CN207749008U - A kind of microorganism sewage water processing unit - Google Patents
A kind of microorganism sewage water processing unit Download PDFInfo
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- CN207749008U CN207749008U CN201721732435.0U CN201721732435U CN207749008U CN 207749008 U CN207749008 U CN 207749008U CN 201721732435 U CN201721732435 U CN 201721732435U CN 207749008 U CN207749008 U CN 207749008U
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- layer
- filter screen
- sewage
- pipe
- cabin ontology
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- Purification Treatments By Anaerobic Or Anaerobic And Aerobic Bacteria Or Animals (AREA)
- Biological Treatment Of Waste Water (AREA)
Abstract
The utility model discloses a kind of microorganism sewage water processing units, including casing assembly, adjusting part and accessory part, the casing assembly includes processing cabin ontology, water inlet pipe, drainpipe, exhaust pipe, blow-off pipe, the first filter screen, the second filter screen and partition board, the water inlet pipe, the drainpipe, the exhaust pipe and the blow-off pipe are welded in processing cabin ontology, and the water inlet pipe, the drainpipe, the exhaust pipe and the blow-off pipe are respectively positioned on the lateral wall of the processing cabin ontology;When sewage disposal, multiple processed sewage is transferred in the process layer by the water pump and carries out last processing detection, the tail end that sewage is finally transferred to the processing cabin ontology with the water pump discharges, realize the diminution to traditional wastewater processing unit volume, cost is saved, and realize the multiple of sewage and handle the processing avoided to sewage progress repeatedly so that sewage treating efficiency improves, and treatment effect increases.
Description
Technical field
The utility model belongs to technical field of sewage, and in particular to a kind of microorganism sewage water processing unit.
Background technology
Sewage disposal is to make sewage reach to drain a certain water body or mistake that the water quality requirement that reuses purifies it
Journey, sewage disposal are widely used in building, agricultural, and traffic, the energy, petrochemical industry, environmental protection, urban landscape, medical treatment, food and drink etc. are each
The daily life of common people is also come into field more and more.
Microorganism sewage water processing unit currently on the market often uses tower type structure, and floor space is larger, sewage
Treatment effeciency is relatively low, and treatment effect is poor, needs repeatedly purified treatment to can be only achieved integrated wastewater discharge standard, this leads to sewage
Processing cost is higher, it is difficult to realize the further extensive use of microorganism sewage water treatment technology.
Utility model content
The purpose of this utility model is to provide a kind of microorganism sewage water processing units, to solve to carry in above-mentioned background technology
The microorganism sewage water processing unit currently on the market gone out often uses tower type structure, and floor space is larger, sewage disposal
Less efficient, treatment effect is poor, needs repeatedly purified treatment to can be only achieved integrated wastewater discharge standard, this leads to sewage disposal
Cost is higher, it is difficult to the problem of realizing the further extensive use of microorganism sewage water treatment technology.
To achieve the above object, the utility model provides the following technical solutions:A kind of microorganism sewage water processing unit, including
Casing assembly, adjusting part and accessory part, the casing assembly include processing cabin ontology, water inlet pipe, drainpipe, exhaust pipe,
Blow-off pipe, the first filter screen, the second filter screen and partition board, the water inlet pipe, the drainpipe, the exhaust pipe and the blowdown
Guan Jun is welded in processing cabin ontology, and the water inlet pipe, the drainpipe, the exhaust pipe and the blow-off pipe are respectively positioned on the place
The lateral wall of stowing ontology, the water inlet pipe and the exhaust pipe are located at the same side of the processing cabin ontology, the water inlet pipe
Positioned at the right side of the exhaust pipe, the drainpipe and the blow-off pipe are located at the other side for handling cabin ontology, the row
Water pipe is located at the left side of the blow-off pipe, and first filter screen, second filter screen and the partition board are fixed to be connected
It is connected to processing cabin ontology, first filter screen, second filter screen and the partition board are respectively positioned on processing cabin sheet
The madial wall of body, first filter screen are located at the side of second filter screen, and the partition board is located at second filter screen
The other side, the inside of the partition board offers the through-hole, and the adjusting part includes adsorption layer, the beds of precipitation, anaerobic layer, tune
The inside of flood, aerobic layer and process layer, the processing cabin ontology offers the adsorption layer, the beds of precipitation, the anaerobism
Layer, the adjustment layer, the aerobic layer and the process layer, the adsorption layer, the beds of precipitation, the anaerobic layer, the tune
Flood, the aerobic layer and the process layer are arranged in order setting from right to left, and the accessory part includes water pump and air blower,
The water pump is fixedly connected on processing cabin ontology, and the water pump is located at the lateral surface of the processing cabin ontology, the air blast
Machine is fixedly connected on processing cabin ontology, and the air blower is located at the upper surface of the processing cabin ontology, the water pump and institute
It states air blower and is electrically connected at external power supply.
