CN208720441U - A kind of energy-efficient air exchange system of new indoor - Google Patents
A kind of energy-efficient air exchange system of new indoor Download PDFInfo
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- CN208720441U CN208720441U CN201821103105.XU CN201821103105U CN208720441U CN 208720441 U CN208720441 U CN 208720441U CN 201821103105 U CN201821103105 U CN 201821103105U CN 208720441 U CN208720441 U CN 208720441U
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Abstract
The utility model relates to indoor ventilation equipment field more particularly to a kind of energy-efficient air exchange systems of new indoor, including fresh air to introduce part, heat exchange section, indoor wind discharge part and fresh air discharge part;It includes fresh air blast pipe that the fresh air, which introduces part,;The fresh air blast pipe is connected to fixing pipe;The heat exchange section includes plate-fin heat exchanger;The interior wind discharge part includes air draft connecting tube, and the air draft connecting tube is connected to solar energy heat collecting pipeline;The solar energy heat collecting pipeline is connected to wind pipe;The wind pipe connects shaft, and setting sealing partition between the shaft and the wind pipe;The top of the shaft is installed by fan blade;The fresh air discharge part includes spiral case cyclone.When the utility model is aerated ventilation outside indoors, indoor hot wind and outdoor cool breeze are subjected to heat exchange and avoid indoor heat losses to realize that winter is aerated interior, low energy consumption, reduces human body discomfort.
Description
Technical field
The utility model relates to indoor ventilation equipment field more particularly to a kind of energy-efficient air exchange systems of new indoor.
Background technique
From the point of view of building developing target market situation with regard to Current Domestic new energy, generalling use new and high technology construction ecotecture is
It is unpractical;And with the development of economy, heating range is growing, and heating energy consumption certainly will be continuously increased;Therefore, current
Under energy situation more intense situation, the effective use of the energy of system, which just becomes in design, one of must consider the problems of, newly
Type indoor highly effective energy-saving scavenging system is exactly to generate in this context.
When in winter, there are mainly two types of the heating systems of people, and air-conditioning heating is for warm heating heating, both heating sides
Formula can all require the indoor state closed in door and window when being heated, and when needing replacing room air, then it needs to beat
Door window is aerated, and cold wind extraneous at this time can enter, and not only results in the discomfort of human body, and indoor thermal loss compared with
Greatly, increase air-conditioning, the cost that heating uses.
Utility model content
The purpose of this utility model is to provide a kind of energy-efficient air exchange systems of new indoor, are asked with solving above-mentioned technology
Topic.
The utility model using following technical scheme in order to solve the above technical problems, realized:
A kind of energy-efficient air exchange system of new indoor is designed, including fresh air introduces part, heat exchange section, indoor wind row
Part and fresh air discharge part out;It includes fresh air blast pipe that the fresh air, which introduces part, and the inside of the fresh air blast pipe passes through
Air-duct clapboard separates, and the inside of the air-duct clapboard is connected to air inlet;The bottom of the fresh air blast pipe is connected to fixing pipe;Institute
Stating heat exchange section includes plate-fin heat exchanger, wind intake stack in the side communication chamber of the plate-fin heat exchanger, and described
Plate-fin heat exchanger is connected to the fixing pipe;The interior wind discharge part includes air draft connecting tube, and the air draft connecting tube is logical
The plate-fin heat exchanger connection indoor wind intake stack is crossed, and the air draft connecting tube is connected to solar energy heat collecting pipeline;It is described
Solar energy heat collecting pipeline is connected to wind pipe, and the wind pipe is installed on the fresh air blast pipe;The wind pipe
Inner rotation connects shaft, and setting sealing partition between the shaft and the wind pipe;It installs at the top of the shaft
Fan blade;The fresh air discharge part includes spiral case cyclone, and the spiral case cyclone is connected by the plate-fin heat exchanger
Lead to the fixing pipe.
Preferably, the side connection of the fixing pipe is without fan-leaf fan, and the no fan-leaf fan is electrically connected battery;
The battery is electrically connected charging-discharging controller and solar panel, is the battery by the solar panel
The supplement for carrying out electric energy is the supplement that the no fan-leaf fan carries out electric energy by the battery, in order to which it opens sucking
More fresh airs.
