CN109413778A - A kind of heating disc component and radiant type heater - Google Patents
A kind of heating disc component and radiant type heater Download PDFInfo
- Publication number
- CN109413778A CN109413778A CN201811041677.4A CN201811041677A CN109413778A CN 109413778 A CN109413778 A CN 109413778A CN 201811041677 A CN201811041677 A CN 201811041677A CN 109413778 A CN109413778 A CN 109413778A
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- China
- Prior art keywords
- shell
- disc component
- heating disc
- reflector
- carbon fiber
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B3/00—Ohmic-resistance heating
- H05B3/40—Heating elements having the shape of rods or tubes
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D13/00—Electric heating systems
- F24D13/02—Electric heating systems solely using resistance heating, e.g. underfloor heating
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B3/00—Ohmic-resistance heating
- H05B3/02—Details
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Resistance Heating (AREA)
Abstract
The invention discloses a kind of heating disc component and radiant type heaters, including shell, pedestal is installed on rear side of shell, carbon fiber infrared quartz electrothermal tube is installed on rear side of pedestal, thermal insulation board is equipped between the front side and shell of the pedestal or before shell, the front surface of shell and/or thermal insulation board, which is attached with, leads thermal radiation heat dissipation film, aerofoil fan is equipped between below the upper end of carbon fiber infrared quartz electrothermal tube and the upper end cover of shell, the thermal radiation heat dissipation film of leading mainly is made of thermally conductive radiating layer with non-drying glue layer, non-drying glue layer is tightly engaged into thermally conductive radiating layer, heater includes reflector and heating disc component, heating disc component is located at the front side of reflector, and it is fixed on the reflector, and carbon fiber infrared quartz electrothermal tube is towards reflector, also adhere on reflector surface and leads thermal radiation heat dissipation film.The present invention solves the problems, such as the hot-spot of space heater, to achieve the purpose that promote product comfort and user's use feeling.
Description
Technical field
The present invention relates to electric heating equipment technical fields, and in particular to a kind of heating disc component and radiant type heater.
Background technique
Small warm sun is a kind of radiant type heater (or electric heater), and instant-heating is deep by user using the feeling as warmed oneself by a fire
Like.Its composition includes: the components such as heating disc component and reflector, and heating disc component includes: the portions such as shell, pedestal and heating wire
Part, wherein reflector, heating wire, pedestal and shell are sequentially arranged along the longitudinal direction, heating mode are as follows: the 3 of heating wire transmitting
It is reflected into front in heat transfer to reflector, again through reflector, so that user warms oneself.
However, the heating temperature under working condition can be very high since heating wire is fixed on the shell by pedestal,
So high temperature can be transmitted on shell by pedestal, and it is very high to rise to the temperature on shell also.Since temperature gets over high fever
Radianting capacity is stronger, in this way, the aluminum alloy casing meeting forward directed radiation of high temperature goes out very strong radiations heat energy, so that shape in front of transmitting disk
At high-temperature region, it may be assumed that form localized hyperthermia in front of shell, seriously reduce the comfort of product, influence the use feeling of user
By the even harm such as generation fire under serious conditions.
Summary of the invention
It is an object of the invention to overcome defect existing in the prior art, provide a kind of structure is simple, fever uniformly, heat
It is high-efficient, the hot-spot of space heater is solved the problems, such as, to reach the mesh for promoting product comfort and user's use feeling
Heating disc component and radiant type heater.
To achieve the above object, the technical scheme is to design a kind of heating disc component, including shell, after shell
Side is equipped with pedestal, and carbon fiber infrared quartz electrothermal tube is equipped on rear side of pedestal, the pedestal front side and shell it
Between or before shell be equipped with thermal insulation board, to prevent the heat of carbon fiber infrared quartz electrothermal tube transmitting to the hair
The front side of hot plate component is transmitted, and is attached in the front surface of the shell and/or thermal insulation board and is led thermal radiation heat dissipation film, in the carbon
Aerofoil fan is equipped between below the upper end of fibre infrared quartz electrothermal tube and the upper end cover of shell, in the upper end of the shell
Cover and be equipped with heat dissipation mesh, the thermal radiation heat dissipation film of leading mainly is made of thermally conductive radiating layer with non-drying glue layer, non-drying glue layer and
Thermally conductive radiating layer is tightly engaged into, and thermally conductive radiating layer is divided into conductive and heat-conductive radiating layer or is insulating heat-conductive radiating layer;Conductive and heat-conductive spoke
Layer is penetrated mainly to be made of far-infrared ray material, infrared transmitting material, conductive heat conducting material, bonding agent;Insulating heat-conductive radiating layer
Mainly it is made of far-infrared ray material, infrared transmitting material, insulating heat-conduction material, bonding agent.
