CN208710828U - Far infrared heat care device - Google Patents
Far infrared heat care device Download PDFInfo
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- CN208710828U CN208710828U CN201721888535.2U CN201721888535U CN208710828U CN 208710828 U CN208710828 U CN 208710828U CN 201721888535 U CN201721888535 U CN 201721888535U CN 208710828 U CN208710828 U CN 208710828U
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Abstract
The utility model is suitable for health care facility technical field, provide a kind of Far infrared heat care device, the Far infrared heat care device is radiation infrared outward by glass-ceramics heating plate, the glass-ceramics heating plate and electrically-controlled component are electrically connected, after electrically-controlled component is powered to glass-ceramics heating plate, glass-ceramics heating plate i.e. can be radiation infrared outward, eliminates the use of electrothermal tube, which is designed more frivolous.In addition hingedly it is arranged for emitting far-infrared irradiation plate with pedestal in Far infrared heat care device provided by the utility model, and hinged place has damping, when needing to adjust the angle of far infrared transmitting, it need to only push irradiation plate with respect to base rotation, after angular adjustment is good, it looses one's grip, the damping force of irradiation plate and pedestal hinged place will continue to keep the posture of irradiation plate, to carry out the irradiation of human body.
Description
Technical field
The utility model belongs to health care facility technical field more particularly to a kind of Far infrared heat care device.
Background technique
Since the vibration frequency of far infrared and human inner cell's molecule is close, this " life light wave " penetrate into vivo it
Afterwards, the resonance that will cause the atom and molecule of human body cell, through resonant absorption, frictional heat generation forms hot anti-between molecule
It answers, promotes subcutaneous deep temperature to rise, and make Marjoram Extract, accelerate blood circulation, be conducive to removing blood vessel and hoard object and body
Interior harmful substance will harm the obstacle cleaning of metabolism, bring back to life tissue again, promotes ferment to generate, reach activation tissue
Cell prevents aging, strengthening immune system.So far infrared is for a variety of diseases caused by blood circulation and microcirculation disorder
All have improvement and preventive and therapeutic effect.There is a kind of warm care device that can be emitting far-infrared in the market, it can be to people
Body is emitting far-infrared to reach above-mentioned healthcare function.Specially on glass panels by far-infared ceramic powder coating, through height
After warm steel process processing, a kind of dope layer that can be radiation infrared is formed on glass panels, then in glass panel
Side electrothermal tube is set, glass panel is heated by electrothermal tube so that the dope layer temperature on glass panel increases,
And then it is radiation infrared outward.
However, this mode in the side of glass panel setting electrothermal tube, will increase the thickness of warm care device, makes
It is very heavy that care device must be warmed, not Easy Move.In addition, the warm care device in existing is unable to adjust the hair of far infrared
Direction is penetrated, it, will be very inconvenient when user needs to irradiate other positions of body.
Utility model content
The purpose of this utility model is to provide a kind of Far infrared heat care devices, it is intended to solve photograph in the prior art
Protection unit thickness is thicker, so that warm care device is very heavy, not Easy Move and is unable to adjust the far infrared direction of the launch
The technical issues of.
The utility model is realized in this way a kind of Far infrared heat care device, including the pedestal that plays a supportive role with
And side and the pedestal hingedly and for emitting far-infrared irradiation plate, the pedestal and the hinged place for irradiating plate have
There is damping, the irradiation plate includes putting down for emitting far-infrared glass-ceramics heating plate, with the glass-ceramics heating plate
Row and the backboard being stacked, frame is tightly in the edge of the glass-ceramics heating plate and the backboard to send out the devitrified glass
The connection framework and be electrically connected with the glass-ceramics heating plate and be used to be the crystallite that hot plate and the backboard are fixed
Glass heating board is powered so that the emitting far-infrared electrically-controlled component of the glass-ceramics heating plate.
Further, the Far infrared heat care device further includes being set to the backboard and the glass-ceramics heating
Heat insulation foam between plate.
Further, the glass-ceramics heating plate is identical with the backboard shape and is in polygon, the connection framework
Including multiple end to end and frame be set to the glass-ceramics heating plate and backboard side length direction profile and will be adjacent
The connector that the profile is fixedly connected, each profile include along the glass-ceramics heating plate and backboard side length direction
The rectangular square tube of extension, the rectangular square tube are equipped with the square hole extended along its length, the both ends point of the connector
In each square hole not by the end insertion of the adjacent rectangular square tube.
