CN206755715U - A kind of efficiently high reliability refrigerator hydrogen-rich device - Google Patents
A kind of efficiently high reliability refrigerator hydrogen-rich device Download PDFInfo
- Publication number
- CN206755715U CN206755715U CN201621482867.6U CN201621482867U CN206755715U CN 206755715 U CN206755715 U CN 206755715U CN 201621482867 U CN201621482867 U CN 201621482867U CN 206755715 U CN206755715 U CN 206755715U
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- Prior art keywords
- air inlet
- inlet pipe
- chamber
- refrigerator
- hydrogen
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- Cold Air Circulating Systems And Constructional Details In Refrigerators (AREA)
Abstract
The utility model discloses a kind of efficiently high reliability refrigerator hydrogen-rich device, including air inlet pipe, the top of the air inlet pipe is provided with air inlet, the top of the inner chamber of the air inlet pipe is provided with necking part, the top of the air inlet pipe is provided with ultraviolet lamp, the lateral wall of the air inlet pipe is provided with control chamber, the lower section of the air inlet pipe is provided with condensation chamber, the inside of the condensation chamber is provided with condensing unit, and the left side wall of condensation chamber is through with steam vent, the left outside side wall of the condensation chamber is provided with deodorization chamber, electrolyte chamber is connected with below the condensation chamber, the refrigerator moisture absorption can be realized, deodorization, sterilization and the preservativity for improving refrigerator, and the air ambient in refrigerator can be improved.Aqueous vapor is made the water in gas be condensed, is flowed into electrolyte chamber, the moisture after liquefaction can be electrolyzed to produce to hydrogen and ozone, hydrogen can improve the reproducibility environment in refrigerator, extend the shelf-life of food by condensate film;Ozone can be to the gas deodorization and sterilization of suction apparatus.
Description
Technical field
Refrigerator moisture absorption deodorization technology field is the utility model is related to, specific field is a kind of hydrogen-rich device.
Background technology
Refrigerator is an essential household electrical appliance of modern life, and it has brought very big convenience, still
Also many frustrations have been brought.General refrigerator system suppresses to cause food spoilage and corruption by reducing food temperature
Microbial action and enzyme effect, and the effects such as limitation is aoxidized, breathed, growing up to a certain extent and moisture distributes, so as to extend food
Thing storage time.
And the problem of refrigerator in operation common, there is in refrigerator that there was dampness in the air, has peculiar smell, easy breed bacteria etc..Tide
Wet air, the food storage time in refrigerator can be caused to shorten, the food such as green vegetables is easier to rot;Bacteria breed can aggravate to eat
Thing goes bad, particularly prepared food, influences the health of people;Peculiar smell can allow the comfort level used to reduce.And for aqueous vapor, people
General adopt use cloth to wipe with, or place common dessicant and carry out aqueous vapor removal, but use cloth to wipe with and be difficult to thoroughly remove in refrigerator
Aqueous vapor, and common dessicant is placed in refrigerator, the food of meeting secondary pollution storage;For peculiar smell, people typically use
The article of absorption peculiar smell is placed in refrigerator;And for bacterium, typically using disinfection way such as common chemical substances.This
The article to some harmful healths can be all used during individual, and can also produce the residual of chemicals.At this moment, people are just
One kind is needed to be automatically performed these work, and will not be using the product of the article to harmful people's health come to refrigerator
Dehumidified, eliminated the unusual smell, disinfection.A kind of therefore, it is proposed that efficiently high reliability refrigerator hydrogen-rich device.
Utility model content
The purpose of this utility model is to provide a kind of efficiently high reliability refrigerator hydrogen-rich device, refrigerator can be removed
Peculiar smell disinfection simultaneously improves refrigerator inside environment.
