CN107024942A - A kind of efficient intelligent photovoltaic generating equipment - Google Patents
A kind of efficient intelligent photovoltaic generating equipment Download PDFInfo
- Publication number
- CN107024942A CN107024942A CN201710476556.1A CN201710476556A CN107024942A CN 107024942 A CN107024942 A CN 107024942A CN 201710476556 A CN201710476556 A CN 201710476556A CN 107024942 A CN107024942 A CN 107024942A
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- gear
- knucle
- motor
- rotating shaft
- pole
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05D—SYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES
- G05D3/00—Control of position or direction
- G05D3/12—Control of position or direction using feedback
Abstract
The present invention relates to a kind of efficient intelligent photovoltaic generating equipment, including generating mechanism, runner assembly, detection components, lifting assembly and PLC, generating mechanism includes solar panels, first pole, second pole, bottom plate, controller and inverter, runner assembly includes base, first rotating shaft, first Knucle-gear, second Knucle-gear and the first motor, detection components include the second motor, 3rd Knucle-gear, 4th Knucle-gear, 5th Knucle-gear, second rotating shaft, detection cover, light sensor, first encoder, second encoder, 3rd motor, bar gear and detector bar, the efficient intelligent photovoltaic generating equipment, in fair weather, by rotating detection cover, the light sensor for making solar irradiation be mapped in detection cover, the direction of the sun is determined by encoder, pass through the slip of the light-transmitting opening on detector bar again, sunshine is set to irradiate light sensor through light-transmitting opening, so that it is determined that the angle between the sun and ground, make solar panels vertical with sunshine.
Description
Technical field
The present invention relates to field of photovoltaic power generation, more particularly to a kind of efficient intelligent photovoltaic generating equipment.
Background technology
Photovoltaic generation is a kind of skill that luminous energy is directly translated into electric energy using the photovoltaic effect of interface
Art.Mainly it is made up of solar panel, controller and inverter three parts, critical piece is made up of electronic component.The sun
Can battery packaging protection is carried out after series connection can form the solar module of large area, then with closing the portions such as power controller
Part is formed photovoltaic power generation apparatus.
Existing low profile photovoltaic TRT is typically arranged on solar panels the position for being easiest to be shined upon, it is impossible to
The adjustment position according to the rotation of the sun, some photovoltaic power generation apparatus are provided with sun tracking system, but can only be that solar panel is diverted to
Solar direction, it is impossible to continue to adjust the angle of solar panel, make sunshine vertical with solar panels, generating efficiency is not high.
The content of the invention
The technical problem to be solved in the present invention is:In order to overcome the deficiencies in the prior art, there is provided a kind of efficient intelligence
Photovoltaic power generation equipment.
The technical solution adopted for the present invention to solve the technical problems is:A kind of efficient intelligent photovoltaic generating equipment,
Including generating mechanism, runner assembly, detection components, lifting assembly and PLC;
The generating mechanism includes solar panels, the first pole, the second pole, bottom plate, controller and inverter, described the
One pole is vertically arranged, and one end and the upper end of the first pole of second pole are hinged, the other end position of second pole
In on bottom plate, the solar panels are uniformly laid on the second pole, and the solar panels are angularly disposed, the solar panels point
Do not connected with inverter and controller;
The runner assembly includes base, first rotating shaft, the first Knucle-gear, the second Knucle-gear and the first motor, described the
One end of one rotating shaft is fixedly connected on the lower section of bottom plate, and the other end of the first rotating shaft is penetrated in base, first motor
The first Knucle-gear is driven to rotate, the first Knucle-gear and the second Knucle-gear engagement, second Knucle-gear is set in first turn
On axle;
The detection components include the second motor, the 3rd Knucle-gear, the 4th Knucle-gear, the 5th Knucle-gear, the second rotating shaft, inspection
Cover, light sensor, the first encoder, second encoder, the 3rd motor, bar gear and detector bar are surveyed, second motor is set
Put on base, second motor drives the rotation of the 3rd Knucle-gear, the 3rd Knucle-gear and the 4th the Knucle-gear engagement is described
First encoder and the 4th Knucle-gear are coaxially disposed, and first encoder and the 4th Knucle-gear are set in the second rotating shaft,
Second rotating shaft is vertically arranged, and one end of second rotating shaft is penetrated in base, the other end of second rotating shaft and detection
Cover is fixedly connected, and the detection cover is fan-shaped for right angle, and the light sensor is located in detection cover, and the light sensor is located at
The circle centre position of cover is detected, the detector bar is annular, and the bar gear is annular, and the bar gear is located at the side of detector bar,
The detector bar is slidably connected on the circle centre position of detection cover with detection cover, and the 3rd motor drives the rotation of the 5th Knucle-gear,
The second encoder is coaxially disposed with the 5th Knucle-gear, the 5th Knucle-gear and article gear engagement, is set on the detector bar
There is light-transmitting opening;
The lifting assembly includes cylinder and drive block, and the cylinder promotes drive block to move up and down, the drive block with
Second pole is hinged, and the cylinder is fixedly installed on bottom plate;
First motor, the second motor, the 3rd motor, the first encoder, second encoder and light sensor with
PLC is electrically connected.
