CN206402477U - A kind of nanometer far infrared energy-saving electric heating coil - Google Patents

Abstract

The utility model discloses a kind of nanometer far infrared energy-saving electric heating coil, including far-infrared ceramic heating tube, nichrome wire is wound in far-infrared ceramic heating tube, one layer of heat conductive silica gel of nichrome wire Surface coating, heat conductive silica gel surface is aluminium alloy heat-conducting layer, aluminium alloy heat conduction layer surface is socketed a nanotube, nanotube surface coats one layer of thermal insulation layer, thermal insulation layer surface coats a floor height temperature antiradiation coating, high temperature antiradiation coating surface is used as shell using stainless steel tube, after heating wire is powered, far infrared radiation thermal source is become with reference to far-infrared ceramic heating tube, its surface temperature can gradually rise, make the heat transfer intensity enhancing of heating object, heat absorption capacity is improved, radiant heat energy is converted into by far infrared heat energy by nanotube, enhance the heat absorption speed of heating object, substantial amounts of radiant heat energy can be absorbed by high temperature antiradiation coating, emissivity is high, the radiant heat energy of absorption can be converted into the far infrared heat energy that heating object easily absorbs, heat conversion is high.

Description

A kind of nanometer far infrared energy-saving electric heating coil

Technical field

The utility model is related to injection machine electric heating coil technical field, specially a kind of nanometer far infrared energy-saving electric heating coil.

Background technology

Existing heating collar is cast aluminium or cast copper material, is generated heat after energization, and contact heating is carried out to heated body.Heating effect Rate can produce the heat of 500 kilocalories every about KW, and heating efficiency is low.Meanwhile, gas ket is exposed in atmosphere, and external skin temperatures are up to More than 200 degree, partial heat to heated body while heating, and most of heat scatters and disappears, and the thermal efficiency is low.Cause environment temperature Degree rise；Simultaneously as heating collar external skin temperatures are too high, potential safety hazard is easily caused, because temperature control is not accurate, is often gone out The phenomenon of inadequate or temperature overshot is now heated, product quality is influenceed.

Utility model content

To achieve the above object, the utility model provides following technical scheme：A kind of nanometer far infrared energy-saving electric heating coil, bag Include and nichrome wire is wound in far-infrared ceramic heating tube, the far-infrared ceramic heating tube, the nichrome wire surface bag One layer of heat conductive silica gel is covered, the heat conductive silica gel surface is aluminium alloy heat-conducting layer, and the aluminium alloy heat conduction layer surface is socketed one and received Mitron, the nanotube surface coats one layer of thermal insulation layer, and the thermal insulation layer surface coats a floor height temperature antiradiation coating, the height Warm antiradiation coating surface is used as shell using stainless steel tube.

As a kind of preferred technical scheme of the utility model, the thermal insulation layer uses ZS-1 thermostable heat-isolating coatings Material.

Compared with prior art, the beneficial effects of the utility model are：The utility model after heating wire is powered, its own Far infrared radiation thermal source is become with reference to far-infrared ceramic heating tube, its surface temperature can gradually rise, and cause thermograde to increase Greatly, make the heat transfer intensity enhancing of heating object, heat absorption capacity is greatly improved, a nanometer is connect by aluminium alloy heat-conducting layer Pipe, is converted into far infrared heat energy by radiant heat energy by nanotube, the heat absorption speed of heating object is enhanced, by it Thermal insulating layer on surface is incubated, and substantial amounts of radiant heat energy can be absorbed by high temperature antiradiation coating, because its emissivity is high, therefore will can be absorbed Radiant heat energy be converted into the far infrared heat energy that heating object easily absorbs, heat conversion is high.

Brief description of the drawings

Fig. 1 is the utility model structural representation；

In figure：1- far-infrared ceramic heating tubes；2- nichrome wires；3- heat conductive silica gels；4- aluminium alloy heat-conducting layers；5- nanometers Pipe；6- thermal insulation layers；7- high temperature antiradiation coatings；8- stainless steel tubes.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belongs to the scope of the utility model protection.

Embodiment：

Referring to Fig. 1, the utility model provides a kind of technical scheme：A kind of nanometer far infrared energy-saving electric heating coil, including it is remote Nichrome wire 2, the surface of nichrome wire 2 bag are wound in heat by infrared ceramics pipe 1, the far-infrared ceramic heating tube 1 One layer of heat conductive silica gel 3 is covered, the surface of heat conductive silica gel 3 is aluminium alloy heat-conducting layer 4, the surface of aluminium alloy heat-conducting layer 4 socket one Root nanotube 5, the surface of nanotube 5 coats one layer of thermal insulation layer 6, and the surface of thermal insulation layer 6 coats a floor height temperature radiation proof and applied Layer 7, the surface of high temperature antiradiation coating 7 using stainless steel tube 8 as shell, the thermal insulation layer 6 using ZS-1 high temperature resistants every Hot thermal insulation coatings material.