To achieve the above object, the utility model provides following technical scheme:A kind of efficiently high reliability refrigerator hydrogen-rich dress
Put, including air inlet pipe, the top of the air inlet pipe are provided with air inlet, the top of the inner chamber of the air inlet pipe is provided with necking part, institute
The top for stating air inlet pipe is provided with ultraviolet lamp, and the lateral wall of the air inlet pipe is provided with control chamber, and the lower section of the air inlet pipe is provided with
Condensation chamber, the inside of the condensation chamber is provided with condensing unit, and the left side wall of condensation chamber is through with steam vent, the condensation chamber
Left outside side wall is provided with deodorization chamber, electrolyte chamber is connected with below the condensation chamber, the condensing unit includes condensate film, described cold
The periphery of solidifying piece is provided with heat exchanger fin, and the inside of condensate film is provided with condensation cycle passage, the top of the condensate film and air inlet pipe
Connectivity part is hung with hollow elastic ball, and the hollow elastic ball inner sealing is filled with temperature sensitive swollen compression material, by the condensate film
The refrigerant tubing of logical Refrigerating device for refrigerator refrigeration end;
The bosom of the electrolyte chamber is provided with PEM membrane electrolysis electrode, and the side of the PEM membrane electrolysis electrode is provided with negative electrode
Chamber, and the opposite side of PEM membrane electrolysis electrode is provided with anode cavities, the lateral wall of the anode cavities is through with one end of ozone conduit,
And the other end insertion air inlet pipe of ozone conduit, the inlet end top of the ozone conduit are provided with inductive probe, and ozone conduit
Outlet internal be provided with check valve, the bottom of the cathode cavity and anode cavities is equipped with outlet pipe, and the outlet pipe is provided with
Magnetic valve.
Preferably, the air inlet pipe is V-type air inlet pipe, and the air inlet pipe is gradually reduced along airintake direction internal diameter, and air inlet
Pipe has arc-shaped inner surface.
Preferably, the top of the ultraviolet lamp is provided with concave mirror lampshade.
Preferably, the inner surface of the control chamber is provided with heating collar, and the lateral wall of the control chamber, which runs through, charge port, and
Charge port electrically connects internal battery by electric conductor, and the lower section of the internal battery is provided with control board.
Preferably, the inside of the condensation chamber is provided with anion generator.
Preferably, the bottom of the condensation chamber is provided with delivery port, and the lower section of the delivery port is provided with water fender, the dash
The middle part of plate is provided with fulcrum, and the afterbody lower surface of delivery port is provided with balancing weight.
Preferably, the deodorization chamber includes epicoele and cavity of resorption, and the inside of the epicoele is provided with active carbon layer and ozone filters
Film, and the lateral wall of epicoele is provided with fan, the inside of the cavity of resorption through there is venthole between the venthole and active carbon layer
Provided with ozone filter membrane, the right side wall of the cavity of resorption is through there is a passage, and the left side wall of cavity of resorption is through there is hydrogen exhausting hole.
Compared with prior art, the beneficial effects of the utility model are:A kind of efficiently high reliability refrigerator of the utility model
Hydrogen-rich device can realize the refrigerator moisture absorption, deodorization, sterilization and the preservativity for improving refrigerator, and can improve the sky in refrigerator
Compression ring border.Aqueous vapor makes the water in gas be condensed by condensate film, flows into electrolyte chamber, can effectively realize the moisture absorption of refrigerator,
The drying of food is ensured, extends holding time of food, and the device for the cooling circulation canal being provided with inside condenser, can be with
Increase condensation effect;The outlet pipe and magnetic valve being provided with by the bottom of reservoir chamber are used cooperatively, when the water stored in reservoir chamber
When excessive, it can be rejected in the apopore of refrigerator;By electrolyte chamber, the moisture after liquefaction can be electrolyzed to produce to hydrogen and smelly
Oxygen, hydrogen can improve the reproducibility environment in refrigerator, extend the shelf-life of food;Ozone can kill to the gas of suction apparatus
Bacterium deodorization;, effectively will be electric in anode cavities using Bernoulli effect by the way that the necking part set in air inlet pipe is connected with anode cavities
Ozone is pumped to air inlet pipe caused by solution, and just it is carried out disinfection before gas liquefaction in refrigerator, and ozone will not overflow the device that sheds
Outside, and the gas after sterilization carries out the cycle that liquefaction can be cleaned with effective guarantee water quality, extension fixture needs again;By being provided with
Deodorization chamber, the remaining gas that will liquefy are sterilized, by the rotation of fan, air exchange are carried out using the principle of negative pressure, is dried
After can return in refrigerator, balance refrigerator in air pressure;By hydrogen caused by cathode cavity by being passed through after water proof in refrigerator, no
The air ambient in refrigerator can only be improved, there is provided reproducibility environment, extend effective period of food quality, supplemented with and stable refrigerator
Interior air pressure;, can be pollution-free effectively to carrying out ultraviolet radiation for sterilizing and disinfecting in refrigerator by being provided with ultraviolet lamp, and might as well
Hinder food quality;By being provided with water fender and balancing weight, the automatic shutter of condensation chamber delivery port is realized using lever principle, is led to
Crossing to change sets balancing weight to can also adjust the water level in condensation chamber;By being provided with hollow elastic ball, gas can be automatically adjusted
Into the amount in condensation chamber, keep condensing the balance with air inlet.