Heating disc component in the present invention is provided with thermal insulation board on front side of pedestal, can prevent carbon fiber infrared stone in this way
The heat that English electrothermal tube generates transmits heat to the front side of heating disc component, can be avoided and forms high-temperature region in front of transmitting disk,
To eliminate hot-spot problem in front of heating disc component, product comfort and user's use feeling are promoted to reach
Purpose, and can avoid that the harm such as fire occurs.While in order to accelerate to produce interior carbon fiber infrared quartz electrothermal tube into through one
Raw heat is diffused into air as early as possible, not will cause the problem of carbon fiber infrared quartz electrothermal tube internal temperature increases.It leads
Thermal radiation heat dissipation film core technology is the thermally conductive radiating layer with radiation infrared function, and thermally conductive radiating layer has thermal energy-remote
The heat of itself can be converted to far-infrared radiation into air by the function of infrared ray conversion, thermally conductive radiating layer, thermally conductive spoke
When penetrating layer and be tightly attached to surface of shell, the heat of surface of shell will be conducted to thermally conductive radiating layer, and fever radiating layer absorbs carbon
After the heat on fibre infrared quartz electrothermal tube surface, thermally conductive radiating layer will be continual radiation infrared, chargeable heat
Amount, as heater surface heat is constantly consumed, the heat of carbon fiber infrared quartz electric heating will be issued by spreading, thermally conductive
The radiation infrared power of radiating layer is increasing with the raising of thermally conductive radiating layer temperature, that is to say, that thermally conductive radiating layer pair
In the release efficiency of carbon fiber infrared quartz electrothermal tube internal temperature be as the raising heat dissipation effect of casing surface temperature is got over
Obviously.And the heat Quick diffusing that axial flow blower can also issue carbon fiber infrared quartz electrothermal tube can add into air
The circulation rate of fast hot-air.
Preferred technical solution is that the pedestal is fixedly connected with the thermal insulation board by screw, this connection type letter
Singly, conveniently, more convenient for employee's operation.
Preferred technical solution is in addition, the shell is the hollow shell of open rearward end, the pedestal and the carbon fiber
Quartz infrared cooker electrothermal tube is located in the shell.This shell can protect heating wire carbon fiber infrared quartz electrothermal tube, keep away
Exempt from carbon fiber infrared quartz electrothermal tube to collide with damage, and the heat for emitting carbon fiber infrared quartz electrothermal tube is backward
Side transmitting.
Further preferred implementation technical solution is, the thermal insulation board is micarex or asbestos board, micarex or asbestos
Plate can be preferably heat-insulated, and micarex or asbestos board are also more resistant to high temperature.
For further preferred implementation technical solution in addition, the pedestal is base of ceramic, the shell is aluminum alloy casing
Or stainless steel casing.Base of ceramic high temperature resistance is good, and the amount of heat that can be issued to avoid heating wire damages pedestal;
Aluminum alloy casing, material is more light, and easy to process, can reduce the manufacturing cost of shell.
Preferred technical solution in addition, the thickness for leading thermal radiation heat dissipation film between 0.1-0.8mm, wherein it is thermally conductive
The thickness of radiating layer is between 0.19~0.79mm, and the thickness of non-drying glue layer is between 10-~20 micron.It is radiated in conductive and heat-conductive
In layer, far-infrared ray material mainly completes thermal energy-far infrared conversion, and conductive heat conducting material main function is by surface of shell
Heat is conducted to far-infrared ray material, and bonding agent effect is by far-infrared ray material, infrared transmitting material, conductive heat conducting material
It bonds together;In insulating heat-conductive radiating layer, far-infrared ray material mainly completes thermal energy-far infrared conversion, insulating heat-conductive
Material effects are that the heat of surface of shell is conducted to far-infrared ray material, and bonding agent effect is by far-infrared ray material, infrared
Line transmission material, insulating heat-conduction material bond together.
Further preferred technical solution in addition, the bonding agent is divided into two kinds in terms of function, the first, can penetrate
The bonding agent of infrared ray, second, general adhesive;Bonding agent is divided into three kinds in terms of type, Plastic, rubber, rubber and plastic
Class.
