bigger hemispheric reflective concave surface 20 have common central point or focal area so that the infrared radiation of being sent from the radiation source 10 of helical dome-shaped structure 18 can reflect and focus on or be concentrated to this common central point or focal area 15 and contain small range or the zone.
(F) device among the embodiment shown in Fig. 5 A, the form of radiation source 10 is as the structure (circle having, triangle, rectangle, polygonal or oval-shaped bottom and general hemisphere or similar hemispheric form) 18 of helical dome-shaped.Radiation source 10 is to embed and (to be comprised by electrical insulator and conduction material 25, but be not limited to, electricity is fused into magnesium oxide) electrical coil resistance of being surrounded or other heat energy assembly 11 be positioned over shown in Fig. 4 B that (its one or more goods and materials or material can be selected from one group and comprise stainless steel in the tubular container 16, mild steel, aluminium, aluminium alloy, alfer, chromium, molybdenum, manganese, nickel, niobium, silicon, titanium, zirconium, rare earth or rare earth element (include but not limited to cerium, lanthanum, neodymium and yttrium) and ceramic material, dilval, resisto, nichrome, nichrome aluminum alloy and other similar alloy and oxide thereof, trivalent, carbide and nitride, or its alloy, oxide, trivalent, carbide, the mixture of hydroxide or nitride, carbonaceous goods and materials and other infrared radiation goods and materials) structure that is twisted into helical dome-shaped (has general circle, triangle, rectangle, polygonal or oval-shaped bottom and general hemisphere or similar hemispheric form) 18 and the inner surface of this helical dome-shaped form spherical segment 12.Shown in Fig. 4 B, the cross section of tubular container 16 can be got general circle according to the form of helical dome-shaped, triangle, and rectangle, polygonal or ellipse or its mixing, arrangement or assembly think that chosen purpose reaches best radiation response.The radiation source 10 of the helical dome-shaped structure 18 shown in Fig. 5 B is forgiven or is positioned on the less hemispheric reflective convex 20, and its purpose is that the radiation source 10 of this helical dome-shaped structure 18 and this less hemispheric reflective convex 20 have common central point or focal area so that the infrared radiation of being sent from the radiation source 10 of helical dome-shaped structure 18 can be able to be reflected and scatter or disperse leaves this common central point or focal area 15 and contain bigger scope or zone.
(G) device among the embodiment as shown in Figure 6, the Architectural Construction 40 of bigger shape such as spherical segment 12 (can be by light metal, alloy or other goods and materials, material or material with engineering and/or other form, with frame supports, support, structure and framework constitute) be positioned in outer space or the deep layer space, no matter be in earth atmosphere with interior or (general in addition, but be not limited to, be called " outer space ").Numerous other infrared radiation can emitter 42, and (this device can be by nuclear power or with the power unit of solar energy excitement, battery or other device and instrument that stores the energy of electric power or other form provide energy) be arranged on the spherical segment 12, and this infrared radiation whenever can all be placed according to correlation technique and form by emitter, be provided with and be fixed on the concave surface of spherical segment 12 Architectural Constructions 40, so that this infrared radiation can be radiated by emitter, point to, guiding, concentrate and focus on infrared radiation can be in the central point of spherical segment 12 or focal area 15 to placement, dispose, set up or be built in or be bordering on this central point or focal area 15 or the object in the approach of the infrared radiation energy that this quilt is concentrated, object, material and material (comprise, but be not limited to meteor, extratellurian object, object, material and material).Can be in this invention of publishing and place to locating in the outer space, dispose, set up or be built in or be bordering on this central point or focal area 15 or the object in the approach of the infrared radiation energy that this quilt is concentrated, object, material and material provide radiant energy or heat energy and promote its temperature, and can realize promoting this object, object, material and material are with respect to the temperature of its surrounding enviroment, or realize this object, object, material and material are with respect to the temperature difference of its surrounding enviroment, and to this object, object, material and material, just reach relevant this object, object, (but being not limited to) change of material and material, revise, configuration, ring changes, directed, deflection, destroy and decomposition, or start, change, revise and stop its trend in the outer space, speed, move, running, track and/or flight path provide the power of advancing by leaps and bounds, torque force and motive force.On the other hand or purpose, in an included embodiment of the present invention, infrared emission diode or other device 42 are generally placed, be provided with and be fixed on the concave surface of spherical segment 12, so that whenever this infrared emission diode or other device point to, radiation, guiding and concentrate infrared radiation can be in the central point of spherical segment 12 or focal area 15 to the object that is positioned over this central point or focal area 15, object, material and material (comprise, but be not limited to, need to accept treatment that the technical staff is well versed in or human or other biological tissue of medical operating, for example alleviate or lower pain, discomfort or inflammation, enhance metabolism and the health liquid circulation, injury treatment after the refractory or amputation and other medical science or science operation, investigate or research, and food and other material).