Brief description of the drawings
Fig. 1 is structure of the main view of the present utility model;
Fig. 2 is condensing unit main structure diagram of the present utility model;
Fig. 3 is deodorization chamber main structure diagram of the present utility model;
Fig. 4 is close-up schematic view at a of the present utility model.
In figure:1 air inlet pipe, 2 ultraviolet lamps, 3 control chambers, 4 condensation chambers, 5 condensing units, 501 condensate films, 502 heat exchanger fins,
503 condensation cycle passages, 504 hollow elastic balls, 6 steam vents, 7 deodorization chambers, 701 epicoeles, 702 cavity of resorptions, 8 electrolyte chambers, 801PEM
Film electrolysis electrode, 802 cathode cavities, 803 anode cavities, 9 ozone conduits, 10 inductive probes, 11 check valves, 12 outlet pipes, 13 electromagnetism
Valve, 14 concave mirror lampshades, 15 heating collars, 16 charge ports, 17 internal batteries, 18 control boards, 19 anion generators, 20
Delivery port, 21 water fenders, 22 fulcrums, 23 balancing weights, 24 active carbon layers, 25 ozone filter membranes, 26 ventholes, 27 fans, 28 lead to
Stomata, 29 hydrogen exhausting holes.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out
Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole
Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made
The every other embodiment obtained, belong to the scope of the utility model protection.
Fig. 1-4 are referred to, the utility model provides a kind of efficiently high reliability refrigerator hydrogen-rich device technique scheme:It is a kind of high
Imitate high reliability refrigerator hydrogen-rich device, including air inlet pipe 1, the top of the air inlet pipe 1 is provided with air inlet, and the aqueous vapor in refrigerator is entered
Enter into air inlet pipe 1, the top of the inner chamber of the air inlet pipe 1 is provided with necking part, and reducing diameter part connects anode cavities 11 from side wall, effectively
Ozone caused by electrolysis in anode cavities 11 is pumped to air inlet pipe 1 using Bernoulli effect, it is just right before gas liquefaction in refrigerator
It is carried out disinfection, and ozone, which will not overflow, to shed outside device, and the gas after sterilization is carried out liquefaction and can extended with effective guarantee water quality again
Device needs the cycle cleaned, and the top of the air inlet pipe 1 is provided with ultraviolet lamp 2, and ultraviolet lamp 2 can be sterilized, described
The lateral wall of air inlet pipe 1 is provided with control chamber 3, and the lower section of the air inlet pipe 1 is provided with condensation chamber 4, in the present embodiment, using board-like cold
Condenser, and the mode done work using electric drive refrigerant realizes heat absorption condensation, the inside of the condensation chamber 4 is provided with condensing unit 5, and
The left side wall of condensation chamber 4 is through with steam vent 6, condenses remnants gas and can be discharged into again in refrigerator by steam vent 6, is realized
Described in the circulation of gas, the left outside side wall of the condensation chamber 4 is provided with deodorization chamber 7, and the lower section of the condensation chamber 4 is connected with electrolyte chamber
8, the condensing unit 5 includes condensate film 501, and the periphery of the condensate film 501 is provided with heat exchanger fin 502, and condensate film 502 is interior
Portion is provided with the top of condensate film 502 described in condensation cycle passage 503 and is hung with hollow elastic ball 504, institute with the connectivity part of air inlet pipe 1
