CN209120496U - A kind of heating device based on nano-far-infrared - Google Patents

Abstract

The utility model discloses a kind of heating device based on nano-far-infrared, including thermally conductive cup, heating module；Heating cabinet is equipped in the thermally conductive cup；The heating module includes the nano-far-infrared coating of the outer side wall surface set on thermally conductive cup, and the conductive coating of the both ends nano-far-infrared coating surface set on thermally conductive cup；The conductive coating and external power supply are electrically connected, for being powered to nano-far-infrared coating；The nano-far-infrared coating is for heating thermally conductive cup after being powered.The utility model efficiently uses nano-far-infrared heating, while temperature measuring equipment monitors heating temperature in real time, achievees the purpose that rapid heating, temperature-controllable, healthy and safe.

Description

A kind of heating device based on nano-far-infrared

Technical field

The utility model relates to heating device technology area more particularly to a kind of heating devices based on nano-far-infrared.

Background technique

Far infrared is also known as long-wave infrared, and wave-length coverage is from 5.6 μm to 1000 μm.Far infrared heating technology utilizes The far infrared irradiation that hot object source is emitted is heated material, and material is made to absorb interior molecules and atom after far infrared It is a kind of process of radiant heat transfer that " resonance ", which generates thermal energy to achieve the purpose that heating,.Heating effect can be improved using this technology Rate, it is energy saving.There is heating in particular for heating the heating device for the smoking set that do not burn in existing far infrared heater Slowly, the problems such as heating is uneven, temperature is uncontrollable.

Utility model content

The purpose of the utility model is to provide a kind of heating devices based on nano-far-infrared, efficiently use nano-far-infrared Heating, while temperature measuring equipment monitors heating temperature in real time achievees the purpose that rapid heating, temperature-controllable, healthy and safe.

To achieve the above object, using following technical scheme:

A kind of heating device based on nano-far-infrared, including thermally conductive cup, heating module；Heating is equipped in the thermally conductive cup Storehouse；The heating module includes the nano-far-infrared coating of the outer side wall surface set on thermally conductive cup, and set on the both ends of thermally conductive cup The conductive coating of nano-far-infrared coating surface；The conductive coating and external power supply are electrically connected, for nano-far-infrared Coating is powered；The nano-far-infrared coating is for heating thermally conductive cup after being powered.

Preferably, the far infrared heater further includes temperature measuring equipment, master controller；The temperature measuring equipment is for detecting The real time temperature of thermally conductive cup, and will test result and feed back to master controller, so that main controller controls heating module works.

Preferably, the temperature measuring equipment includes the temperature sensor being electrically connected with master controller；The temperature measuring equipment is set Among the bottom of thermally conductive cup, the bottom margin of thermally conductive cup is equipped with several air inlets for leading to heating cabinet.

Preferably, the heating module further includes far-infrared reflection cover；The far-infrared reflection cover is nested in thermally conductive cup Outside, and the inner sidewall of the lateral wall of thermally conductive cup and far-infrared reflection cover forms cavity, nano-far-infrared coating and conductive coating It is placed in the cavity.

Preferably, the inner sidewall of the far-infrared reflection cover does electroplated coating processing, for sending out nano-far-infrared coating Infrared reflection out is to thermally conductive cup.

Preferably, the heating module further includes two metallic conduction rings, positive electrified wire, cathode electrified wire；It is described Two metallic conduction rings are respectively nested in the conductive coating surface at thermally conductive cup both ends；Wherein metallic conduction ring connection anode, which is powered, leads Line, another metallic conduction ring connect cathode electrified wire；It is described anode electrified wire, cathode electrified wire respectively with external power supply Positive and negative anodes connection.

Preferably, the conductive coating is made of metallic paint spraying.

Preferably, the thermally conductive cup is using the material that can penetrate infrared light.

Using the above scheme, the beneficial effects of the utility model are:

When heating module work, the far ir ray of nano-far-infrared coating is on the one hand directly to the object in heating cabinet The far ir ray of directive far-infrared reflection cover can be reflected back into thermally conductive cup, mentioned by heating, another aspect far-infrared reflection cover High usage heats the object for being put in heating cabinet, temperature measuring equipment can be by thermally conductive cup so that thermally conductive cup generates rapidly high temperature Real time temperature be back to master controller, master controller reaches rapid heating, temperature-controllable, is good for control heating module work The purpose of Kang Anquan.

Detailed description of the invention

Fig. 1 is the perspective view of the utility model；

Fig. 2 is the cross section view of the utility model；

Fig. 3 is the principles of the present invention block diagram；

Wherein, description of drawing identification:

1-thermally conductive cup, 2-heating modules,

3-temperature measuring equipments, 4-master controllers,

21-far-infrared reflection covers, 22-nano-far-infrared coatings,

23-conductive coatings, 24-metallic conduction rings,

25-positive electrified wires, 26-cathode electrified wires

31-temperature sensors.

Specific embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in detail.

Shown in 3, the utility model provides a kind of heating device based on nano-far-infrared, including thermally conductive cup 1, heating module 2；Heating cabinet is equipped in the thermally conductive cup 1；The heating module 2 includes the outer side wall surface set on thermally conductive cup 1 Nano-far-infrared coating 22, and the conductive coating 23 set on 22 surface of both ends nano-far-infrared coating of thermally conductive cup 1；It is described to lead Electrocoat 23 and external power supply are electrically connected, for being powered to nano-far-infrared coating 22；The nano-far-infrared coating 22 is used 1 hot cup is led in heating after energization.