Preferably, air inducing flabellum is installed on the outside of the shaft inside the fixing pipe, and the inside of the fixing pipe is set
Air-valve is set, the air inducing flabellum is realized Leads to new breeze.
Preferably, air draft flabellum is installed in the outside of the shaft, and the solar energy heat collecting pipeline connects away from the air draft
One end of adapter tube is connected between the air draft flabellum and the sealing partition, and indoor wind is arranged in the air draft flabellum realization
Out.
Preferably, the plate-fin heat exchanger includes shell, and first flow path and second is arranged in the inside of the shell
Circulation road;It is separated between the first flow path and the second flow path by heat conduction baffle, makes fresh air and indoor wind in institute
It states plate-fin heat exchanger to swap, realizes heat exchange, it is high-efficient.
Preferably, the section of the first flow path and the second flow path is all made of triangular structure, and described
It is mutually perpendicular to be distributed between one circulation road and the second flow path;The two sides of the first flow path are respectively communicated with the spiral case
Cyclone, the fixing pipe;The two sides of the second flow path are respectively communicated with the indoor wind intake stack, air draft connection
Pipe.
Preferably, the section of the solar energy heat collecting pipeline uses trapezium structure, and the solar energy heat collecting pipeline includes
Glass top plate;The fixed tube wall in the bottom of the glass top plate, and black nickel heat absorbing coating is coated on the inside of the tube wall;The tube wall
The fixed heat insulation coating in outside, make that the air heats in pipeline expand and the cold air of outside forms biggish density contrast, herein
Under the action of density contrast, hot-air rises along pipeline, and discharge is outdoor, to accelerate the discharge of room air, plays auxiliary row
The effect of gas.
Preferably, the fresh air blast pipe uses side for the disc-shaped structure of opening, and the fresh air blast pipe is interior
Portion passes through six air-duct clapboard spaced at equal intervals.
The beneficial effects of the utility model are:
When the utility model is aerated ventilation outside indoors, indoor hot wind and outdoor cool breeze are subjected to heat exchange,
To realize that winter is aerated ventilation to interior, indoor heat losses are avoided, low energy consumption, and it is uncomfortable to reduce human body;It is adopted in ventilation
Indoor supply air temperature is improved with heat recovery technology;Accelerate fresh air using eddy flow and room air mixes, realizes high efficient heat exchanging;Benefit
It is that nature wind catcher is entered the wind with fresh air blast pipe, institute's required airflow can be provided without fan-leaf fan in wind-force deficiency by installing additional,
Make full use of wind resource;On the one hand solar panel power-generation energy-storage is utilized, is on the other hand vented using solar energy heating, shape
At spontaneous ventilation.
Detailed description of the invention
Fig. 1 is the overall structure diagram of the utility model;
Fig. 2 is the structural schematic diagram of the wind pipe of the utility model and the inside of fixing pipe and connection;
Fig. 3 is the structural schematic diagram of the plate-fin heat exchanger of the utility model;
Fig. 4 is the structural schematic diagram of the solar energy heat collecting pipeline of the utility model;
Appended drawing reference: 1, charging-discharging controller, 2, solar panel, 3, battery, 4, fan blade, 5, shaft, 6,
Wind pipe, 7, fresh air blast pipe, 701, air-duct clapboard, 702, air inlet, 8, without fan-leaf fan, 9, indoor wind intake stack,
10, spiral case cyclone, 11, plate-fin heat exchanger, 1101, shell, 1102, heat conduction baffle, 1103, first flow path, 1104,
Two circulation roads, 12, fixing pipe, 13, solar energy heat collecting pipeline, 1301, glass top plate, 1302, tube wall, 1303, the heat absorption painting of black nickel
Layer, 1304, heat insulation coating, 14, air draft connecting tube, 15, air draft flabellum, 16, sealing partition, 17, air inducing flabellum, 18, air-valve.