State the inner sealing of hollow elastic ball 504 and be filled with temperature sensitive swollen compression material, the inner sealing of hollow elastic ball 504 is filled with temperature sensitive swollen contracting
Material, such as magnesia, beryllium oxide or the high gas of expansion rate, because condensation chamber 4 and air inlet pipe 1 have temperature difference, when air inlet pipe 1
Air inlet it is excessive, condensing unit 5 condense underspeed, the temperature of condensation chamber 4 can raise, temperature sensitive in hollow elastic ball 504
Swollen compression material reduces the air inflow of air inlet pipe 1, air inflow is met the cold of condensing unit 5 because temperature raises volumetric expansion
Solidifying speed;, whereas if air inflow is less than condensation rate, the temperature of condensation chamber 4 can reduce, temperature sensitive in hollow elastic ball 504
Swollen compression material increases the air inflow of air inlet pipe 1, air inflow is met the cold of condensing unit 5 because temperature reduces volume contraction
Solidifying speed, the condensate film 502 bypass the refrigerant tubing of Refrigerating device for refrigerator refrigeration end;
The bosom of the electrolyte chamber 8 is provided with PEM membrane electrolysis electrode 801, the side of the PEM membrane electrolysis electrode 801
Provided with cathode cavity 802, and the opposite side of PEM membrane electrolysis electrode 801 is provided with anode cavities 803, by controlling PEM electrolysis electrodes 801
Electrical current make to produce ozone in anode cavities 803, hydrogen, the lateral wall insertion of the anode cavities 803 are produced in cathode cavity 803
There are one end of ozone conduit 9, and the other end insertion air inlet pipe 1 of ozone conduit 9, set above the inlet end of the ozone conduit 9
There is inductive probe 10, and the outlet internal of ozone conduit 9 is provided with check valve 11, prevents gas reflux, the He of cathode cavity 802
The bottom of anode cavities 803 is equipped with outlet pipe 12, and the outlet pipe 12 is provided with magnetic valve 13, when the hypervolia of storage
Wait, by magnetic valve 13 outlet pipe 12 can be controlled to open, water is rejected in the apopore of refrigerator.
Specifically, the air inlet pipe 1 is V-type air inlet pipe, and the air inlet pipe 1 is gradually reduced along airintake direction internal diameter, and
Air inlet pipe 1 has arc-shaped inner surface, can improve gettering efficiency, ensures the stability of suction gas, reduces the appearance of turbulent flow.
Specifically, the top of the ultraviolet lamp 2 is provided with concave mirror lampshade 14, can expand the model of ultraviolet irradiation
Enclose.
Specifically, the inner surface of the control chamber 3 is provided with heating collar 15, keeps internal battery 17 and control board
18 and control chamber 3 in temperature, ensure performance and the life-span of internal battery 17, the lateral wall of the control chamber 3 is through having
Charge port 16, and charge port 16 electrically connects internal battery 17 by electric conductor, the lower section of the internal battery 17 is provided with control
Circuit board 18 processed, it is that condensing unit 5, PEM membrane electrolysis electrode 801 and fan 27 supply that control board 18, which controls internal battery 17,
Electricity, charge port 16 can be that internal battery 17 charges.
Specifically, the inside of the condensation chamber 4 is provided with anion generator 19, and anion generator 19 produce and to
Anion is sprayed in the place direction of steam vent 6, and gas is further sterilized.