Further, each profile further includes being fixedly connected on the rectangular square tube side wall and for fixing the crystallite
The holder of glass heating board, the holder are equipped with the first slot being inserted into for the edge of the glass-ceramics heating plate.
Further, each profile further includes being close to the first slot inner wall setting and being used to support the crystallite glass
The heat insulating mattress of glass heating board.
Further, the rectangular square tube includes close to the glass-ceramics heating plate and being fixedly installed the holder
The first side plate and be fixedly connected on first side plate and be located at the connection framework on the inside of the second side plate, be fixedly connected
In first side plate and be located at the connection framework on the outside of third side plate and two sides be respectively fixedly connected in described second
The 4th side plate of side plate and the third side plate far from first side plate side, the profile further include be fixedly connected on it is described
The outer wall of second side plate and with glass-ceramics heating plate gusset disposed in parallel, the gusset, second side plate and
The glass-ceramics heating plate surrounds the second slot for heat insulation foam insertion.
Further, the gusset and second side plate, which are formed, is located at the gusset backwards to second slot-side
Step, the edge of the backboard are placed on the step and are fixedly connected with the gusset.
Further, the shape of the glass-ceramics heating plate and the backboard is rectangle, and the connection framework includes four
A end to end profile, the rectangular shape of the connector and square hole in the adjacent rectangular square tube is inserted at both ends
It is interior.
Further, the Far infrared heat care device further includes multiple be fixedly installed in the connection framework
Support and the multiple idler wheels for being rotatably dispose on support frame as described above and being used to support the Far infrared heat care device movement.
Further, each idler wheel is universal rolling wheel.
The utility model compared with the existing technology have the technical effect that Far infrared heat provided by the utility model looks after dress
, the glass-ceramics heating plate and electrically-controlled component electric connection radiation infrared outward by glass-ceramics heating plate are set, it is automatically controlled
After component is powered to glass-ceramics heating plate, glass-ceramics heating plate i.e. can be radiation infrared outward, eliminates electrothermal tube
Use, which is designed more frivolous, facilitates migration.In addition the utility model provides
Far infrared heat care device in be hingedly arranged with pedestal for emitting far-infrared irradiation plate, and hinged place has and hinders
Buddhist nun need to only push irradiation plate with respect to base rotation when needing to adjust the angle of far infrared transmitting, angular adjustment it is good it
Afterwards, it looses one's grip, the damping force of irradiation plate and pedestal hinged place will continue to keep the posture of irradiation plate, to carry out the photograph of human body
It penetrates.
Detailed description of the invention
In order to illustrate more clearly of the technical solution of the utility model embodiment, below will to the utility model embodiment or
Attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, drawings described below is only
Some embodiments of the utility model, for those of ordinary skill in the art, without creative efforts,
It is also possible to obtain other drawings based on these drawings.
Fig. 1 is the perspective view of Far infrared heat care device provided by the embodiment of the utility model;
Fig. 2 is the partial enlarged view in Fig. 1;
Fig. 3 is the perspective view of Far infrared heat care device provided by the embodiment of the utility model;
Fig. 4 is the exploded view of Far infrared heat care device provided by the embodiment of the utility model;
Fig. 5 is the enlarged drawing at the position A in Fig. 1;
Fig. 6 is the exploded view at Fig. 4;
Fig. 7 is the partial schematic diagram after hiding connector;
Fig. 8 is connection framework partial enlarged view provided by the embodiment of the utility model;
Fig. 9 is the top view of glass-ceramics heating plate provided by the embodiment of the utility model;
Figure 10 is the side view of glass-ceramics heating plate provided by the embodiment of the utility model.
Description of symbols:
10 | Glass-ceramics heating plate | 3121 | First slot |
20 | Backboard | 313 | Heat insulating mattress |
30 | Connection framework | 314 | Gusset |
31 | Profile | 315 | Second slot |
311 | Rectangular square tube | 316 | Step |
3111 | First side plate | 32 | Connector |
3112 | Second side plate | 40 | Electrically-controlled component |
3113 | Third side plate | 50 | Heat insulation foam |
3114 | 4th side plate | 60 | Support frame |
3115 | Square hole | 61 | Jack |
312 | Holder | 70 | Idler wheel |
80 | Pedestal | ||
81 | Connect shaft | ||
33 | Support rod | ||
90 | Irradiate plate |
Specific embodiment
The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning
Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng
The embodiment for examining attached drawing description is exemplary, it is intended to for explaining the utility model, and should not be understood as to the utility model
Limitation.