Specific embodiment
In order to be easy to understand the technical means, creative features, achievement of purpose, and effectiveness of the utility model, under
The utility model is further described in face with specific embodiments and the drawings, but following embodiments are only the excellent of the utility model
Embodiment is selected, and not all.Based on the implementation example in the implementation mode, those skilled in the art are not making creative work
Under the premise of obtained other embodiments, belong to protection scope of the present invention.
Specific embodiment of the utility model is described with reference to the accompanying drawing.
Embodiment one:
As shown in Figs. 1-2, the energy-efficient air exchange system of a kind of new indoor, including fresh air introduce part, heat exchange section,
Indoor wind discharge part and fresh air discharge part;It includes fresh air blast pipe 7 that fresh air, which introduces part, and the inside of fresh air blast pipe 7 is logical
It crosses air-duct clapboard 701 to separate, and the inside of air-duct clapboard 701 is connected to air inlet 702;The bottom of fresh air blast pipe 7, which is connected to, to be fixed
Pipe 12;Heat exchange section includes plate-fin heat exchanger 11, wind intake stack 9 in the side communication chamber of plate-fin heat exchanger 11, and
Plate-fin heat exchanger 11 is connected to fixing pipe 12;Indoor wind discharge part includes air draft connecting tube 14, and air draft connecting tube 14 passes through plate
Wind intake stack 9 in 11 communication chamber of fin heat exchanger, and air draft connecting tube 14 is connected to solar energy heat collecting pipeline 13;Solar energy collection
Heat pipeline 13 is connected to wind pipe 6, and wind pipe 6 is installed on fresh air blast pipe 7;The inner rotation connection of wind pipe 6 turns
Axis 5, and setting sealing partition 16 between shaft 5 and wind pipe 6;The top of shaft 5 is installed by fan blade 4;Fresh air discharge unit
Subpackage cyclone containing spiral case 10, spiral case cyclone 10 are connected to fixing pipe 12 by plate-fin heat exchanger 11.
When in use, by indoor wind intake stack 9, spiral case cyclone 10 connection indoors, by fan blade 4, fresh air into
Air hose 7 is placed in outdoor, when being aerated, on the one hand introduces natural wind by air inlet 702, keeps external new natural wind logical
Cross the inside that fresh air blast pipe 7 enters plate-fin heat exchanger 11;On the other hand the rotation of outdoor fan blade 4 and the sun
Energy heat collecting pipeline 13 generates the effect of negative pressure, so that indoor hot-air is passed through indoor wind intake stack 9 and enters plate fin heat-exchanging
The exchange of heat is realized in the inside of device 11, and the fresh air that then exchange obtains heat is drained into interior by spiral case cyclone 10, and
It is circulated to solar energy heat collecting pipeline 13 after room air exchange, is discharged by wind pipe 6, realizes heat exchange and ventilation.
Embodiment two:
As shown in Figs. 1-2, the energy-efficient air exchange system of a kind of new indoor, including fresh air introduce part, heat exchange section,
Indoor wind discharge part and fresh air discharge part;It includes fresh air blast pipe 7 that fresh air, which introduces part, and the inside of fresh air blast pipe 7 is logical
It crosses air-duct clapboard 701 to separate, and the inside of air-duct clapboard 701 is connected to air inlet 702;The bottom of fresh air blast pipe 7, which is connected to, to be fixed
Pipe 12;Heat exchange section includes plate-fin heat exchanger 11, wind intake stack 9 in the side communication chamber of plate-fin heat exchanger 11, and
Plate-fin heat exchanger 11 is connected to fixing pipe 12;Indoor wind discharge part includes air draft connecting tube 14, and air draft connecting tube 14 passes through plate
Wind intake stack 9 in 11 communication chamber of fin heat exchanger, and air draft connecting tube 14 is connected to solar energy heat collecting pipeline 13;Solar energy collection
Heat pipeline 13 is connected to wind pipe 6, and wind pipe 6 is installed on fresh air blast pipe 7;The inner rotation connection of wind pipe 6 turns
Axis 5, and setting sealing partition 16 between shaft 5 and wind pipe 6;The top of shaft 5 is installed by fan blade 4;Fresh air discharge unit
Subpackage cyclone containing spiral case 10, spiral case cyclone 10 are connected to fixing pipe 12 by plate-fin heat exchanger 11;The side of fixing pipe 12
Connection is electrically connected battery 3 without fan-leaf fan 8, and without fan-leaf fan 8;Battery 3 is electrically connected charging-discharging controller 1 and too
Positive energy solar panel 2;Air inducing flabellum 17 is installed, and air-valve is arranged in the inside of fixing pipe 12 on the outside of the shaft 5 inside fixing pipe 12
18。
Solar energy can be absorbed by solar panel 2 when being aerated and convert the solar into power storage to storage
In battery 3, electric energy is provided for no fan-leaf fan 8, in order to by opening the air inlet without fan-leaf fan 8, increasing fresh air blast pipe 7
Channel, it is not necessary that air-valve 18 can be closed when entering the wind.