Specifically, the bottom of the condensation chamber 4 is provided with delivery port 20, and the lower section of the delivery port 20 is provided with water fender
21, the middle part of the water fender 21 is provided with fulcrum 22, and the afterbody lower surface of delivery port 20 is provided with balancing weight 23, and balancing weight 23 can
Changed according to different demands, so as to realize the automatic shutter of the delivery port of condensation chamber 2 using lever principle, by changing counterweight
Block 23 can also adjust the water level in condensation chamber 4;In addition, the bottom outlet of condensation chamber 4 can also directly set check valve 11 or
Magnetic valve 13, the water level in condensation chamber 4 is controlled with this.
Specifically, the deodorization chamber 7 includes epicoele 701 and cavity of resorption 702, and the inside of the epicoele 701 is provided with activated carbon
Layer 24 and ozone filter membrane 25, and the lateral wall of epicoele 701 is through there is a venthole 26, the venthole 26 and active carbon layer 24 it
Between be provided with fan 27, the inside of the cavity of resorption 702 is provided with ozone filter membrane 25, and the right side wall of the cavity of resorption 702 is through there is ventilation
Hole 28, and the left side wall of cavity of resorption 702 not only can effectively adsorb remaining foul smell molecule, can also inhale through there is hydrogen exhausting hole 29
Attached ozone, prevent ozone from overflowing to be scattered in refrigerator, the venthole 26 through deodorization and dried gas from the opposite side of deodorization chamber 7 is discharged
It is extraneous;Hydrogen caused by cathode cavity 802 can not only improve the air ambient in refrigerator, carry by being passed through after water proof in refrigerator
For reproducibility environment, extend effective period of food quality, supplemented with and stable refrigerator in air pressure.
Operation principle of the present utility model:The present apparatus is placed in refrigerator, control board 18 controls fan 27 to rotate
Negative pressure is caused, gas is entered along air inlet pipe 1 in condensation chamber 4 and condenses, condensed water is deposited in the bottom of condensation chamber 4, until setting
Water level when, water fender 21 is opened, condensed water enter electrolyte chamber 8 in, the electrolysis water of PEM membrane electrolysis electrode 801 is respectively in cathode cavity
802 and anode cavities 803 in produce hydrogen and ozone, hydrogen is passed through to overflow after waterproof ventilated membrane and is scattered in refrigerator, and ozone is in Bernoulli Jacob
It is inhaled into the presence of effect at necking part in air inlet pipe and gas is carried out disinfection;Gas condenses in condensation chamber 4, residual gas
Body and ozone enter deodorization intracavitary through steam vent 6, are discharged after active carbon layer 24 and ozone filter membrane 25 from venthole 26
Into refrigerator;After caused hydrogen also passes through the filtering of ozone filter membrane 25 in cathode cavity 802, refrigerator is discharged to through hydrogen exhausting hole 29
In;Ultraviolet lamp 2 is irradiated to carrying out sterilizing in refrigerator by ultraviolet.
While there has been shown and described that embodiment of the present utility model, for the ordinary skill in the art,
It is appreciated that these embodiments can be carried out with a variety of changes in the case where not departing from principle of the present utility model and spirit, repaiied
Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.
