CN208200748U - A kind of production glass fiber wire-drawing smelting furnace - Google Patents
A kind of production glass fiber wire-drawing smelting furnace Download PDFInfo
- Publication number
- CN208200748U CN208200748U CN201820535296.0U CN201820535296U CN208200748U CN 208200748 U CN208200748 U CN 208200748U CN 201820535296 U CN201820535296 U CN 201820535296U CN 208200748 U CN208200748 U CN 208200748U
- Authority
- CN
- China
- Prior art keywords
- furnace chamber
- glass
- electrode
- dictyosome
- glass fiber
- Prior art date
- 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.)
- Expired - Fee Related
Links
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P40/00—Technologies relating to the processing of minerals
- Y02P40/50—Glass production, e.g. reusing waste heat during processing or shaping
- Y02P40/57—Improving the yield, e-g- reduction of reject rates
Landscapes
- Vertical, Hearth, Or Arc Furnaces (AREA)
Abstract
The utility model relates to a kind of production glass fiber wire-drawing smelting furnaces, including furnace chamber, the furnace chamber upper end is provided with funnel and air pump, the funnel and air pump are connected to furnace chamber inner cavity, the intracavity sidewall of the furnace chamber is provided with electrode, the electrode is connected with conductive rod, the lower end of the electrode is equipped with ceramic dictyosome, the lower end of the ceramics dictyosome is equipped with motor, rotary body is installed on the motor, the lower end of the furnace chamber is communicated with back taper cavity by siphunculus, second solenoid valve is provided on the siphunculus, back taper cavity lower end is provided with fluid groove, the fluid groove lower end is provided with bushing.Pressure is increased to furnace chamber inside by air pump, the melting temperature of glass raw material in furnace chamber reduces, reduce the consumption of the energy, energy conservation and environmental protection, improve production efficiency, the glass raw material after thawing is stirred by rotary body simultaneously, temperature keeps uniform wire drawing after melting raw material, guarantees that glass count is uniform.
Description
Technical field
The utility model belong to glass fiber producing device technical field more particularly to a kind of production glass fiber wire-drawing
Smelting furnace.
Background technique
Glass fibre is a kind of inorganic non-metallic material haveing excellent performance, many kinds of, and advantage is good insulating, heat resistance
By force, corrosion resistance is good, high mechanical strength, but the disadvantage is that property is crisp, wearability is poor.It is using glass marble or post-consumer glass as raw material
Through caused by the techniques systems such as high temperature melting, wire drawing, doff, woven fabric, the diameter of monofilament is several microns to twenties microns,
It is equivalent to the 1/20-1/5 of a hairline, every bundle fiber precursor is all made of hundreds of even thousands of monofilament.Glass fibers
The reinforcing material being typically used as in composite material is tieed up, electrically insulating material and heat-insulating material, the national economy such as circuit substrate are each
A field.
Patent No. CN201020302286.6, applying date 2010-02-04 disclose kind of a production glass fibre nothing
Alkali wire-drawing melting furnace, cover board, bottom plate, side plate including being equipped with probe aperture and charging aperture, which is characterized in that the bottom plate is equipped with
Fluid groove installs bushing at fluid groove, and the side plate middle and lower part is equipped with conductive rod, and conductive rod connects molybdenum electrode.
Above-mentioned Patent furnace per unit area yield improves 4kg, 30 degree of saving electric energy per ton, reduces energy consumption, glass fibre expires cylinder rate
80% or so technical effect is reached.But there are two technical problems, one, longer to the raw material thawing time, to need big
The electric power resource of amount, waste of energy are unfavorable for energy conservation and environmental protection, and production efficiency is low;Two, when raw material is deposited in furnace chamber after melting
Between it is long, temperature distribution is non-uniform, under the high part of temperature leak speed it is fast, under the low part of temperature leak speed it is slow, cause to produce
Glass count it is uneven, and broken end and winged silk situation occur often, influence the quality and yield of product.