(H) device among the embodiment as shown in Figure 7, radiation source 10 is to be positioned on the convex surface of spherical segment 12, and be assembled, device, erect, structure, set up or be positioned on the artificial satellite or other space equipment and/or instrument 50 that is arranged in the outer space as shown in Figure 7, so that radiant energy is focused on, concentrate or be directed at or lead one can absorbed radiation energy lip-deep chosen scope or zone, with the lip-deep chosen scope that realize to increase this energy absorbed radiation energy or zone relatively its surrounding enviroment temperature or realize this chosen scope or the temperature difference of regional and its surrounding enviroment, dynamically provide advance by leaps and bounds power with regard to it with respect to the sun or other extratellurian object with the just relevant artificial satellite that is arranged in (comprising other) space or other space equipment and/or instrument 50, torque force and motive force, and radiant energy focused on, concentrate or be directed to or to any object, object, material and material (comprise, but be not limited to, meteor, extratellurian object, object, material and material) change with (but being not limited to), revise, configuration, ring changes, directed, deflection, destroy and decompose this object, object, material and material, or start, change, revise and stop its trend in the outer space, speed, move, running, track and/or flight path.
(I) among the embodiment shown in Fig. 8 A and Fig. 8 B, radiation source 10 is to embed and (to be comprised by electrical insulator and conduction material 25, but be not limited to, electricity is fused into magnesium oxide) electrical coil resistance of being surrounded or other heat energy assembly 11 be positioned over shown in Fig. 4 B in the tubular container 16 and (comprise that one or more goods and materials or material are selected from one group and comprise stainless steel, mild steel, aluminium, aluminium alloy, alfer, chromium, molybdenum, manganese, nickel, niobium, silicon, titanium, zirconium, rare-earth mineral or rare earth element (include but not limited to cerium, lanthanum, neodymium and yttrium) and ceramic material, dilval, resisto, nichrome, nichrome aluminum alloy and other similar alloy and oxide thereof, trivalent, carbide and nitride or its alloy, oxide, trivalent, the mixture of carbide or nitride, carbonaceous goods and materials and other infrared radiation goods and materials), and this tubular container 16 is positioned over one with good reflecting material shown in Fig. 8 B, comprise, but be not limited to, gold (emissivity=0.02), polished aluminum (emissivity=0.05), aluminium oxide (emissivity=0.15), crown or the annular reflex member's 23 of the general circle that is constituted front, so that on the radiation source 10 and or annular reflex member's 23 crown towards general circle point all is in the central point or the focal area 20 of the crown or annular reflex member's 23 of this general circle the facial section of corresponding reflective concave in the position, and as Fig. 8 C in fact shown in, the infrared energy of launching from this point is directed to or reflects and leaves this reflective concave surface.The radial cross-section of tubular container 16 shown in Fig. 4 B, can be got general circle, triangle, rectangle, polygonal or ellipse or foundation are somebody's turn to do generally round crown or annular reflex member's 23 shape and are got its mixed containing and/or assembly, think that chosen purpose reaches best radiation response.Should general circle reflective concave surface crown or annular reflex member 23 can get taper (promptly spherical, parabola shaped, ellipse, hyperbola) or other can be from the surface that quadratic equation or other equation produce through rotation or alternate manner.Shown in Fig. 8 A, the end of this tubular container 16 forwards on 23 of this reflection members, and shown in Fig. 8 B, from the infrared radiation crown or that annular reflex member 23 irradiates of this general circle can mainly be to concentrate on irradiation area 21, give or shine the object of placing or building in the irradiation area 21 for heating, object, material or material (comprise, but be not limited to, food and other goods and materials), to save or to use the energy that sends by radiation source and simultaneously to not being in other object in the irradiation area 21 with maximal efficiency, object, material or material (comprise, but be not limited to food and other goods and materials) radiation effect lower or reduce to minimum.