Preferably, the net hole specification of first filter screen and second filter screen is of different sizes, first filtering
The net hole dia of net is slightly larger than the net hole dia of second filter screen.
Preferably, the water pump quantity is four, and four water pumps are arranged at the lateral wall of the processing cabin ontology,
And four water pumps are from left to right arranged in order.
Preferably, the exhaust pipe and the blow-off pipe quantity are two, two exhaust pipes respectively correspond to described in
Anaerobic layer and the aerobic layer, two blow-off pipes correspond to first filter screen and second filter screen respectively.
Preferably, processing cabin ontology is shaped to cylindrical type, the water inlet pipe and the drainpipe position
In the processing lateral surface of cabin ontology and mutually contradictory.
Preferably, the adsorption layer, the beds of precipitation, the anaerobic layer, the adjustment layer, the aerobic layer and the place
Reason layer is separated successively from right to left by the partition board, and the quantity of the through-hole is four, parallelogram arrangement.
Compared with prior art, the utility model has the beneficial effects that:A kind of microorganism sewage water of the utility model is handled
Device, by being arranged the processing cabin ontology and the water pump, when sewage disposal, by the water pump by filtered sewage turn
It moves on to the beds of precipitation to be precipitated, oettIed sewage, which is transferred to the anaerobic layer, carries out Anaerobic Treatment, and by anaerobism
Processed that sewage exports in the adjustment layer, subsequent sewage enters the aerobic layer by the through-hole from the adjustment layer
It is further processed, then multiple processed sewage is transferred in the process layer by the water pump and is carried out finally
Pernicious gas absorption processing, the tail end that sewage is finally transferred to the water pump processing cabin ontology discharges, real
Showed the diminution to traditional wastewater processing unit volume, saved cost, and realize sewage it is multiple processing avoid to dirt
Water carries out processing repeatedly so that sewage treating efficiency improves, and treatment effect increases.
Description of the drawings
Fig. 1 is the overall structure diagram of the utility model;
Fig. 2 is casing assembly and adjusting part structural schematic diagram in the utility model;
Fig. 3 is the positive structure schematic of the utility model;
In figure:1- casing assemblies, 2- adjusting parts, 3- accessory parts, 11- processing cabin ontology, 12- water inlet pipes, 13- drainings
Pipe, 14- exhaust pipes, 15- blow-off pipes, the first filter screens of 16-, the second filter screens of 17-, 18- partition boards, 19- through-holes, 21- adsorption layers,
The 22- beds of precipitation, 23- anaerobic layers, 24- adjustment layer, 25- aerobic layers, 26- process layers, 31- water pumps, 32- air blowers.
Specific implementation mode
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
The every other embodiment obtained, shall fall within the protection scope of the present invention.