Utility model content
The purpose of the utility model is to overcome the above-mentioned problems in the prior art, provide a kind of production glass fibre
Wire-drawing melting furnace reduces the consumption of the energy, and energy conservation and environmental protection improves production efficiency, and temperature after raw material thawing is made to keep uniform wire drawing,
Guarantee that glass count is uniform.
To achieve the above object, the technical solution adopted in the utility model is as follows.
A kind of production glass fiber wire-drawing smelting furnace, including furnace chamber, it is characterised in that: the furnace chamber upper end be provided with funnel and
Air pump, the funnel and air pump are connected to furnace chamber inner cavity, and the intracavity sidewall of the furnace chamber is provided with electrode, the electrode
It is connected with conductive rod, the lower end of the electrode is equipped with ceramic dictyosome, and the lower end of the ceramics dictyosome is equipped with motor, the electricity
Rotary body is installed, the rotary body is arranged in furnace chamber inner cavity, and rotary body is internally provided with heating sheet, the furnace chamber on machine
Lower end is communicated with back taper cavity by siphunculus, and second solenoid valve is provided on the siphunculus, and back taper cavity lower end is provided with
Fluid groove, the fluid groove lower end are provided with bushing.
The lower end of the furnace chamber is in vertebral body structure, and motor is mounted on vertebral body structure.
Shunting dictyosome is installed, the shunting dictyosome is arcuate structure in the back taper cavity.
The inner chamber bottom surface two sides of the back taper cavity are oblique.
The back taper cavity internal chamber wall is equipped with molding polyphenyl plate heat preserving material.
The electrode uses chromium-zirconium-copper material.
Using the utility model has the advantage of.
1, pressure is increased to furnace chamber inside by air pump, furnace chamber internal pressure enhances, the glass raw material in furnace chamber
Melting temperature reduces, and can melt without being heated to glass normal melting point also, reduces the thawing time, reduces disappearing for the energy
Consumption, energy conservation and environmental protection improve production efficiency, while being stirred by rotary body to the glass raw material after thawing, its temperature is allowed to divide
Cloth is uniform, and temperature keeps uniform wire drawing after melting raw material, guarantees that glass count is uniform, and the heating sheet energy of a rotating body
Enough guarantee that glass degree is not changed, guarantees to be constantly in liquid condition after glass melts, will not solidify, and can by ceramic network body
Make to leak under the glass after melting, ceramics have characteristic resistant to high temperature, will not generate breakage, will not be anti-with glass solution output chemistry
It answers, guarantees that wire drawing does not have other chemical components or impurity.
2, toward dirty after being convenient for glass raw material to be melted into liquid by vertebral body structure.
3, it is arcuate structure by shunting dictyosome, glass solution is enable uniformly to flow on bushing.
4, obliquely make to leak under the glass solution on both sides by two sides clean.
5, cavity inner temperature is kept by molding polyphenyl plate heat preserving material.
6, by the good electric conductivity of chromium-zirconium-copper, thermal conductivity, hardness is high, wear-resisting antiknock, and crack resistance and softening temperature are high.
Detailed description of the invention
FIG. 1 is a schematic structural view of the utility model.
It is marked in figure, 1, furnace chamber, 2, funnel, the 3, first solenoid valve, 4, air pump, 5, conductive rod, 6, electrode, 7, ceramic network
Body, 8, motor, 9, rotary body, 10, heating sheet, 11, second solenoid valve, 12, siphunculus, 13, back taper cavity, 14, shunting dictyosome,
15, bushing, 16, fluid groove, 17, glass fiber.
Specific embodiment
The utility model is described further with reference to the accompanying drawing.