A kind of radiant type heater using the heating disc component, the heater include reflector and heat-generating disc group
Part, the heating disc component is located at the front side of the reflector and is fixed on the reflector, and the carbon fiber infrared
Quartz electrothermal tube also adheres on the reflector surface towards the reflector and leads thermal radiation heat dissipation film.
Preferred technical solution is in addition, the reflector is the board-like reflector of arc of front side indent, the carbon fiber infrared
The concave curved surface of reflector described in line quartz electrothermal tube face, the thermal radiation heat dissipation film of leading are attached to concave curved surface side.
A kind of electric heater includes radiant type heater.
The advantages and beneficial effects of the present invention are: heating disc component provided by the present invention and radiant type heater,
It is provided with thermal insulation board on front side of pedestal, can prevent the heat of hair carbon fiber infrared quartz electrothermal tube generation to heating disc component in this way
Front side transmitted, form higher temperature region to avoid in shell front side, and lead to the problem of hot-spot, can reach and mention
The purpose of product comfort is risen, and can avoid that the harm such as fire occurs.Wherein hair carbon fiber infrared quartz electrothermal tube is
A kind of high-tech product being different from traditional electrothermal tube such as wire, halogen, have long service life, electric conversion efficiency it is high,
The excellent properties such as infrared radiation, health environment-friendly.
After carbon fiber-quartz electric heating tube is powered, in frequent starting, closing and long continuous operation, power stability is one
Determine within the margin of tolerance, any instantaneous power impact will not be generated.
Carbon fiber-quartz electric heating tube also has the thermal efficiency high, and carbon fiber exothermic part is black body material, converted in electric heating
Journey, it is seen that light is seldom, and electric conversion efficiency waits until heater of the material as heater up to 95% or more, than nickel, chromium, tungsten, molybdenum,
It can save energy 30%;It is 30 DEG C higher than nickel chromium triangle metal electric heating pipe radiation temperature under equal-wattage, it is higher than tungsten molybdenum wire quartz electrothermal tube by 15
℃.The infrared ray of sending, by the directly absorbability extra-heavy such as human body, clothing, water, thermal loss is small in heat transfer process;To carbon
Hydrate absorption is stronger, has good carbon atom resonance effect, product efficiency greatly improves.
Carbon fiber exothermic part is rapid with heating, thermo-lag is small, fever is uniform, radiant heat transfer distance is remote, heat exchange is fast
Spend the features such as fast.Luminous flux is far smaller than the electrothermal tube of metallic heating body in the course of work, electric conversion efficiency be up to 95% with
Upper (that is you use the common electrothermal tube of 1000w, only need 700w when with carbon fiber electric heating tube).
Carbon fiber-quartz electric heating tube can collect far infrared and practicability rolls into one
The energy transmitting mode of carbon fiber-quartz electric heating tube is based on far infrared radiation, and wherein far infrared radiation efficiency reaches
To 70% or more.For carbon fiber-quartz electric heating tube after energization, can give off can be with the infrared energy of heated material.It is remote red
UV radiation heats a length of 2.3--14 μm of heat wave of fluorescent tube, is mainly used for HIGH INFRARED HEATING TECHNIQUE, with high density,
High-energy, high-strength radiation mode heat workpiece, are suitble to the requirement of modern production process high yield, high-quality.This section of wavelength
Far infrared line spectrum is referred to as " light of life ", accounts for 80% or more of whole wavelength.It can be inhaled by the hydrone in air simultaneously
It receives and generates resonance friction fuel factor, realize the effect for quickly improving heating environment temperature.It especially can effective activating human body
Histocyte promotes blood circulation, accelerates metabolism, enhancing immunocompetence, while also with deodorization dehumidifying antibacterial and other effects.
The long service life of carbon fiber-quartz electric heating tube
Carbon fiber-quartz electric heating tube, service life >=6000 hour or more, in frequent starting, closing and long continuous operation
In, heater non-oxidation and punch-through, photochromic uniform, the inside and outside cleaning of tube wall of generating heat.It is different from metallic heating body, carbon fiber sheet
The characteristic of body, it completely avoids the generation of electromagnetic field.Using the concave-convex surface for avoiding traditional approach paint on baking finish unit
Uneven phenomenon, makes quality be further enhanced.