Thermal insulation layer uses ZS-1 thermostable heat-isolating coating materials, and high temperature insulating thermal insulation coatings have all selected nano ceramics Cenosphere, aluminosilicate fiber, various reflecting materials are raw material, and-80-1800 DEG C of heatproof amplitude can be heat-insulated directly facing flame Insulation, thermal conductivity factor all only has 0.03W/m.K, can effectively suppress and shield the conduction of ultrared radiant heat and heat, heat-insulated Suppress efficiency up to 90% or so, the heat radiation of high temp objects and scattering and disappearing for heat can be suppressed, to cryogenic object can effectively cold insulation be simultaneously Loss of refrigeration capacity caused by environmental radiation heat can be suppressed, is also possible to prevent the generation of object condensation.The adiabatic enamel coating of this space is Developed according to the operation principle of US Airways and space flight space travel office NASA control space shuttle heat transfer, it is adaptable to It is high pressure painting, pollution-free, with performances such as good thermal radiation resistance, the heat-insulated, waterproof anti-corrosions of thin layer.The material has shifted towards typically Industrial and civilian heat-insulation and heat-preservation.Such material mainly has thin layer heat insulating reflecting coating, solar heat reflecting and heat insulating coating, aqueous reflection Insulating moulding coating, heat insulation coating, ceramic thermal insulative pigment etc..Mainly using good weatherability, water resistance be strong, resistance to ag(e)ing By force, there is stronger cohesive force and filmogen elastic and can be good with insulation filler, reflection filler intermiscibility, in selection light weight Sky, high temperature resistant, thermal resistance are big and have the filler of good reflection and radiativity, and refraction coefficient is high, surface smoothness is high, heat is anti- Penetrate rate and the high superfine powder of radiance is suitable as reflecting filler, Low emissivity heat transfer layer is constituted together with film forming binder, can be had The transmission of effect cut-off heat.This thin layer heat insulating reflecting coating can be used for building, car and boat, petrochemical industry with porous material compound use The different places application such as oil tank equipment, grain depot, freezer, container, pipeline.

Heat conductive silica gel is high-end heat conduction compound, and will not solidification, will not conductive characteristic can avoid risk； It has knot performance and superpower heat-conducting effect

The utility model is after heating wire is powered, and its own has become far infrared radiation heat with reference to far-infrared ceramic heating tube Source, its surface temperature can gradually rise, and cause thermograde to increase, and make the heat transfer intensity enhancing of heating object, and absorb heat energy Power is greatly improved, and connects a nanotube by aluminium alloy heat-conducting layer, radiant heat energy is converted into far infrared heat energy by nanotube, The heat absorption speed of heating object is enhanced, is incubated by its thermal insulating layer on surface, can be absorbed by high temperature antiradiation coating Substantial amounts of radiant heat energy, because its emissivity is high, therefore the radiant heat energy of absorption can be converted into heating object easily absorbs it is remote red Outer heat energy, heat conversion is high.

It is obvious to a person skilled in the art that the utility model is not limited to the details of above-mentioned one exemplary embodiment, and And in the case of without departing substantially from spirit or essential attributes of the present utility model, can realize that this practicality is new in other specific forms Type.Therefore, no matter from the point of view of which point, embodiment all should be regarded as exemplary, and is nonrestrictive, this practicality is new The scope of type limits by appended claims rather than described above, it is intended that the equivalency fallen in claim is contained All changes in justice and scope are included in the utility model.Any reference in claim should not be considered as limitation Involved claim.

Claims (2)

1. a kind of nanometer far infrared energy-saving electric heating coil, it is characterised in that：Including far-infrared ceramic heating tube（1）, the far infrared Ceramic heating pipe（1）Upper winding nichrome wire（2）, the nichrome wire（2）One layer of heat conductive silica gel of Surface coating（3）, institute State heat conductive silica gel（3）Surface is aluminium alloy heat-conducting layer（4）, the aluminium alloy heat-conducting layer（4）Surface is socketed a nanotube（5）, The nanotube（5）Surface coats one layer of thermal insulation layer（6）, the thermal insulation layer（6）Surface coats a floor height temperature antiradiation coating （7）, the high temperature antiradiation coating（7）Surface uses stainless steel tube（8）It is used as shell.

2. a kind of nanometer far infrared energy-saving electric heating coil according to claim 1, it is characterised in that：The thermal insulation layer（6）Adopt With ZS-1 thermostable heat-isolating coating materials.