Embodiment 1
As shown in Figure 1, a kind of production glass fiber wire-drawing smelting furnace, including furnace chamber 1,1 upper end of furnace chamber are provided with funnel 2
With air pump 4, the funnel 2 and air pump 4 are connected to 1 inner cavity of furnace chamber, and the intracavity sidewall of the furnace chamber 1 is provided with electrode 6,
The electrode 6 is connected with conductive rod 5, and the lower end of the electrode 6 is equipped with ceramic dictyosome 7, the lower end installation of the ceramics dictyosome 7
There is motor 8, rotary body 9 is installed on the motor 8, the setting of rotary body 9 is arranged in 1 inner cavity of furnace chamber, and inside rotary body 9
There is heating sheet 10, the lower end of the furnace chamber 1 is communicated with back taper cavity 13 by siphunculus 12, and the second electricity is provided on the siphunculus 12
Magnet valve 11,13 lower end of back taper cavity are provided with fluid groove 16, and 16 lower end of fluid groove is provided with bushing 15.
Firstly, solid glass raw material is put into funnel 2, the first solenoid valve 3 opens the bottom end of funnel 2, second solenoid valve
11 closing siphunculus 12, glass raw material are leak on the ceramic dictyosome 7 in furnace chamber 1, and the first solenoid valve 3 closes the bottom end of funnel 2, air
4 starting of pump is reduced to 300- from 600-800 DEG C to 2000-3000 atmospheric pressure, the fusing point of solid glass is applied in furnace chamber 1
400 DEG C, conductive rod 5 is powered, and the fever of electrode 6 generates high temperature to 450 DEG C, and solid glass, at liquid, flows into furnace chamber 1 from solid state change
Intracavity bottom, start motor 8 on rotary body 9, to flow into intracavity bottom liquid glass be stirred, if temperature is
It reducing, heating sheet 10 generates heat, and it is always held at liquid glass liquid, after solid glass melts completion liquid completely, second
Solenoid valve 11 opens siphunculus 12, and liquid glass flows into the bushing 15 on fluid groove 16, becomes glass fiber 17 by bushing 15, passes through
Air pump 4 enhances pressure, 1 internal pressure of furnace chamber is increased inside furnace chamber 1, the melting temperature drop of the glass raw material in furnace chamber 1
It is low, it can melt without being heated to glass normal melting point also, reduce the consumption of the energy, energy conservation and environmental protection improves production efficiency,
Glass raw material after being melted simultaneously by 9 Duis of rotary body is stirred, and allows its uniformity of temperature profile, temperature guarantor after melting raw material
Uniform wire drawing is held, guarantees that glass count is uniform, and the heating sheet 10 in rotary body 9 can guarantee that glass degree is not changed, protects
Card glass is constantly in liquid condition after melting, and will not solidify, and can make to leak under the glass after melting by ceramic dictyosome 7,
Ceramics have characteristic resistant to high temperature, will not generate breakage, will not chemically react with glass solution output, guarantee that wire drawing is not other
Chemical component or impurity.
Embodiment 2
As shown in Figure 1, a kind of production glass fiber wire-drawing smelting furnace, including furnace chamber 1,1 upper end of furnace chamber are provided with funnel 2
With air pump 4, the funnel 2 and air pump 4 are connected to 1 inner cavity of furnace chamber, and the intracavity sidewall of the furnace chamber 1 is provided with electrode 6,
The electrode 6 is connected with conductive rod 5, and the lower end of the electrode 6 is equipped with ceramic dictyosome 7, the lower end installation of the ceramics dictyosome 7
There is motor 8, rotary body 9 is installed on the motor 8, the setting of rotary body 9 is arranged in 1 inner cavity of furnace chamber, and inside rotary body 9
There is heating sheet 10, the lower end of the furnace chamber 1 is communicated with back taper cavity 13 by siphunculus 12, and the second electricity is provided on the siphunculus 12
Magnet valve 11,13 lower end of back taper cavity are provided with fluid groove 16, and 16 lower end of fluid groove is provided with bushing 15.
The lower end of the furnace chamber 1 is in vertebral body structure, and motor 8 is mounted on vertebral body structure.
It is equipped in the back taper cavity 13 and shunts dictyosome 14, the shunting dictyosome 14 is arcuate structure.