Embodiment three:
As shown in Figs. 1-2, the energy-efficient air exchange system of a kind of new indoor, including fresh air introduce part, heat exchange section,
Indoor wind discharge part and fresh air discharge part;It includes fresh air blast pipe 7 that fresh air, which introduces part, and the inside of fresh air blast pipe 7 is logical
It crosses air-duct clapboard 701 to separate, and the inside of air-duct clapboard 701 is connected to air inlet 702;The bottom of fresh air blast pipe 7, which is connected to, to be fixed
Pipe 12;Heat exchange section includes plate-fin heat exchanger 11, wind intake stack 9 in the side communication chamber of plate-fin heat exchanger 11, and
Plate-fin heat exchanger 11 is connected to fixing pipe 12;Indoor wind discharge part includes air draft connecting tube 14, and air draft connecting tube 14 passes through plate
Wind intake stack 9 in 11 communication chamber of fin heat exchanger, and air draft connecting tube 14 is connected to solar energy heat collecting pipeline 13;Solar energy collection
Heat pipeline 13 is connected to wind pipe 6, and wind pipe 6 is installed on fresh air blast pipe 7;The inner rotation connection of wind pipe 6 turns
Axis 5, and setting sealing partition 16 between shaft 5 and wind pipe 6;The top of shaft 5 is installed by fan blade 4;Fresh air discharge unit
Subpackage cyclone containing spiral case 10, spiral case cyclone 10 are connected to fixing pipe 12 by plate-fin heat exchanger 11;Plate-fin heat exchanger 11
Including shell 1101, and first flow path 1103 and second flow path 1104 is arranged in the inside of shell 1101;First flow path
It is separated between 1103 and second flow path 1104 by heat conduction baffle 1102;First flow path 1103 and second flow path 1104 are equal
Using triangular structure, and first flow path 1103 and second flow path 1104 are vertical, are spaced setting;First flow path 1103
Two sides be connected to spiral case cyclone 10, fixing pipe 12;Wind intake stack 9, air draft in the two sides communication chamber of second flow path 1104
Connecting tube 14.
When carrying out heat exchange, the inside of first flow path 1103 is entered by the fresh air that fixing pipe introduces, passes through room
The indoor wind of interior wind intake stack 9 enters the inside of the second runner pipe 1104, and the wind of two pipelines is in heat conduction baffle 1102
Effect issues heat exchange, and then the wind of first flow path 1103 is drained into interior, second flow path by spiral case cyclone 10
1104 wind is discharged by air draft connecting tube 14.