In the description of the present invention, it should be noted that when to be referred to as " being fixed on " or " being set to " another for element
A element, it can be directly on the other element or indirectly on another element.When an element is known as " even
It is connected to " another element, it can be directly to another element or be indirectly connected on another element.
It is to be appreciated that term " length ", " width ", "upper", "lower", "front", "rear", "left", "right", "vertical",
The orientation or positional relationship of the instructions such as "horizontal", "top", "bottom" "inner", "outside" is that orientation based on the figure or position are closed
System, is merely for convenience of describing the present invention and simplifying the description, rather than the device or element of indication or suggestion meaning are necessary
It with specific orientation, is constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.
In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance
Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or
Implicitly include one or more of the features.The meaning of " plurality " is two or two in the description of the present invention,
More than, unless otherwise specifically defined.
For the ordinary skill in the art, above-mentioned term can be understood in the utility model as the case may be
In concrete meaning.
In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation
Example, the present invention will be further described in detail.
Referring to Figure 1 to Fig. 6, Far infrared heat care device provided by the embodiment of the utility model includes playing a supportive role
Pedestal 80 and side and the pedestal 80 it is hinged and be used for emitting far-infrared irradiation plate 90, the pedestal 80 with it is described
Irradiate plate 90 hinged place have damping, the irradiation plate 90 include for emitting far-infrared glass-ceramics heating plate 10,
It is parallel with the glass-ceramics heating plate 10 and be stacked backboard 20, frame is tightly in the glass-ceramics heating plate 10 and described
The edge of backboard 20 with by the fixed connection framework 30 of the glass-ceramics heating plate 10 and the backboard 20 and with it is described micro-
Crystal glass heating board 10 is electrically connected and for powering for the glass-ceramics heating plate 10 so that the glass-ceramics heating plate
10 emitting far-infrared electrically-controlled components 40.
Referring to Figure 1 to Fig. 6, Far infrared heat care device provided by the embodiment of the utility model is sent out by devitrified glass
Hot plate 10 is radiation infrared outward, and the glass-ceramics heating plate 10 and electrically-controlled component 40 are electrically connected, and electrically-controlled component 40 is to micro-
After crystal glass heating board 10 is powered, glass-ceramics heating plate 10 i.e. can be radiation infrared outward, eliminates making for electrothermal tube
With enabling the Far infrared heat care device to design more frivolous.In addition provided by the embodiment of the utility model remote red
Hingedly it is arranged in outer warm care device for emitting far-infrared irradiation plate 90 and pedestal 80, and hinged place has resistance
Buddhist nun need to only push irradiation plate 90 to rotate relative to pedestal 80, angular adjustment when needing to adjust the angle of far infrared transmitting
It after good, looses one's grip, the damping force of irradiation plate 90 and 80 hinged place of pedestal will continue to keep the posture of irradiation plate 90, to carry out
The irradiation of human body.Preferably, be advisable using following articulated structure: the pedestal 80 is equipped with the jack extended along the vertical direction
61, the Far infrared heat care device further includes the support for being fixedly installed in the connection framework and being inserted into the jack 61
Bar 33 and both ends are connected to the side wall of the jack 61 and through the connection shaft 81 of the support rod 33 setting, the connections
Shaft 81 is horizontally extending and parallel with the irradiation in-plane of plate 90, and the support rod 33 can be in the jack 61
The angle of the irradiation plate 90 is adjusted around connection shaft 81 rotation.
Glass-ceramics heating plate 10 in the present embodiment is identical as glass-ceramics heating plate 10 in the prior art, it may be assumed that is
A variety of non-metallic conducting materials such as inorganic ceramic, glass and far-infrared radiation material are answered by the techniques such as printing, high temperature sintering
It closes in the outer surface of microcrystal glass plate, is permanently made an entirety with microcrystal glass plate and forms one layer of inorganic conductive resistive film
Layer, far infrared is issued after resistive layer heating power, forms infrared source.In addition emitted far using glass-ceramics heating plate 10
Infrared ray, resistive layer generate heat after being powered, and each region of resistive layer is heated more balanced, and far infrared can be along crystallite glass
Therefore the in-plane uniform emission of glass heating board 10 is conducive to human body thermally equivalent.