Firstly, solid glass raw material is put into funnel 2, the first solenoid valve 3 opens the bottom end of funnel 2, second solenoid valve
11 closing siphunculus 12, glass raw material are leak on the ceramic dictyosome 7 in furnace chamber 1, and the first solenoid valve 3 closes the bottom end of funnel 2, air
4 starting of pump is reduced to 300- from 600-800 DEG C to 2000-3000 atmospheric pressure, the fusing point of solid glass is applied in furnace chamber 1
400 DEG C, conductive rod 5 is powered, and the fever of electrode 6 generates high temperature to 450 DEG C, and solid glass, at liquid, flows into furnace chamber 1 from solid state change
Intracavity bottom, start motor 8 on rotary body 9, to flow into intracavity bottom liquid glass be stirred, if temperature is
It reducing, heating sheet 10 generates heat, and it is always held at liquid glass liquid, after solid glass melts completion liquid completely, second
Solenoid valve 11 opens siphunculus 12, and liquid glass flows into the bushing 15 on fluid groove 16, becomes glass fiber 17 by bushing 15, passes through
Air pump 4 enhances pressure, 1 internal pressure of furnace chamber is increased inside furnace chamber 1, the melting temperature drop of the glass raw material in furnace chamber 1
It is low, it can melt without being heated to glass normal melting point also, reduce the consumption of the energy, energy conservation and environmental protection improves production efficiency,
Glass raw material after being melted simultaneously by 9 Duis of rotary body is stirred, and allows its uniformity of temperature profile, temperature guarantor after melting raw material
Uniform wire drawing is held, guarantees that glass count is uniform, and the heating sheet 10 in rotary body 9 can guarantee that glass degree is not changed, protects
Card glass is constantly in liquid condition after melting, and will not solidify, and can make to leak under the glass after melting by ceramic dictyosome 7,
Ceramics have characteristic resistant to high temperature, will not generate breakage, will not chemically react with glass solution output, guarantee that wire drawing is not other
Chemical component or impurity.
Toward dirty after being convenient for glass raw material to be melted into liquid by vertebral body structure.
It is arcuate structure by shunting dictyosome, glass solution is enable uniformly to flow into 15 on bushing.
Embodiment 3
As shown in Figure 1, a kind of production glass fiber wire-drawing smelting furnace, including furnace chamber 1,1 upper end of furnace chamber are provided with funnel 2
With air pump 4, the funnel 2 and air pump 4 are connected to 1 inner cavity of furnace chamber, and the intracavity sidewall of the furnace chamber 1 is provided with electrode 6,
The electrode 6 is connected with conductive rod 5, and the lower end of the electrode 6 is equipped with ceramic dictyosome 7, the lower end installation of the ceramics dictyosome 7
There is motor 8, rotary body 9 is installed on the motor 8, the setting of rotary body 9 is arranged in 1 inner cavity of furnace chamber, and inside rotary body 9
There is heating sheet 10, the lower end of the furnace chamber 1 is communicated with back taper cavity 13 by siphunculus 12, and the second electricity is provided on the siphunculus 12
Magnet valve 11,13 lower end of back taper cavity are provided with fluid groove 16, and 16 lower end of fluid groove is provided with bushing 15.
The lower end of the furnace chamber 1 is in vertebral body structure, and motor 8 is mounted on vertebral body structure.
It is equipped in the back taper cavity 13 and shunts dictyosome 14, the shunting dictyosome 14 is arcuate structure.
The inner chamber bottom surface two sides of the back taper cavity 13 are oblique.
13 internal chamber wall of back taper cavity is equipped with molding polyphenyl plate heat preserving material.
The electrode 6 uses chromium-zirconium-copper material.