Example IV:
As shown in Figs. 1-2, the energy-efficient air exchange system of a kind of new indoor, including fresh air introduce part, heat exchange section,
Indoor wind discharge part and fresh air discharge part;It includes fresh air blast pipe 7 that fresh air, which introduces part, and the inside of fresh air blast pipe 7 is logical
It crosses air-duct clapboard 701 to separate, and the inside of air-duct clapboard 701 is connected to air inlet 702;The bottom of fresh air blast pipe 7, which is connected to, to be fixed
Pipe 12;Heat exchange section includes plate-fin heat exchanger 11, wind intake stack 9 in the side communication chamber of plate-fin heat exchanger 11, and
Plate-fin heat exchanger 11 is connected to fixing pipe 12;Indoor wind discharge part includes air draft connecting tube 14, and air draft connecting tube 14 passes through plate
Wind intake stack 9 in 11 communication chamber of fin heat exchanger, and air draft connecting tube 14 is connected to solar energy heat collecting pipeline 13;Solar energy collection
Heat pipeline 13 is connected to wind pipe 6, and wind pipe 6 is installed on fresh air blast pipe 7;The inner rotation connection of wind pipe 6 turns
Axis 5, and setting sealing partition 16 between shaft 5 and wind pipe 6;The top of shaft 5 is installed by fan blade 4;Fresh air discharge unit
Subpackage cyclone containing spiral case 10, spiral case cyclone 10 are connected to fixing pipe 12 by plate-fin heat exchanger 11;Solar energy heat collecting pipeline
13 section uses trapezium structure, and solar energy heat collecting pipeline 13 includes glass top plate 1301;The bottom of glass top plate 1301 is solid
Determine tube wall 1302, and the inside of tube wall 1302 is coated with black nickel heat absorbing coating 1303;The fixed heat insulation coating in the outside of tube wall 1302
1304。
Sunlight is radiated in heat collecting pipeline solar energy heat collecting pipeline 13 through 1301 wall of glass top plate when in use, black nickel
Heat absorbing coating 1303 absorbs solar radiant heat and heat is passed in the form of heat convection the air in pipeline, in pipeline
The cold air of air heats expansion and outside forms biggish density contrast, and under the action of this density contrast, hot-air is along pipeline
It rises, discharge is outdoor, to accelerate the discharge of room air, plays the role of auxiliary exhaust.
The wherein model WS-C4830 of the charging-discharging controller 1;The heat insulation coating 1304 is using by high-quality natural
Minerals add chemical addition agent and high temperature stick, by slurrying, enter the manufacture of the techniques such as mould, sizing, drying, finished product, packaging and
At;The air-valve 18 is solenoid valve, the model CKDVNA of use.
In the present invention unless specifically defined or limited otherwise, fisrt feature the "upper" of second feature or it
"lower" may include that the first and second features directly contact, and also may include that the first and second features are not direct contacts but lead to
Cross the other characterisation contact between them.Moreover, fisrt feature includes above the second feature " above ", " above " and " above "
One feature is right above second feature and oblique upper, or is merely representative of first feature horizontal height higher than second feature.First is special
Sign is directly below and diagonally below the second feature including fisrt feature under the second feature " below ", " below " and " below ", or only
Indicate that first feature horizontal height is less than second feature.
Basic principles, main features, and advantages of the present invention has been shown and described above.Current row
The technical staff of industry is described in above embodiments and description it should be appreciated that the present utility model is not limited to the above embodiments
Be only the utility model preference, be not intended to limit the utility model, do not departing from the spirit and scope of the utility model
Under the premise of, the utility model also has various changes and improvements, these changes and improvements both fall within claimed it is practical
In novel range.The protection scope of the present invention is defined by the appended claims and their equivalents.
Claims (8)
1. a kind of energy-efficient air exchange system of new indoor, including fresh air introduce part, heat exchange section, indoor wind discharge part
With fresh air discharge part;It is characterized by:
It includes fresh air blast pipe (7) that the fresh air, which introduces part, and the inside of the fresh air blast pipe (7) passes through air-duct clapboard
(701) it separates, and the inside of the air-duct clapboard (701) is connected to air inlet (702);The bottom of the fresh air blast pipe (7) connects
Logical fixing pipe (12);
The heat exchange section includes plate-fin heat exchanger (11), in the side communication chamber of the plate-fin heat exchanger (11) wind into
Air piping (9), and the plate-fin heat exchanger (11) is connected to the fixing pipe (12);
The interior wind discharge part includes air draft connecting tube (14), and the air draft connecting tube (14) passes through plate-fin heat exchanger
(11) the indoor wind intake stack (9), and the air draft connecting tube (14) connection solar energy heat collecting pipeline (13) are connected to;It is described
Solar energy heat collecting pipeline (13) is connected to wind pipe (6), and the wind pipe (6) is installed on the fresh air blast pipe (7)
Top;The inner rotation of the wind pipe (6) connects shaft (5), and between the shaft (5) and the wind pipe (6)
Setting sealing partition (16);The top of the shaft (5) is installed by fan blade (4);
The fresh air discharge part includes spiral case cyclone (10), and the spiral case cyclone (10) passes through the plate-fin heat exchanger
(11) it is connected to the fixing pipe (12).