- 3 are please referred to Fig.1, the utility model provides a kind of technical solution:A kind of microorganism sewage water processing unit, including it is outer
Shell component 1, adjusting part 2 and accessory part 3, casing assembly 1 include processing cabin ontology 11, water inlet pipe 12, drainpipe 13, exhaust
Pipe 14, blow-off pipe 15, the first filter screen 16, the second filter screen 17 and partition board 18, water inlet pipe 12, drainpipe 13,14 and of exhaust pipe
Blow-off pipe 15 is welded in processing cabin ontology 11, and water inlet pipe 12, drainpipe 13, exhaust pipe 14 and blow-off pipe 15 are respectively positioned on processing cabin
The lateral wall of ontology 11, water inlet pipe 12 and exhaust pipe 14 are located at the same side of processing cabin ontology, and water inlet pipe 12 is located at exhaust pipe 14
Right side, drainpipe 13 and blow-off pipe 15 be located at the other side of processing cabin ontology 11, and drainpipe 13 is located at the left side of blow-off pipe 15,
First filter screen 16, the second filter screen 17 and partition board 18 are fixedly connected in processing cabin ontology 11, the first filter screen 16, the second mistake
Strainer 17 and partition board 18 are respectively positioned on the madial wall of processing cabin ontology 11, and the first filter screen 16 is located at the side of the second filter screen 17,
Partition board 18 is located at the other side of the second filter screen 17, and the inside of partition board 18 offers through-hole 19, and adjusting part 2 includes adsorption layer
21, the inside of the beds of precipitation 22, anaerobic layer 23, adjustment layer 24, aerobic layer 25 and process layer 26, processing cabin ontology 11 offers absorption
Layer 21, the beds of precipitation 22, anaerobic layer 23, adjustment layer 24, aerobic layer 25 and process layer 26, adsorption layer 21, the beds of precipitation 22, anaerobic layer
23, adjustment layer 24, aerobic layer 25 and process layer 26 are arranged in order setting from right to left, and accessory part 3 includes water pump 31 and air blast
Machine 32, water pump 31 are fixedly connected on processing cabin ontology 11, and water pump 31 is located at the lateral surface of processing cabin ontology 11, and air blower 32 is fixed
It is connected to processing cabin ontology 11, air blower 32 is located at the upper surface of processing cabin ontology 11, and water pump 31 and air blower 32 electrically connect
It is connected to external power supply.
In the present embodiment, it is handled by setting closed when cabin ontology 11 may be implemented sewage disposal, prevents from being harmful to
Liquid outflow pollution environment may be implemented the transfer of the sewage between closed interlayer by the way that water pump 31 is arranged, ensure sewage flow
It is unimpeded, it is separated out different functional layers in the inside partition board 18 of processing storehouse ontology, is filled inside different functional layers different
Material, realize that, to the multistep treatment of sewage, final purification sewage reaches discharge standard, can be discharged, water pump 31 is mounted on place
The purified sewage of a upper functional layer is transferred to next functional layer by the outer surface of stowing ontology 11 by water pump 31, real
Existing multistage functional layer finally obtains clean water, reduces the floor space of sewage-treatment plant, together to the different disposal of sewage
When improve the working efficiency of sewage disposal.
In the present embodiment, it is handled by setting closed when cabin ontology 11 may be implemented sewage disposal, prevents from being harmful to
Liquid outflow pollution environment may be implemented the transfer of the sewage between closed interlayer by the way that water pump 31 is arranged, ensure sewage flow
It is unimpeded, it is organic anti-to the impurity progress in sewage by aerobe and anaerobic organism by the way that aerobic layer 25 and anaerobic layer 23 is arranged
It should realize the processing to sewage, be realized by the way that process layer 26 is arranged and absorption processing carried out to the pernicious gas in sewage, at sewage
When reason, first passes through water inlet pipe 12 and import sewage in processing cabin ontology 11, subsequent sewage will flow through the first filter screen 16, realize
First time filtration treatment, then sewage will be by the second filter screen 17, second filtering of the realization to sewage, then by absorption
Sundries in 21 pairs of water of layer adsorbs, and realizes to the third time filtration treatment of sewage, then by water pump 31 by third time mistake
Sewage after filter is transferred to the beds of precipitation 22 and is precipitated, and oettIed sewage is then transferred to anaerobic layer again by water pump 31
23 carry out Anaerobic Treatment, then by Anaerobic Treatment sewage export in adjustment layer 24 again by water pump 31, adjust
Ozone importing adjustment layer 24 is made aerobic by layer 24 by air blower 32 for improving the anaerobic environment in water
Environment, subsequent sewage carry out further organic reaction processing by through-hole from adjustment layer 24 into aerobic layer 25, then again
Multiple processed sewage is transferred in process layer 26 by water pump 31 and carries out last pernicious gas absorption processing, finally again
The tail end that sewage is transferred to processing cabin ontology 11 with water pump 31 discharges, and improves sewage treating efficiency, increases processing
Effect solves the problems, such as that purified treatment can be only achieved integrated wastewater discharge standard repeatedly, reduces cost of sewage disposal, realizes micro-
The further extensive use of biological sewage treatment technology.