Firstly, solid glass raw material is put into funnel 2, the first solenoid valve 3 opens the bottom end of funnel 2, second solenoid valve
11 closing siphunculus 12, glass raw material are leak on the ceramic dictyosome 7 in furnace chamber 1, and the first solenoid valve 3 closes the bottom end of funnel 2, air
4 starting of pump is reduced to 300- from 600-800 DEG C to 2000-3000 atmospheric pressure, the fusing point of solid glass is applied in furnace chamber 1
400 DEG C, conductive rod 5 is powered, and the fever of electrode 6 generates high temperature to 450 DEG C, and solid glass, at liquid, flows into furnace chamber 1 from solid state change
Intracavity bottom, start motor 8 on rotary body 9, to flow into intracavity bottom liquid glass be stirred, if temperature is
It reducing, heating sheet 10 generates heat, and it is always held at liquid glass liquid, after solid glass melts completion liquid completely, second
Solenoid valve 11 opens siphunculus 12, and liquid glass flows into the bushing 15 on fluid groove 16, becomes glass fiber 17 by bushing 15, passes through
Air pump 4 enhances pressure, 1 internal pressure of furnace chamber is increased inside furnace chamber 1, the melting temperature drop of the glass raw material in furnace chamber 1
It is low, it can melt without being heated to glass normal melting point also, reduce the consumption of the energy, energy conservation and environmental protection improves production efficiency,
Glass raw material after being melted simultaneously by 9 Duis of rotary body is stirred, and allows its uniformity of temperature profile, temperature guarantor after melting raw material
Uniform wire drawing is held, guarantees that glass count is uniform, and the heating sheet 10 in rotary body 9 can guarantee that glass degree is not changed, protects
Card glass is constantly in liquid condition after melting, and will not solidify, and can make to leak under the glass after melting by ceramic dictyosome 7,
Ceramics have characteristic resistant to high temperature, will not generate breakage, will not chemically react with glass solution output, guarantee that wire drawing is not other
Chemical component or impurity.
Toward dirty after being convenient for glass raw material to be melted into liquid by vertebral body structure.
It is arcuate structure by shunting dictyosome, glass solution is enable uniformly to flow into 15 on bushing.
Obliquely make to leak under the glass solution on both sides by two sides clean.
Cavity inner temperature is kept by molding polyphenyl plate heat preserving material.
By the good electric conductivity of chromium-zirconium-copper, thermal conductivity, hardness is high, wear-resisting antiknock, and crack resistance and softening temperature are high.
The specific embodiment of the application above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously
The limitation to the application protection scope therefore cannot be interpreted as.It should be pointed out that for those of ordinary skill in the art
For, under the premise of not departing from technical scheme design, various modifications and improvements can be made, these belong to this
The protection scope of application.
Claims (6)
1. a kind of production glass fiber wire-drawing smelting furnace, including furnace chamber (1), it is characterised in that: furnace chamber (1) upper end is provided with leakage
Bucket (2) and air pump (4), the funnel (2) and air pump (4) are connected to furnace chamber (1) inner cavity, the inner cavity of the furnace chamber (1)
Side wall is provided with electrode (6), and the electrode (6) is connected with conductive rod (5), and the lower end of the electrode (6) is equipped with ceramic dictyosome
(7), the lower end of the ceramic dictyosome (7) is equipped with motor (8), is equipped with rotary body (9), the rotation on the motor (8)
Body (9) is arranged in furnace chamber (1) inner cavity, and rotary body (9) is internally provided with heating sheet (10), and the lower end of the furnace chamber (1) passes through
Siphunculus (12) is communicated with back taper cavity (13), is provided with second solenoid valve (11) on the siphunculus (12), the back taper cavity
(13) lower end is provided with fluid groove (16), and fluid groove (16) lower end is provided with bushing (15).
2. a kind of production glass fiber wire-drawing smelting furnace as described in claim 1, it is characterised in that: the lower end of the furnace chamber (1)
In vertebral body structure, and motor (8) is mounted on vertebral body structure.
3. a kind of production glass fiber wire-drawing smelting furnace as described in claim 1, it is characterised in that: in the back taper cavity (13)
It is equipped with and shunts dictyosome (14), the shunting dictyosome (14) is arcuate structure.
4. a kind of production glass fiber wire-drawing smelting furnace as described in claim 1, it is characterised in that: the back taper cavity (13)
Inner chamber bottom surface two sides are oblique.