Refer to Fig. 7, further, the Far infrared heat care device further include be set to the backboard 20 with it is described
Heat insulation foam 50 between glass-ceramics heating plate 10.Heat insulation foam 50 can prevent glass-ceramics heating plate 10 from sending out to 20 direction of backboard
Far infrared is penetrated, is conducive to assemble heat to human body direction, reduces the loss of heat, improve the utilization efficiency of energy.
Fig. 5 to Fig. 8 is referred to, further, the glass-ceramics heating plate 10 is identical with 20 shape of backboard and is in
Polygon, the connection framework 30 include that multiple end to end and frame is set to the glass-ceramics heating plate 10 and the backboard 20
The profile 31 in side length direction and the connector 32 for being fixedly connected with the adjacent profile 31, each profile 31 includes along described
The rectangular square tube 311 that glass-ceramics heating plate 10 and 20 side length direction of the backboard extend, the rectangular square tube 311 are equipped with edge
The square hole 3115 that its length direction extends, the both ends of the connector 32 are respectively by the end of the adjacent rectangular square tube 311
In each square hole 3115 of insertion.In assembling, first glass-ceramics heating plate 10 and backboard 20 are fixed on profile 31,
Then devitrified glass will can be realized in square hole 3115 that the both ends of connector 32 are inserted into two neighboring rectangular square tube 311
Heating board 10 is connected with the frame of backboard 20, is dismounted very convenient, it is preferable that the connector 32 is inserted into the square hole
After in 3115, connector 32 is fixedly connected with rectangular tube by screw, to avoid connector 32 is detached from profile 31 and causes to connect
Frame 30 is connect to fall apart.
Fig. 5 to Fig. 8 is referred to, further, each profile 31 further includes being fixedly connected on 311 side of rectangular square tube
Wall and the holder 312 for being used to fix the glass-ceramics heating plate 10, the holder 312, which is equipped with, supplies the devitrified glass
First slot 3121 of the edge insertion of heating board 10.Each profile 31 further includes being close to 3121 inner wall of the first slot to set
Set and be used to support the heat insulating mattress 313 of the glass-ceramics heating plate 10.Specifically, by 3121 inner wall of the first slot and micro-
Heat insulating mattress 313 is set between crystal glass heating board 10, it is possible to reduce the heat on glass-ceramics heating plate 10 is transmitted to profile 31,
The utilization efficiency of heat is improved, in addition, the place of 10 most fragile of glass-ceramics heating plate is its edge and corner angle position,
And devitrified glass can also be avoided by the way that heat insulating mattress 313 is arranged between 3121 inner wall of the first slot and glass-ceramics heating plate 10
The corner angle position of heating board 10 contacts and causes the damage of glass-ceramics heating plate 10 with profile 31.
Refer to Fig. 6 to Fig. 8, further, the rectangular square tube 311 include close to the glass-ceramics heating plate 10 and
It is fixedly installed the first side plate 3111 of the holder 312 and is fixedly connected on first side plate 3111 and is located at described
Second side plate 3112 of 30 inside of connection framework is fixedly connected on first side plate 3111 and is located at outside the connection framework 30
The third side plate 3113 of side and two sides are respectively fixedly connected with separate in second side plate 3112 and the third side plate 3113
4th side plate 3114 of 3111 side of the first side plate, the profile 31 further include being fixedly connected on second side plate 3112
Outer wall and with the glass-ceramics heating plate 10 gusset 314 disposed in parallel, the gusset 314, second side plate 3112
And the glass-ceramics heating plate 10 surrounds the second slot 315 for the heat insulation foam 50 insertion.This structure is only in square
It is the fixation realized to heat insulation foam 50 that the side of shape square tube 311, which is provided with gusset 314, and structure very simple advantageously reduces
The manufacturing cost of profile 31.
Fig. 6 to Fig. 8 is referred to, further, the gusset 314 is formed with second side plate 3112 is located at the gusset
314 backwards to 315 side of the second slot step 316, the edge of the backboard 20 be placed on the step 316 and with institute
Gusset 314 is stated to be fixedly connected.It can be seen that the setting of the gusset 314 not only realizes the positioning and fixation of heat insulation foam 50, and
The limit and fixation to backboard 20, multi-purpose content are realized, the structure for simplifying profile 31 further reduces profile 31
Manufacturing cost, also, be conducive to by Far infrared heat care device to more flattening design.Preferably, the backboard 20
It is fixedly connected with the gusset 314 by screw.