Further, the net hole specification of the first filter screen 16 and the second filter screen 17 is of different sizes, the first filter screen 16
Net hole dia is slightly larger than the net hole dia of the second filter screen 17.
In the present embodiment, it may be implemented to carry out the impurity in sewage at preliminary place by the way that the first filter screen 16 is arranged
Reason filtering may be implemented to carry out further preliminary filtration treatment to the impurity in sewage by the way that the second filter screen 17 is arranged, dirty
When water process, first passing through water inlet pipe 12 and import sewage in processing cabin ontology 11, subsequent sewage will flow through the first filter screen 16,
It realizes and first time filtration treatment is carried out to the impurity in sewage, then sewage will be realized by the second filter screen 17 in sewage
Impurity carry out second of filtration treatment, then pass through the absorption of adsorption layer 21, realize to the third time filtration treatment of sewage, lead to
It crosses multiple filtration treatment and processing to the larger solid impurity in water may be implemented substantially, realize the preliminary net of sewage
Change.
Further, 31 quantity of water pump is four, and four water pumps 31 are arranged at the lateral wall of processing cabin ontology 11, and four
A water pump 31 is from left to right arranged in order.
In the present embodiment, the transfer of the sewage between closed interlayer may be implemented by the way that water pump 31 is arranged, ensures sewage
Flow it is unimpeded, the transfer of the sewage between multistage functional layer may be implemented by the way that four water pumps 31 are arranged, when sewage disposal, pass through
The filtered sewage of third time is transferred to the beds of precipitation 22 and precipitated by water pump 31, then will be after precipitation again by water pump 31
Sewage is transferred to anaerobic layer 23 and carries out Anaerobic Treatment, then exports to Anaerobic Treatment sewage again by water pump 31
In adjustment layer 24, then multiple processed sewage is transferred to again by water pump 31 and carries out last be harmful in process layer 26
Gas absorption is handled, and the tail end that sewage is finally transferred to water pump 31 processing cabin ontology 11 again discharges, and increases place
Effect is managed, solves the problems, such as that purified treatment can be only achieved integrated wastewater discharge standard repeatedly, reduce cost of sewage disposal.
Further, exhaust pipe 14 and 15 quantity of blow-off pipe are two, and two exhaust pipes 14 correspond to aerobic layer 25 respectively
With anaerobic layer 23, two blow-off pipes 15 correspond to the first filter screen 16 and the second filter screen 17 respectively.