2. the energy-efficient air exchange system of a kind of new indoor according to claim 1, it is characterised in that: the fixing pipe
(12) side connection is without fan-leaf fan (8), and the no fan-leaf fan (8) is electrically connected battery (3);The battery
(3) charging-discharging controller (1) and solar panel (2) are electrically connected.
3. the energy-efficient air exchange system of a kind of new indoor according to claim 1, it is characterised in that: the fixing pipe
(12) air inducing flabellum (17) are installed on the outside of the internal shaft (5), and air-valve (18) are arranged in the inside of the fixing pipe (12).
4. the energy-efficient air exchange system of a kind of new indoor according to claim 1, it is characterised in that: the shaft (5)
Outside install air draft flabellum (15), and the solar energy heat collecting pipeline (13) away from the air draft connecting tube (14) one end connect
It passes between the air draft flabellum (15) and the sealing partition (16).
5. the energy-efficient air exchange system of a kind of new indoor according to claim 1, it is characterised in that: the plate-fin changes
Hot device (11) includes shell (1101), and first flow path (1103) and second flow path is arranged in the inside of the shell (1101)
(1104);It is separated between the first flow path (1103) and the second flow path (1104) by heat conduction baffle (1102).
6. the energy-efficient air exchange system of a kind of new indoor according to claim 5, it is characterised in that: first circulation
Road (1103) and the section of the second flow path (1104) are all made of triangular structure, and the first flow path (1103) and
It is mutually perpendicular to be distributed between the second flow path (1104);The two sides of the first flow path (1103) are respectively communicated with the snail
Shell cyclone (10), the fixing pipe (12);The two sides of the second flow path (1104) are respectively communicated with the indoor wind air inlet
Pipeline (9), the air draft connecting tube (14).
7. the energy-efficient air exchange system of a kind of new indoor according to claim 1, it is characterised in that: the solar energy collection
The section of heat pipeline (13) uses trapezium structure, and the solar energy heat collecting pipeline (13) includes glass top plate (1301);It is described
The bottom of glass top plate (1301) is fixed tube wall (1302), and black nickel heat absorbing coating is coated on the inside of the tube wall (1302)
(1303);The outside of the tube wall (1302) is fixed heat insulation coating (1304).
8. the energy-efficient air exchange system of a kind of new indoor according to claim 1, it is characterised in that: the fresh air air inlet
Pipe (7) uses side for the disc-shaped structure of opening, and the inside of the fresh air blast pipe (7) passes through six air-duct clapboards
(701) spaced at equal intervals.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821103105.XU CN208720441U (en) | 2018-07-12 | 2018-07-12 | A kind of energy-efficient air exchange system of new indoor |
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CN201821103105.XU CN208720441U (en) | 2018-07-12 | 2018-07-12 | A kind of energy-efficient air exchange system of new indoor |
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Publication Number | Publication Date |
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ID=65973285
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CN201821103105.XU Expired - Fee Related CN208720441U (en) | 2018-07-12 | 2018-07-12 | A kind of energy-efficient air exchange system of new indoor |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112483319A (en) * | 2020-12-14 | 2021-03-12 | 黑龙江建筑职业技术学院 | Wind power generation device for improving indoor temperature of building and utilization method thereof |
-
2018
- 2018-07-12 CN CN201821103105.XU patent/CN208720441U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112483319A (en) * | 2020-12-14 | 2021-03-12 | 黑龙江建筑职业技术学院 | Wind power generation device for improving indoor temperature of building and utilization method thereof |
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CF01 | Termination of patent right due to non-payment of annual fee | ||
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Granted publication date: 20190409 Termination date: 20200712 |