And lead thermal radiation heat dissipation film can change be currently used in electric equipment products graphite radiating film can only by part heat
The shortcoming that conducts rapidly, and effectively cannot be dispersed into as early as possible heat while conducting heat in air is measured, it is a kind of
Thermal radiation heat dissipation film is led compared with existing graphite radiating film, work temperature in electric product surface can be distributed under conditions of 60 DEG C
3-6 DEG C of degree.
Detailed description of the invention
The structural schematic diagram of radiant type heater described in Fig. 1 invention one embodiment of the present invention;
The structural schematic diagram of heating disc component in radiant type heater shown in Fig. 2 Fig. 1;
The structural schematic diagram of radiant type heater described in Fig. 3 another embodiment of the present invention;
Fig. 4 is the structural schematic diagram of the heating disc component in radiant type heater shown in Fig. 3;
Fig. 5 is the A direction view of Fig. 2.
In figure: 1, shell;2, pedestal;3, carbon fiber infrared quartz electrothermal tube;4, thermal insulation board;5, thermally conductive heat loss through radiation
Film;5.1, thermally conductive radiating layer;5.2, non-drying glue layer;6, aerofoil fan;7, screw;8, reflector.
Specific embodiment
With reference to the accompanying drawings and examples, further description of the specific embodiments of the present invention.Following embodiment is only
For clearly illustrating technical solution of the present invention, and not intended to limit the protection scope of the present invention.
As shown in Fig. 1~5, the present invention is a kind of heating disc component, including shell 1, and the rear side of shell 1 is equipped with pedestal 2,
The rear side of pedestal 2 is equipped with carbon fiber infrared quartz electrothermal tube 3, between the front side and shell 1 of the pedestal 2 or in shell
Thermal insulation board 4 is equipped with before 1, to prevent the heat of the transmitting of carbon fiber infrared quartz electrothermal tube 3 to the heat-generating disc group
The front side of part is transmitted, and is attached in the front surface of the shell 1 and/or thermal insulation board 4 and is led thermal radiation heat dissipation film 5, in the carbon fiber
It ties up between below the upper end of quartz infrared cooker electrothermal tube 3 and 1 upper end cover and is equipped with aerofoil fan 6, in the upper end cover of the shell 1
It is equipped with heat dissipation mesh, the thermal radiation heat dissipation film 5 of leading mainly is made of thermally conductive radiating layer 5.1 with non-drying glue layer 5.2, adhesive sticker
Layer 5.2 is tightly engaged into thermally conductive radiating layer 5.1, and thermally conductive radiating layer 5.1 divides for conductive and heat-conductive radiating layer or is insulating heat-conductive radiation
Layer;Conductive and heat-conductive radiating layer is mainly made of far-infrared ray material, infrared transmitting material, conductive heat conducting material, bonding agent;Absolutely
The thermally conductive radiating layer of edge is mainly made of far-infrared ray material, infrared transmitting material, insulating heat-conduction material, bonding agent.
Heating disc component in the present invention is provided with thermal insulation board 4 on front side of pedestal 2, can prevent carbon fiber infrared in this way
The heat that quartz electrothermal tube 3 generates transmits heat to the front side of heating disc component, can be avoided and forms high temperature in front of transmitting disk
Area promotes product comfort and user's use feeling to eliminate the hot-spot problem in front of heating disc component to reach
The purpose received, and can avoid that the harm such as fire occurs.While in order to accelerate into through one by interior carbon fiber infrared quartz electric heating
The heat that pipe 3 generates is diffused into air as early as possible, not will cause that 3 internal temperature of carbon fiber infrared quartz electrothermal tube is raised to ask
Topic.Leading thermal radiation heat dissipation film core technology is the thermally conductive radiating layer 5.1 with radiation infrared function, thermally conductive radiating layer 5.1
Has the function of thermal energy-far infrared conversion, the heat of itself can be converted to far-infrared radiation and arrived by thermally conductive radiating layer 5.1
In air, when thermally conductive radiating layer 5.1 is tightly attached to 1 surface of shell, the heat on 1 surface of shell will be conducted to thermally conductive radiating layer
5.1, after fever radiating layer 5.1 absorbs the heat on 3 surface of carbon fiber infrared quartz electrothermal tube, thermally conductive radiating layer 5.1 will
It is continual radiation infrared, consumption of calorie, as heater surface heat is constantly consumed, carbon fiber infrared quartz electricity
The heat of heat 3 will be issued by spreading, and the radiation infrared power of thermally conductive radiating layer 5.1 is with thermally conductive 5.1 temperature of radiating layer
Raising increasing, that is to say, that thermally conductive the distributing for 3 internal temperature of carbon fiber infrared quartz electrothermal tube of radiating layer 5.1
Effect is as the raising heat dissipation effect of 1 surface temperature of shell is more obvious.And axial flow blower can be also with by carbon fiber infrared stone
The heat Quick diffusing that English electrothermal tube 3 issues can accelerate the circulation rate of hot-air into air.