Claims (7)
- A kind of 1. efficiently high reliability refrigerator hydrogen-rich device, including air inlet pipe (1), it is characterised in that:The top of the air inlet pipe (1) End is provided with air inlet, and the top of the inner chamber of the air inlet pipe (1) is provided with necking part, and the top of the air inlet pipe (1) is provided with ultraviolet Line lamp (2), the lateral wall of the air inlet pipe (1) are provided with control chamber (3), and the lower section of the air inlet pipe (1) is provided with condensation chamber (4), The inside of the condensation chamber (4) is provided with condensing unit (5), and the left side wall of condensation chamber (4) is through with steam vent (6), described cold The left outside side wall of solidifying chamber (4) is provided with deodorization chamber (7), and electrolyte chamber (8), the condensation dress are connected with below the condensation chamber (4) Putting (5) includes condensate film (501), and the periphery of the condensate film (501) is provided with heat exchanger fin (502), and the inside of condensate film (502) Provided with condensation cycle passage (503), top and air inlet pipe (1) connectivity part of the condensate film (502) are hung with hollow elastic ball (504), hollow elastic ball (504) inner sealing is filled with temperature sensitive swollen compression material, and the condensate film (502) bypasses refrigerator system The refrigerant tubing of device for cooling refrigeration end;The electrolyte chamber (8) includes PEM membrane electrolysis electrode (801), and the side of the PEM membrane electrolysis electrode (801) is provided with negative electrode Chamber (802), and the opposite side of PEM membrane electrolysis electrode (801) is provided with anode cavities (803), the lateral wall of the anode cavities (803) passes through One end of ozone conduit (9), and the other end insertion air inlet pipe (1) of ozone conduit (9) are connected with, ozone conduit (9) are entered Inductive probe (10) is provided with above gas end, and the outlet internal of ozone conduit (9) is provided with check valve (11), the cathode cavity (802) and the bottoms of anode cavities (803) is equipped with outlet pipe (12), and the outlet pipe (12) is provided with magnetic valve (13).
- 2. efficiently high reliability refrigerator hydrogen-rich device according to claim 1, it is characterised in that:The air inlet pipe (1) is V Type air inlet pipe, the air inlet pipe (1) is gradually reduced along airintake direction internal diameter, and air inlet pipe (1) has arc-shaped inner surface.
- 3. efficiently high reliability refrigerator hydrogen-rich device according to claim 2, it is characterised in that:The ultraviolet lamp (2) Top be provided with concave mirror lampshade (14).
- 4. efficiently high reliability refrigerator hydrogen-rich device according to claim 3, it is characterised in that:The control chamber (3) Inner surface is provided with heating collar (15), and the lateral wall of the control chamber (3), which runs through, charge port (16), and charge port (16) passes through electricity Conductor electrical connection internal battery (17), the lower section of the internal battery (17) is provided with control board (18).
- 5. efficiently high reliability refrigerator hydrogen-rich device according to claim 4, it is characterised in that:The condensation chamber (4) Inside is provided with anion generator (19), and anion generator (19) produce and sprayed to direction where steam vent (6) bear from Son.
- 6. efficiently high reliability refrigerator hydrogen-rich device according to claim 5, it is characterised in that:The condensation chamber (4) Bottom is provided with delivery port (20), and the lower section of the delivery port (20) is provided with water fender (21), set in the middle part of the water fender (21) There is fulcrum (22), and the afterbody lower surface of delivery port (20) is provided with balancing weight (23).
- 7. efficiently high reliability refrigerator hydrogen-rich device according to claim 6, it is characterised in that:Deodorization chamber (7) bag Epicoele (701) and cavity of resorption (702) are included, the inside of the epicoele (701) is provided with active carbon layer (24) and ozone filter membrane (25), and The lateral wall of epicoele (701) is provided with fan through there is venthole (26) between the venthole (26) and active carbon layer (24) (27), the inside of the cavity of resorption (702) is provided with ozone filter membrane (25), and the right side wall of the cavity of resorption (702), which runs through, passage (28), and cavity of resorption left side wall through there is hydrogen exhausting hole (29).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621482867.6U CN206755715U (en) | 2016-12-30 | 2016-12-30 | A kind of efficiently high reliability refrigerator hydrogen-rich device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621482867.6U CN206755715U (en) | 2016-12-30 | 2016-12-30 | A kind of efficiently high reliability refrigerator hydrogen-rich device |
Publications (1)
Publication Number | Publication Date |
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CN206755715U true CN206755715U (en) | 2017-12-15 |
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ID=60608063
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201621482867.6U Expired - Fee Related CN206755715U (en) | 2016-12-30 | 2016-12-30 | A kind of efficiently high reliability refrigerator hydrogen-rich device |
Country Status (1)
Country | Link |
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CN (1) | CN206755715U (en) |
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2016
- 2016-12-30 CN CN201621482867.6U patent/CN206755715U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20171215 Termination date: 20211230 |