(J) device among the embodiment shown in Fig. 9 A comprises a light bulb base assembling 60 that runs through the central point or the focal area 15 of spherical segment 12 with outside a chain for binding criminals line and longitudinal axis thereof.Radiation source 10 is with electrical coil resistance or other heat energy assembly 11 that is positioned on spherical segment 12 convex surfaces and embeds and surrounded by electrical insulator and conduction material 25 (include, but not limited to electricity and be fused into magnesium oxide) and is positioned over another side with heat insulation material 26 and constitutes.The objective of the invention is to make this embodiment (being equipped with ideal known to the skilled and suitable security feature) to assemble this in a chain for binding criminals line mode is installed in the light socket that is designed to admit this device and subsidiary light bulb base assembling 60 thereof.This device comprises that a position is in radiation source 10 on spherical segment 12 convex surfaces and one and assembles consistent a chain for binding criminals line base with outside a chain for binding criminals line and with the standard lamp base, and a chain for binding criminals line base can be admitted by light socket as bulb.Shown in Fig. 9 B, radiation source 10 can comprise any device that can increase spherical segment 12 surface temperatures to a proper level or instrument and infrared radiation can be to focus on or be concentrated to or to the central point of spherical segment 12 or the less scope or the zone of focal area 15.
(K) device among the embodiment shown in Figure 10 A comprises a light bulb base assembling 60 that runs through the central point or the focal area 15 of spherical segment 12 with outside a chain for binding criminals line and longitudinal axis thereof.Radiation source 10 is with electrical coil resistance or other heat energy assembly 11 that is positioned on spherical segment 12 concave surfaces and embeds and surrounded by electrical insulator and heat conduction goods and materials 25 (include, but not limited to electricity and be fused into magnesium oxide) and is positioned over another side with heat insulation goods and materials 26 and constitutes.The objective of the invention is to make this embodiment (being equipped with ideal known to the skilled and suitable security feature) to assemble this in a chain for binding criminals line mode is installed in the light socket that is designed to admit this device and subsidiary light bulb base assembling 60 thereof.This device comprises that a position is in radiation source 10 on spherical segment 12 concave surfaces and one and assembles consistent a chain for binding criminals line base with outside a chain for binding criminals line and with the standard lamp base, and a chain for binding criminals line base can be admitted by light socket as bulb.Shown in Figure 10 B, radiation source 10 can comprise any device that can increase spherical segment 12 surface temperatures to a proper level or instrument and infrared radiation can be to scatter or disperse the central point of leaving spherical segment 12 or focal area 15 to bigger scope or zone.
The technical staff all thoroughly recognizes can be according to foregoing invention and (for example publish countless mixing, arrangement and/or the assembly of realizing and make the present invention and special exemplifying embodiment thereof and modification, change and/or equivalent, but be not limited to, that spherical body, form and/or shape can be used or be implemented in some aspects is parabola shaped, ellipse and/or hyperbola object, form and/or shape) and do not leave foregoing invention and the spirit of publishing or the scope of its claim.Must pay attention to comprising this mixing, arrangement and/or assembly and modification, change and/or equivalent in this claim of publishing.The technical staff can be appreciated that setting up this design of publishing and notion all can be utilized and open up to attempting and design the basis or the prerequisite of other structure, configuration, structure, application, system and method, to realize or to reach main idea of the present invention, essence, target and/or purpose.