The preferred embodiment of the invention is that the pedestal is fixedly connected with the thermal insulation board 4 by screw 7, this company
Mode is connect simply, conveniently, more convenient for employee's operation.
The preferred embodiment of the invention is in addition, the shell 1 is the hollow shell 1 of open rearward end, 2 He of pedestal
The carbon fiber infrared quartz electrothermal tube 3 is located in the shell 1.This shell 1 can protect heating wire carbon fiber infrared
Quartz electrothermal tube 3 avoids carbon fiber infrared quartz electrothermal tube 3 from colliding with damage, and makes carbon fiber infrared quartz electric heating
The heat that pipe 3 emits is transmitted to rear side.
Further preferred embodiment of the present invention is, the thermal insulation board 4 is micarex or asbestos board, micarex or stone
Cotton plate can be preferably heat-insulated, and micarex or asbestos board are also more resistant to high temperature.
For further preferred embodiment of the present invention in addition, the pedestal 2 is base of ceramic, the shell 1 is aluminium alloy
Shell or stainless steel casing.Base of ceramic high temperature resistance is good, and the amount of heat that can be issued to avoid heating wire causes pedestal
Damage;Aluminum alloy casing, material is more light, and easy to process, can reduce the manufacturing cost of shell.
The preferred embodiment of the invention in addition, the thickness for leading thermal radiation heat dissipation film 5 between 0.1-0.8mm,
In, the thickness of thermally conductive radiating layer is between 0.19~0.79mm, and the thickness of non-drying glue layer is between 10-~20 micron.In conduction
In thermally conductive radiating layer, far-infrared ray material mainly completes thermal energy-far infrared conversion, and conductive heat conducting material main function is by shell
The heat on 1 surface of body is conducted to far-infrared ray material, and bonding agent effect is by far-infrared ray material, infrared transmitting material, leads
Conductance hot material bonds together;In insulating heat-conductive radiating layer, far-infrared ray material is mainly completed thermal energy-far infrared and is turned
It changes, insulating heat-conduction material effect is that the heat of surface of shell is conducted to far-infrared ray material, and bonding agent effect is by far infrared
Wire material, infrared transmitting material, insulating heat-conduction material bond together.
Further preferred embodiment of the present invention in addition, the bonding agent is divided into two kinds in terms of function, the first, can
With through infrared ray bonding agent, second, general adhesive;Bonding agent is divided into three kinds in terms of type, Plastic, rubber
Class, rubber and plastic class.
A kind of radiant type heater using the heating disc component, the heater include 8 heating disc component of reflector,
The heating disc component is located at the front side of the reflector 8 and is fixed on the reflector 8, and the carbon fiber infrared
Quartz electrothermal tube 3 also adheres on the surface of the reflector 8 towards the reflector 8 and leads thermal radiation heat dissipation film 5.
The preferred embodiment of the invention is in addition, the reflector 8 is the board-like reflector 8 of arc of front side indent, the carbon
The concave curved surface of reflector described in 3 face of fibre infrared quartz electrothermal tube, the thermal radiation heat dissipation film 5 of leading are attached to concave curved surface one
Side.
A kind of electric heater includes radiant type heater.
The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art
For member, without departing from the technical principles of the invention, several improvements and modifications can also be made, these improvements and modifications
Also it should be regarded as protection scope of the present invention.
Claims (10)
1. a kind of heating disc component, including shell, pedestal is installed on rear side of shell, which is characterized in that the rear side of pedestal is installed
There is carbon fiber infrared quartz electrothermal tube, thermal insulation board be equipped between the front side and shell of the pedestal or before shell,
To prevent the heat of the carbon fiber infrared quartz electrothermal tube transmitting from transmitting to the front side of the heating disc component, described outer
The front surface of shell and/or thermal insulation board, which is attached with, leads thermal radiation heat dissipation film, in the upper end of the carbon fiber infrared quartz electrothermal tube
With below the upper end cover of shell between be equipped with aerofoil fan, on the upper end cover of the shell be equipped with heat dissipation mesh, it is described thermally conductive
Heat loss through radiation film is mainly made of thermally conductive radiating layer with non-drying glue layer, and non-drying glue layer is tightly engaged into thermally conductive radiating layer, thermally conductive spoke
It penetrates layer and is divided into conductive and heat-conductive radiating layer or for insulating heat-conductive radiating layer;Conductive and heat-conductive radiating layer is mainly by far-infrared ray material, red
Outside line transmission material, conductive heat conducting material, bonding agent composition;Insulating heat-conductive radiating layer is mainly by far-infrared ray material, infrared ray
Transmission material, insulating heat-conduction material, bonding agent composition.