In the present embodiment, it may be implemented to carry out anaerobic layer 23 and aerobic layer 25 by setting exhaust pipe 14 organic anti-
The gas that should be generated is excluded, and may be implemented to the clear of the first filter screen 16 and the second filter screen 17 by the way that blow-off pipe 15 is arranged
Clean, sewage flows through the first filter screen 16, realizes first time filtration treatment, and then sewage will be by the second filter screen 17, realization pair
Second of filtering of sewage, then passes through the absorption of adsorption layer 21, realizes to the third time filtration treatment of sewage, then pass through water
Pump 31 filtered sewage will be transferred to the beds of precipitation 22 and precipitate three times, then again by water pump 31 by oettIed sewage
It is transferred to anaerobic layer 23 and carries out Anaerobic Treatment, then carry out Anaerobic Treatment sewage to export to adjustment again by water pump 31
In layer 24, ozone is imported adjustment layer 24 by adjustment layer 24 by air blower 32, for improving the anaerobic environment in water, with
Sewage is further processed by through-hole from adjustment layer 24 into aerobic layer 25 afterwards, then will be multiple again by water pump 31
Processed sewage, which is transferred to, carries out last pernicious gas absorption processing in process layer 26, finally use water pump 31 by sewage again
The tail end for being transferred to processing cabin ontology 11 is discharged, and when cleaning, is opened blow-off pipe 15 and is filtered the first filter screen 16 and second
The impurity that net 17 is bonded is cleared up, and the impurity in the gas treatment sewage generated by organic reaction is also carried to microorganism
Energy has been supplied, the ability of sustainable processing is increased, blow-off pipe 15 realizes the protection to filter screen, increases processing unit
Service life.
Further, processing cabin ontology 11 is shaped to cylindrical type, and water inlet pipe 12 is located at processing cabin with drainpipe 13
The lateral surface of ontology 11 and mutually contradictory.
In the present embodiment, by the way that cylindrical processing cabin ontology 11 is arranged, volume is reduced, the face taken up an area has been saved
Product, by water inlet pipe 12 and drainpipe 13 be located at processing cabin ontology 11 lateral surface and the mutually contradictory importing for realizing sewage and
Derived circulation when sewage disposal, first passes through water inlet pipe 12 and imports sewage in processing cabin ontology 11, finally use water pump again
31 tail ends that sewage is transferred to processing cabin ontology 11 carry out the discharge of drainpipe 13, reduce volume, have saved the face taken up an area
Product, saves space.
Further, adsorption layer 21, the beds of precipitation 22, anaerobic layer 23, adjustment layer 24, aerobic layer 25 and process layer 26 are by partition board
18 separate successively from right to left, and the quantity of through-hole 19 is four, parallelogram arrangement.
In the present embodiment, it may be implemented to form processing at different levels to the partition for handling cabin ontology 11 by the way that partition board 18 is arranged
The gravity flow of sewage may be implemented by the way that through-hole is arranged in layer, and when installation, six pieces of partition boards 18 are sequentially arranged to processing cabin from right to left
Inside ontology 11, adsorption layer 21, the beds of precipitation 22, anaerobic layer 23, adjustment layer 24,25 and of aerobic layer are then sequentially formed from right to left
Process layer 26, through-hole be separately positioned on adjustment layer 24, aerobic layer 25, process layer 26 and handle cabin ontology 11 tail end two-by-two it
Between partition board 18 on, separate multistage function and increase treatment effect, solve purified treatment repeatedly and can be only achieved integrated wastewater
Discharge standard problem, reduces cost of sewage disposal.
While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art,
It is appreciated that can these embodiments be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaiied
Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.
Claims (6)
1. a kind of microorganism sewage water processing unit, it is characterised in that:Including casing assembly(1), adjusting part(2)And accessory part
(3), the casing assembly(1)Including handling cabin ontology(11), water inlet pipe(12), drainpipe(13), exhaust pipe(14), blow-off pipe
(15), the first filter screen(16), the second filter screen(17)And partition board(18), the water inlet pipe(12), the drainpipe(13), institute
State exhaust pipe(14)With the blow-off pipe(15)It is welded in processing cabin ontology(11), the water inlet pipe(12), the drainpipe
(13), the exhaust pipe(14)With the blow-off pipe(15)It is respectively positioned on processing cabin ontology(11)Lateral wall, the water inlet