5. a kind of production glass fiber wire-drawing smelting furnace as described in claim 1, it is characterised in that: in the back taper cavity (13)
Cavity wall is equipped with molding polyphenyl plate heat preserving material.
6. a kind of production glass fiber wire-drawing smelting furnace as described in claim 1, it is characterised in that: the electrode (6) uses chromium
Zirconium copper material.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820535296.0U CN208200748U (en) | 2018-04-16 | 2018-04-16 | A kind of production glass fiber wire-drawing smelting furnace |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820535296.0U CN208200748U (en) | 2018-04-16 | 2018-04-16 | A kind of production glass fiber wire-drawing smelting furnace |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208200748U true CN208200748U (en) | 2018-12-07 |
Family
ID=64523245
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201820535296.0U Expired - Fee Related CN208200748U (en) | 2018-04-16 | 2018-04-16 | A kind of production glass fiber wire-drawing smelting furnace |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208200748U (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112537897A (en) * | 2020-11-29 | 2021-03-23 | 台玻悦达汽车玻璃有限公司 | Good pressurized container for glass manufacturing of stability |
CN112851108A (en) * | 2020-12-24 | 2021-05-28 | 安徽省绩溪县华宇防火滤料有限公司 | Glass fiber production device system |
CN115066403A (en) * | 2020-02-06 | 2022-09-16 | 日本电气硝子株式会社 | Apparatus and method for producing glass fiber |
-
2018
- 2018-04-16 CN CN201820535296.0U patent/CN208200748U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115066403A (en) * | 2020-02-06 | 2022-09-16 | 日本电气硝子株式会社 | Apparatus and method for producing glass fiber |
CN112537897A (en) * | 2020-11-29 | 2021-03-23 | 台玻悦达汽车玻璃有限公司 | Good pressurized container for glass manufacturing of stability |
CN112851108A (en) * | 2020-12-24 | 2021-05-28 | 安徽省绩溪县华宇防火滤料有限公司 | Glass fiber production device system |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN208200748U (en) | A kind of production glass fiber wire-drawing smelting furnace | |
CN202430352U (en) | High-temperature spinning manifold | |
CN202849233U (en) | Basalt fiber electric melting furnace | |
CN201660544U (en) | Electric heating structure of platinum channel | |
CN210528786U (en) | Energy-saving glass fiber drawing smelting furnace | |
CN208327827U (en) | A kind of production glass fiber drawing device | |
CN208136089U (en) | A kind of production glass fiber wire drawing equipment | |
CN216890652U (en) | Electric heating system for low-dielectric glass fiber smelting furnace | |
CN204959329U (en) | Hot melt line heating device | |
CN106811885A (en) | A kind of carbon fiber grooved roller quetsch | |
CN203582732U (en) | Glass fiber wire-drawing furnace | |
CN208517280U (en) | A kind of glass fibre wire drawing machine | |
CN202836189U (en) | Crucible-type electric smelting energy-saving and environment-friendly holding furnace | |
CN205232476U (en) | Formula far -infrared electric heating ceramic heater is buryyed to energy -conserving formula | |
CN209957635U (en) | Clean production vertical glass melting furnace based on electric energy | |
CN202988983U (en) | Tri-sectional wire-drawing bushing for glass fibre platinum-substituted furnace | |
CN207251944U (en) | Fast heater | |
CN108660519A (en) | Color polyester silk spinneret | |
CN110922029A (en) | Kiln for mass production of continuous basalt fibers | |
CN216308226U (en) | Heat-conducting oil furnace | |
CN210518874U (en) | Electric heating plate | |
CN210825917U (en) | Novel microfiber glass wool melting small kiln | |
CN205099573U (en) | Energy -conserving wire drawing stove in glass fiber production | |
CN206609258U (en) | A kind of drying unit for being used to produce multiple spinning polyester short fiber | |
CN215086242U (en) | Compounding device is used in production of low aluminium carborundum |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20181207 |
|
CF01 | Termination of patent right due to non-payment of annual fee |