2. heating disc component as described in claim 1, which is characterized in that the pedestal and the thermal insulation board are fixed by screw
Connection.
3. heating disc component as claimed in claim 2, which is characterized in that the shell is the hollow shell of open rearward end, institute
It states pedestal and the carbon fiber infrared quartz electrothermal tube is located in the shell.
4. heating disc component as claimed in claim 3, which is characterized in that the thermal insulation board is micarex or asbestos board.
5. heating disc component as claimed in claim 4, which is characterized in that the pedestal is base of ceramic, and the shell is aluminium
Alloy shell or stainless steel casing.
6. heating disc component as described in claim 1, which is characterized in that the thickness for leading thermal radiation heat dissipation film is in 0.1-
Between 0.8mm, wherein the thickness of thermally conductive radiating layer is between 0.19~0.79mm, and the thickness of non-drying glue layer is in 10-~20 micron
Between.
7. heating disc component as claimed in claim 6, which is characterized in that the bonding agent is divided into two kinds in terms of function, and
One kind, can penetrate infrared ray bonding agent, second, general adhesive;Bonding agent is divided into three kinds in terms of type, plastics
Class, rubber, rubber and plastic class.
8. a kind of radiant type heater using heating disc component described in any one of claim 1~7, which is characterized in that
The heater includes reflector and heating disc component, and the heating disc component is located at the front side of the reflector and is fixed on
On the reflector, and the carbon fiber infrared quartz electrothermal tube is towards the reflector, also attached on the reflector surface
Lead thermal radiation heat dissipation film.
9. the radiant type heater stated according to claim 8, which is characterized in that the reflector is that the arc of front side indent is board-like anti-
Cover is penetrated, the concave curved surface of reflector described in the carbon fiber infrared quartz electrothermal tube face is described to lead thermal radiation heat dissipation film attachment
In concave curved surface side.
10. a kind of electric heater, which is characterized in that include radiant type heater as claimed in claim 8 or 9.
Priority Applications (1)
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CN201811041677.4A CN109413778A (en) | 2018-09-07 | 2018-09-07 | A kind of heating disc component and radiant type heater |
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CN201811041677.4A CN109413778A (en) | 2018-09-07 | 2018-09-07 | A kind of heating disc component and radiant type heater |
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Family
ID=65464541
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115365182A (en) * | 2021-08-20 | 2022-11-22 | 江苏九州电器有限公司 | Heating plate assembly and radiant heater |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN201706581U (en) * | 2010-05-10 | 2011-01-12 | 朱炳康 | Carbon fiber quartz electric heating tube warmer with blowing device |
CN203801083U (en) * | 2014-05-04 | 2014-08-27 | 广东美的环境电器制造有限公司 | Heating disc assembly, radial type warmer and electrical heater |
CN107384238A (en) * | 2017-08-16 | 2017-11-24 | 刘秋雷 | One kind leads thermal radiation heat dissipation film |
-
2018
- 2018-09-07 CN CN201811041677.4A patent/CN109413778A/en active Pending
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN201706581U (en) * | 2010-05-10 | 2011-01-12 | 朱炳康 | Carbon fiber quartz electric heating tube warmer with blowing device |
CN203801083U (en) * | 2014-05-04 | 2014-08-27 | 广东美的环境电器制造有限公司 | Heating disc assembly, radial type warmer and electrical heater |
CN107384238A (en) * | 2017-08-16 | 2017-11-24 | 刘秋雷 | One kind leads thermal radiation heat dissipation film |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115365182A (en) * | 2021-08-20 | 2022-11-22 | 江苏九州电器有限公司 | Heating plate assembly and radiant heater |
CN115365182B (en) * | 2021-08-20 | 2023-10-20 | 江苏九州电器有限公司 | Heating disc assembly and radiation type warmer |
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Application publication date: 20190301 |