Referring to Figure 1 to Fig. 8, further, the shape of the glass-ceramics heating plate 10 and the backboard 20 is rectangle,
The connection framework 30 includes four end to end profiles 31, and the rectangular shape of the connector 32 and both ends are inserted into adjacent
In square hole 3115 in the rectangular square tube 311.It is more beautiful real that rectangular shape is set by Far infrared heat care device
With, and for the more polygons of relative edge, rectangular shape, which can be reduced, cuts number to profile 31, decreases connection
The use of part 32, to reduce manufacturing cost.
Referring to Figure 1, further, the pedestal 80 includes the multiple supports being fixedly installed in the connection framework 30
Frame 60 and the multiple rollings for being rotatably dispose on support frame as described above 60 and being used to support the Far infrared heat care device movement
Wheel 70, each idler wheel 70 are universal rolling wheel.The utility model embodiment is rolled by being arranged on Far infrared heat care device
Wheel 70, facilitate the movement of Far infrared heat care device, when user by one of position transfer arrive another position when, use
Family can carry out Far infrared heat care device together to another position, continual cure.
Fig. 9 and Figure 10 are referred to, preferably:
Glass-ceramics heating plate 10 provided by the embodiment of the utility model includes crystallite glass substrate carrier 11, high temperature sintering
In on the surface 16 of the crystallite glass substrate carrier 11 planar inorganic thick film 13, so that the inorganic thick film 13 is connected to circuit
In electrode 14 and lead ends 15 for connecting electrically-controlled component 40 and be affixed on the crystallite glass substrate carrier 11 to cover
Cover the mica insulation emulsion sheet 18 of the inorganic thick film 13, the electrode 14 and the lead ends 15, the lead ends 15
It is electrically connected with the electrode 14, the electrode 14 is electrically connected with the inorganic thick film 13, and 13 high temperature of inorganic thick film is burnt
It ties on the crystallite glass substrate carrier 11, the inorganic thick film 13 includes the component of following weight fraction:
The glass-ceramics heating plate 10 of the utility model at least has the advantages that
1, for inorganic thick film 13 due to being free of lead, material is not only environmentally friendly, and is rich in far infrared, reduces environmental pollution,
Beneficial to human health, overcomes product due to needing largely to generate the three wastes using harmful substances such as strong acid, lead oxide, have to human body
Evil and the defect that environmental pollution is serious.
2, the material granule degree of inorganic thick film 13 is finer, and resistance dispersion is small, and material sheet resistance is reproducible, and product closes
Lattice rate is high, has saved the energy, has reduced production cost, has improved the quality and precision of product, improve product competitiveness in the market.
3, the inorganic thick film 13 of the utility model application by using bismuth oxide as framework material, then is used cooperatively oxygen
Change the components such as boron, silica, zinc oxide, antimony oxide and strontium carbonate, both realizes the performance of inorganic thick film 13, meanwhile,
Zero content of lead oxide is realized relative to existing inorganic thick film 13, it is therefore prevented that people's lead poisoning and right when using inorganic thick film 13
The pollution of environment;Moreover, because the use of bismuth oxide, greatly improves the use temperature of inorganic thick film 13, expands inorganic thickness
The use scope of film 13.
4, the inorganic thick film 13 of the glass-ceramics heating plate 10 of the utility model is " planar " heater, and heating area is
The several times of " linear " the fever bulk area of traditional product, reduce the specific power density of heater, that is, reduce devitrified glass base
The coefficient of expansion of onboard body 11, since product is " linear " heat source heating structure, unit section when working so as to avoid product
Power density is big for product, surface temperature is high, the local coefficient of expansion is big, easily-deformable, work when have sound, on the ground for being prepared with line with heating function
Side because temperature is very high cause excessive the brought heating wire short circuit of the heater part coefficient of expansion, sparking, too fast oxidation the problems such as;
5, the inorganic thick film 13 of the utility model glass-ceramics heating plate 10 using silk-screen printing technique and imposes high temperature burning
Knot technique, and heater and crystallite glass substrate carrier 11 are permanently made integral structure, there is not stratified, not blistering, biography
The features such as hot fast, temperature is uniform, resistance stabilization, the glue-line for overcoming traditional glass-ceramics heating plate 10 is easy to aging, and part is risen
The defects of bubble, layering, resistance decrement, non-uniform temperature.