Wherein, the far infrared heater further includes temperature measuring equipment 3, master controller 4；The temperature measuring equipment 3 is for examining The real time temperature of thermally conductive cup 1 is surveyed, and will test result and feed back to master controller 4, so that the heating module 2 processed of master controller 4 works. The temperature measuring equipment 3 includes the temperature sensor 31 being electrically connected with master controller 4；The temperature measuring equipment 3 is set to thermally conductive cup 1 Among bottom, the bottom margin of thermally conductive cup 1 is equipped with several air inlets for leading to heating cabinet.

The heating module 2 further includes that far-infrared reflection 21 covers；The far-infrared reflection cover 21 is nested in the outer of thermally conductive cup 1 Side, and the inner sidewall of the lateral wall of thermally conductive cup 1 and far-infrared reflection cover 21 forms cavity, nano-far-infrared coating 22 and conductive painting Layer 23 is placed in the cavity.The inner sidewall of the far-infrared reflection cover 21 does electroplated coating processing, for applying nano-far-infrared The infrared reflections that layer 22 issues are to thermally conductive cup 1.The heating module 2 further includes two metallic conduction rings 24, positive electrified wire 25, cathode electrified wire 26；The two metallic conductions ring 24 is respectively nested in 23 surface of conductive coating at thermally conductive 1 both ends of cup；Its In a metallic conduction ring 24 connect positive electrified wire 25, another metallic conduction ring 24 connects cathode electrified wire 26；It is described just Pole electrified wire 25, cathode electrified wire 26 are connect with the positive and negative anodes of external power supply respectively.The conductive coating 23 uses metal Paint spraying is made, such as copper powder.The thermally conductive cup 1 is using the material that can penetrate infrared light, such as transparent material resistant to high temperature.

Utility model works principle:

The utility model can be used for but be not limited only to heat the heating for the smoking set that do not burn.Thermally conductive cup 1 uses thermostable transparent Material arranges nano-far-infrared coating 22 in the outer side wall surface of thermally conductive cup 1, and at the both ends of nano-far-infrared coating 22, arrangement is led Electrocoat 23 enables the conductive work of its nano-far-infrared coating 22, in thermostable transparent to 22 surface of nano-far-infrared coating High-accuracy far-infrared reflection cover 21 is laid in thermally conductive 1 outside of cup again, is used for reflecting far-infrared ray, and thermometric dress is placed in thermally conductive 1 bottom of cup Set 3.

Far infrared coating is a kind of Tuo Malin minerals rich in far infrared radiation function by silver powder made of refining It is far infrared coating on the interface or object of needs that shape particular matter is applied to after mixing with specific liquid.

When heating module 2 works, the far ir ray of nano-far-infrared coating 22 is on the one hand directly in heating cabinet The far ir ray of directive far-infrared reflection cover 21 can be reflected back into and lead by object heating, another aspect far-infrared reflection cover 21 Hot cup 1 is increased operation rate so that the rapid generation high temperature of thermally conductive cup 1, heats the object for being put in heating cabinet.Temperature measuring equipment 3 The real time temperature of thermally conductive cup 1 can be back to master controller 4, master controller 4 reaches and adds rapidly to control the work of heating module 2 Heat, temperature-controllable, healthy and safe purpose.

The above is only the preferred embodiments of the present utility model only, is not intended to limit the utility model, all practical at this Made any modifications, equivalent replacements, and improvements etc., should be included in the guarantor of the utility model within novel spirit and principle Within the scope of shield.

Claims (8)

1. a kind of heating device based on nano-far-infrared, which is characterized in that including thermally conductive cup, heating module；The thermally conductive cup It is interior to be equipped with heating cabinet；The heating module includes the nano-far-infrared coating of the outer side wall surface set on thermally conductive cup, and set on leading The conductive coating of the both ends nano-far-infrared coating surface of hot cup；The conductive coating and external power supply are electrically connected, for pair Nano-far-infrared coating is powered；The nano-far-infrared coating is for heating thermally conductive cup after being powered.

2. the heating device according to claim 1 based on nano-far-infrared, which is characterized in that the Far-infrared Heating dress Set further includes temperature measuring equipment, master controller；The temperature measuring equipment is used to detect the real time temperature of thermally conductive cup, and it is anti-to will test result It feeds master controller, so that main controller controls heating module works.

3. the heating device according to claim 2 based on nano-far-infrared, which is characterized in that the temperature measuring equipment includes The temperature sensor being electrically connected with master controller；The temperature measuring equipment is set among the bottom of thermally conductive cup, the bottom of thermally conductive cup Edge is equipped with several air inlets for leading to heating cabinet.

4. the heating device according to claim 1 based on nano-far-infrared, which is characterized in that the heating module is also wrapped Include far-infrared reflection cover；The far-infrared reflection cover is nested in the outside of thermally conductive cup, and the lateral wall of thermally conductive cup and far infrared are anti- The inner sidewall for penetrating cover forms cavity, and nano-far-infrared coating and conductive coating are placed in the cavity.

5. the heating device according to claim 4 based on nano-far-infrared, which is characterized in that the far-infrared reflection cover Inner sidewall do electroplated coating processing, the infrared reflection for issuing nano-far-infrared coating to thermally conductive cup.

6. the heating device according to claim 4 based on nano-far-infrared, which is characterized in that the heating module is also wrapped Include two metallic conduction rings, positive electrified wire, cathode electrified wire；The two metallic conductions ring is respectively nested in thermally conductive cup both ends Conductive coating surface；Wherein a metallic conduction ring connects positive electrified wire, and another metallic conduction ring connection cathode energization is led Line；The anode electrified wire, cathode electrified wire are connect with the positive and negative anodes of external power supply respectively.

7. the heating device according to claim 1 based on nano-far-infrared, which is characterized in that the conductive coating uses Metallic paint spraying is made.

8. the heating device according to claim 1 based on nano-far-infrared, which is characterized in that the thermally conductive cup uses energy Penetrate the material of infrared light.