Pipe(12)With the exhaust pipe(14)Positioned at the same side of the processing cabin ontology, the water inlet pipe(12)Positioned at the exhaust pipe
(14)Right side, the drainpipe(13)With the blow-off pipe(15)Positioned at processing cabin ontology(11)The other side, it is described
Drainpipe(13)Positioned at the blow-off pipe(15)Left side, first filter screen(16), second filter screen(17)And institute
State partition board(18)It is fixedly connected in processing cabin ontology(11), first filter screen(16), second filter screen
(17)With the partition board(18)It is respectively positioned on processing cabin ontology(11)Madial wall, first filter screen(16)Positioned at described
Second filter screen(17)Side, the partition board(18)Positioned at second filter screen(17)The other side, the partition board(18)
Inside offer through-hole(19),
The adjusting part(2)Including adsorption layer(21), the beds of precipitation(22), anaerobic layer(23), adjustment layer(24), aerobic layer(25)
And process layer(26), processing cabin ontology(11)Inside offer the adsorption layer(21), the beds of precipitation(22), it is described
Anaerobic layer(23), the adjustment layer(24), the aerobic layer(25)With the process layer(26), the adsorption layer(21), it is described
The beds of precipitation(22), the anaerobic layer(23), the adjustment layer(24), the aerobic layer(25)With the process layer(26)From the right side to
A left side is arranged in order setting,
The accessory part(3)Including water pump(31)And air blower(32), the water pump(31)It is fixedly connected on the processing cabin
Ontology(11), the water pump(31)Positioned at processing cabin ontology(11)Lateral surface, the air blower(32)It is fixedly connected on
Processing cabin ontology(11), the air blower(32)Positioned at processing cabin ontology(11)Upper surface, the water pump(31)
With the air blower(32)It is electrically connected at external power supply.
2. a kind of microorganism sewage water processing unit according to claim 1, it is characterised in that:First filter screen(16)
With second filter screen(17)Net hole specification it is of different sizes, first filter screen(16)Net hole dia slightly larger than described
Second filter screen(17)Net hole dia.
3. a kind of microorganism sewage water processing unit according to claim 1, it is characterised in that:The water pump(31)Quantity is
Four, four water pumps(31)It is arranged at processing cabin ontology(11)Lateral wall, and four water pumps(31)From
It is left-to-right to be arranged in order.
4. a kind of microorganism sewage water processing unit according to claim 1, it is characterised in that:The exhaust pipe(14)And institute
State blow-off pipe(15)Quantity is two, two exhaust pipes(14)The anaerobic layer is corresponded to respectively(23)With the aerobic layer
(25), two blow-off pipes(15)First filter screen is corresponded to respectively(16)With second filter screen(17).
5. a kind of microorganism sewage water processing unit according to claim 1, it is characterised in that:Processing cabin ontology(11)
It is shaped to cylindrical type, the water inlet pipe(12)With the drainpipe(13)Positioned at processing cabin ontology(11)Outside
Face and mutually contradictory.
6. a kind of microorganism sewage water processing unit according to claim 1, it is characterised in that:The adsorption layer(21), institute
State the beds of precipitation(22), the anaerobic layer(23), the adjustment layer(24), the aerobic layer(25)With the process layer(26)By institute
State partition board(18)It separates successively from right to left, the through-hole(19)Quantity be four, parallelogram arrangement.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721732435.0U CN207749008U (en) | 2017-12-13 | 2017-12-13 | A kind of microorganism sewage water processing unit |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721732435.0U CN207749008U (en) | 2017-12-13 | 2017-12-13 | A kind of microorganism sewage water processing unit |
Publications (1)
Publication Number | Publication Date |
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CN207749008U true CN207749008U (en) | 2018-08-21 |
Family
ID=63149156
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201721732435.0U Expired - Fee Related CN207749008U (en) | 2017-12-13 | 2017-12-13 | A kind of microorganism sewage water processing unit |
Country Status (1)
Country | Link |
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CN (1) | CN207749008U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110052077A (en) * | 2019-04-17 | 2019-07-26 | 罗会英 | A kind of environmental protection sewage treatment double-filtration equipment |
-
2017
- 2017-12-13 CN CN201721732435.0U patent/CN207749008U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110052077A (en) * | 2019-04-17 | 2019-07-26 | 罗会英 | A kind of environmental protection sewage treatment double-filtration equipment |
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GR01 | Patent grant | ||
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180821 Termination date: 20191213 |
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CF01 | Termination of patent right due to non-payment of annual fee |