6, its framework material of the inorganic thick film of the utility model glass-ceramics heating substrate and resistance material are all made of commonly
The cheap nonmetallic materials of industry are made by mixing by proportion, and price is only the 1/10 of noble metal electrothermal film material.Therefore
The utility model is especially susceptible to promote, and social benefit is obvious.
The inorganic thick film 13 of the glass-ceramics heating plate 10 of the utility model embodiment, including two big components, first is that graphite
Powder, the other is the ceramics, the glass granules that are made of metal oxide.The ceramics, glass granules are by bismuth oxide, boron oxide, two
It is formed after silica, zinc oxide, antimony oxide and strontium carbonate melting.
Specifically, the graphite is a kind of non-metallic conducting material, it is one kind of carbon simple substance, and inorganic thick film 13 is made in electric field
Under, carbon molecules group generates " Brownian movement " in inorganic thick film 13, and violent friction and shock occurs between carbon molecules, generation
Thermal energy is mainly externally transmitted in the form of far infrared radiation and convection current.Therefore the inorganic thickness of the utility model glass-ceramics heating plate 10
Film 13 has the feature place rich in far infrared.The weight fraction of the graphite powder is 15-30 parts, preferably 20-30 parts.It should
The partial size of graphite powder is below 200 mesh (less than 200 mesh).
The weight fraction of the bismuth oxide is 60-75 parts, and preferably 70-75 parts, which is the skeleton of inorganic thick film 13
Material.Due to bismuth oxide softening point temperature with higher (relative to lead oxide), bismuth oxide is largely used so that inorganic thickness
The film-forming temperature of film 13, coating maximum operation (service) temperature all obtain larger raising, obtain the use scope of inorganic thick film 13 significantly
It widens.
The weight fraction of the boron oxide is 5-15 parts, and supplement of the boron oxide as bismuth oxide plays inorganic thick film 13
Skeleton function;
The weight fraction of the silica is 0.5-2 parts, which is also the supplement of bismuth oxide, plays inorganic thick film 13
Skeleton function.
The bismuth oxide, boron oxide and silica are all framework material in inorganic thick film 13, and three cooperates, in nothing
It plays a supporting role in machine thick film 13.Meanwhile by the adjustment effect of strontium carbonate, keep the binding force between three kinds of framework materials aobvious
It writes and increases.
The weight fraction of the strontium carbonate is 3-5 parts, since the content of bismuth oxide is higher, so that each component of inorganic thick film 13
Between caking property substantially reduce, by the way that a small amount of strontium carbonate is added, make binding force between bismuth oxide and other components significantly
Increase;By cooperating between the strontium carbonate and bismuth oxide, the binding force of inorganic thick film 13 is improved, it is therefore prevented that inorganic thick film
The problems such as 13 cracked in the calcination process of preparation process, explosion.
The parts by weight of the zinc oxide are 3-6 parts.The addition of zinc oxide can improve the coefficient of expansion of inorganic thick film 13, make
The coefficient of expansion of inorganic thick film 13 is consistent with glass, adjusts the binding force between inorganic thick film 13 and glass, makes inorganic thick film 13
Binding force on glass is more preferably.
The weight fraction of the antimony oxide is 3-5 parts.The antimony oxide cooperates the effect of strontium carbonate and zinc oxide, changes
The adhesive force of kind ceramics, glass granules and substrate, promotes the cohesive force between ceramics, glass granules, while enhancing ceramics, glass
Binding performance between particle and carbon dust.
By using the various metal oxides of above-mentioned weight fraction, on the one hand improve temperature applicable range, on the other hand
Improve the surface binding force between ceramics, glass granules and between ceramics, glass granules and carbon dust, improves inside semiconductor thick film
Binding force and adhesive force with carrier.Meanwhile each component is mutually coordinated, improves the thermal expansion coefficient of inorganic thick film, improves
Its thermal stability.
In existing resistive coating material, lead occupies very big amount, and lead has very important meaning as the skeleton of material
Justice.But lead can generate very big influence to human body, environment.Those skilled in the art are attempting to drop the content of lead always
It is low, substituted with other materials, but prepared resistive coating its electric stability energy come out, heat tolerance can etc. not
It is ideal.Especially with new material as framework material, the adhesive force and thermal stability of resistive coating can not be good
It solves.