The structure of relevant previous embodiment, icon, diagram and description, the technical staff more can be appreciated that the present invention and optimum size or other relation of the parts published, comprise, but be not limited to, change size, goods and materials, material, material, form, scope, pattern, function and method of operation and reciprocation, combination and using method all are regarded as obviously the technical staff, and the diagram in all relation of equality and/or this specification and illustrational extension all wrap look at and cover draw together in and formation the present invention and a part publishing.Therefore, preamble only should be considered illustration and the explanation for the present invention and design of publishing or principle.In addition, because countless mix contain, arrangement and/or assembly and modification, change and/or equivalent easily insight be shown in the technical staff, so desire does not limit the present invention and publishes the strict function of showing and describing in institute, assembly, structure, configuration and method of operation, therefore correspondingly, all are suitable mixedly to contain, arrangement and/or assembly and modification, change and/or equivalent all can be used, and forgives in the present invention and publish within the scope.
Describe the present invention in detail for the purpose preamble of illustration and be applied to the infrared radiation energy, but do not limit the present invention and be applied to radio wave, microwave, ultraviolet ray light wave, X-ray ripple, gamma light wave and all are at the general radiant energy (unless claim limits to some extent) with interior or in addition other form of electromagnetism light.
Claims (7)
1. emitter that astronomical instrument used that is arranged in the outer space comprises:
The part spherical surface body morphosis member that the focal area is arranged surely; And
The radiating layer that energy is provided by energy source, and radiating layer is connected with this part spherical surface body morphosis member, and this radiating layer concentrate energy to this focal area to realize the temperature difference of this focal area and its surrounding enviroment, give this astronomical instrument and/or object so that strength to be provided.
2. according to an emitter that astronomical instrument used that is arranged in the outer space of claim 1, it is characterized by:
This part spherical surface body morphosis member comprises heat transfer layer and a thermal insulation layer;
Thermal insulation layer comprises a concave surface towards the heat transfer layer convex surface; And
Radiating layer comprises at least one radiation assembly and contacts with heat transfer layer.
3. according to an emitter that astronomical instrument used that is arranged in the outer space of claim 2, it is characterized by:
This part spherical surface body morphosis member comprises heat transfer layer and a thermal insulation layer;
Thermal insulation layer comprises a concave surface towards the heat transfer layer convex surface; And
Radiating layer comprises at least one part that at least one radiation assembly is embedded in heat transfer layer.
4. want an emitter that astronomical instrument used that is arranged in the outer space of 1 according to right, it is characterized by, radiating layer comprises one group of radiation radiological unit of the concave surface that is arranged at this part spherical surface body morphosis member.
5. replace with partly parabolic volume morphing structure member according to part spherical surface body morphosis member any in the claim 1 to 4.
6. replace with partly ellipsoid volume morphing structure member according to thermal insulation layer any in the claim 1 to 12.
7. replace with partly hyperboloid morphosis member according to thermal insulation layer any in the claim 1 to 12.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN200910160116A CN101646272A (en) | 2004-02-05 | 2004-02-05 | Radioactive instrument |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN200910160116A CN101646272A (en) | 2004-02-05 | 2004-02-05 | Radioactive instrument |
Related Parent Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CNB2004800142721A Division CN100520217C (en) | 2004-02-05 | 2004-02-05 | Radiator apparatus |
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| Publication Number | Publication Date |
|---|---|
| CN101646272A true CN101646272A (en) | 2010-02-10 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN200910160116A Pending CN101646272A (en) | 2004-02-05 | 2004-02-05 | Radioactive instrument |
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|---|---|
| CN (1) | CN101646272A (en) |
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