The inorganic thick film 13 of the utility model glass-ceramics heating plate 10, as framework material, then is matched by using bismuth oxide
It closes using components such as boron oxide, silica, zinc oxide, antimony oxide and strontium carbonates, had both realized the property of inorganic thick film 13
Can, meanwhile, the content of lead oxide is greatly reduced relative to existing inorganic thick film 13, it is therefore prevented that people are using inorganic thick film 13
When lead poisoning;Moreover, because the use of bismuth oxide, greatly improves the use temperature of inorganic thick film 13, expands inorganic thick film
13 use scope.
The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this
Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model
Protection scope within.
Claims (10)
1. a kind of Far infrared heat care device, which is characterized in that including the pedestal to play a supportive role and side and the bottom
Seat is hinged and is used for emitting far-infrared irradiation plate, and the hinged place of the pedestal and the irradiation plate has damping, the photograph
Penetrate plate include for emitting far-infrared glass-ceramics heating plate, it is parallel with the glass-ceramics heating plate and be stacked
Backboard, frame are tightly in the edge of the glass-ceramics heating plate and the backboard with by the glass-ceramics heating plate and the backboard
It fixed connection framework and is electrically connected with the glass-ceramics heating plate and for powering for the glass-ceramics heating plate
So that the electrically-controlled component that the glass-ceramics heating plate is emitting far-infrared.
2. Far infrared heat care device as described in claim 1, which is characterized in that the Far infrared heat care device is also
Including the heat insulation foam being set between the backboard and the glass-ceramics heating plate.
3. Far infrared heat care device as claimed in claim 2, which is characterized in that the glass-ceramics heating plate and described
Backboard shape is identical and is in polygon, and the connection framework includes that multiple end to end and frame is set to the glass-ceramics heating plate
With the profile in backboard side length direction and the connector for being fixedly connected with the adjacent profile, each profile includes along institute
The rectangular square tube of glass-ceramics heating plate and the extension of backboard side length direction is stated, the rectangular square tube is equipped with side along its length
To the square hole of extension, the both ends of the connector are respectively by each square hole of the end insertion of the adjacent rectangular square tube
It is interior.
4. Far infrared heat care device as claimed in claim 3, which is characterized in that each profile further includes being fixedly connected
In the rectangular square tube side wall and for fixing the holder of the glass-ceramics heating plate, described in the holder is equipped with and supplies
First slot of the edge insertion of glass-ceramics heating plate.
5. Far infrared heat care device as claimed in claim 4, which is characterized in that each profile further includes described in abutting
First slot inner wall is arranged and is used to support the heat insulating mattress of the glass-ceramics heating plate.
6. Far infrared heat care device as claimed in claim 4, which is characterized in that the rectangular square tube includes close to described
It glass-ceramics heating plate and is fixedly installed the first side plate of the holder and is fixedly connected on first side plate and position
The second side plate on the inside of the connection framework, for being fixedly connected on first side plate and being located on the outside of the connection framework
Three side plates and two sides are respectively fixedly connected in second side plate and the third side plate far from first side plate side
4th side plate, the profile further include being fixedly connected on the outer wall of second side plate and parallel with the glass-ceramics heating plate
The gusset of setting, the gusset, second side plate and the glass-ceramics heating plate are surrounded for heat insulation foam insertion
Second slot.
7. Far infrared heat care device as claimed in claim 6, which is characterized in that the gusset and the second side plate shape
At be located at the gusset backwards to second slot-side step, the edge of the backboard be placed on the step and with institute
Gusset is stated to be fixedly connected.
8. the Far infrared heat care device as described in claim 3-7 any one, which is characterized in that the devitrified glass hair
The shape of hot plate and the backboard is rectangle, and the connection framework includes four end to end profiles, the connector
Rectangular shape and both ends are inserted into the square hole in the adjacent rectangular square tube.
9. the Far infrared heat care device as described in claim 1-7 any one, which is characterized in that the Far infrared heat
Care device further includes the multiple support frames being fixedly installed in the connection framework and is rotatably dispose on support frame as described above
And it is used to support the mobile multiple idler wheels of the Far infrared heat care device.
10. Far infrared heat care device as claimed in claim 9, which is characterized in that each idler wheel is universal rolling wheel.
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CN108031012A (en) * | 2017-12-28 | 2018-05-15 | 祥利电器制品(深圳)有限公司 | Far infrared heat care device |
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CN108031012A (en) * | 2017-12-28 | 2018-05-15 | 祥利电器制品(深圳)有限公司 | Far infrared heat care device |
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