Preferably, for stationary power generation mechanism, generating mechanism is not produced when need not rotate and rock, it is described
Fixation kit is additionally provided with base, the 4th motor, screw mandrel that the fixation kit includes, walk block and brake pad, the described 4th
Motor is fixedly installed on base, and the 4th motor drive screw rotation, the block that walks is described to walk provided with the hole that walks
Block is provided with internal thread, and the internal thread walked on block is matched with the external screw thread of screw mandrel, and one end of the screw mandrel, which is penetrated, to walk
Block, the brake pad, which is arranged on, to be walked on side of the block away from screw mandrel, and the 4th motor is electrically connected with PLC.
When not needing adjustment angle, PLC controls the rotation of the 4th motor drive screw, and because walking, block is provided with and screw mandrel
The internal thread matched somebody with somebody, make to walk block and brake pad are with bottom plate against so as to prevent bottom plate from rotating.
Preferably, in order to which the block that walks walks more steadily, gag lever post, the one of the gag lever post are additionally provided with the base
End is located in base, and the other end of the gag lever post penetrates the block that walks, and the gag lever post is parallel with screw mandrel.
Preferably, in order to prevent from detecting cover printing opacity, so that the accuracy of light sensor is improved, the system of the detection cover
Make material for crystalline material.
Preferably, the firmness in order to increase the first pole and the second pole, first pole and the second pole
Making material is steel.
Preferably, controlling for convenience, first motor, the second motor, the 3rd motor, the 4th motor are servo
Motor.
Preferably, in order to preferably drive the second Knucle-gear, the diameter of first Knucle-gear is less than the second knuckle-tooth
Diameter.
Preferably, in order to spacing, preventing first rotating shaft and the second rotating shaft from skidding off, under the first rotating shaft and the second rotating shaft
Side is equipped with limited block.
Preferably, in order to protect the first Knucle-gear and the second Knucle-gear, first Knucle-gear and the second Knucle-gear it
Between apply organic oil.
Preferably, in order to improve photoelectric conversion rate, the solar panels are monocrystalline solar panels.
The beneficial effects of the invention are as follows, the efficient intelligent photovoltaic generating equipment design structure is ingenious, and practicality is high,
Fair weather, by rotating detection cover, the light sensor for making solar irradiation be mapped in detection cover determines the sun by encoder
Direction, then by the slip of the light-transmitting opening on detector bar, sunshine is irradiated light sensor through light-transmitting opening, so that it is determined that
Angle between the sun and ground, so as to adjust solar panels, makes solar panels vertical with sunshine, has ensured that this is efficient
The efficiency power generation of intelligent photovoltaic generating equipment.
Brief description of the drawings
The present invention is further described with reference to the accompanying drawings and examples.
Fig. 1 is the structural representation of the efficient intelligent photovoltaic generating equipment of the present invention;
Fig. 2 is Fig. 1 A portions enlarged drawing;
Fig. 3 is Fig. 1 B portions enlarged drawing;
Fig. 4 is the front view of the detection cover of the efficient intelligent photovoltaic generating equipment of the present invention.
In figure:1. the first pole, 2. inverters, 3. bottom plates, 4. solar panels, 5. second poles, 6. controllers, 7. first
Rotating shaft, 8. second Knucle-gears, 9. first motors, 10. first Knucle-gears, 11. bases, 12. brake pads, 13. walk block, 14.
Bar, 15. gag lever posts, 16. the 4th motors, 17. drive blocks, 18. cylinders, 19. detector bars, 20. the 3rd motors, 21. gears,
22. the 5th Knucle-gear, 23. second encoders, 24. light-transmitting openings, 25. light sensors, 26. the 4th Knucle-gears, 27. first codings
Device, 28. second motors, 29. the 3rd Knucle-gears, 30. detection covers, 31. second rotating shafts.
Embodiment
In conjunction with the accompanying drawings, the present invention is further explained in detail.These accompanying drawings are simplified schematic diagram, only with
Illustration illustrates the basic structure of the present invention, therefore it only shows the composition relevant with the present invention.
As Figure 1-4, a kind of efficient intelligent photovoltaic generating equipment, including generating mechanism, runner assembly, detection group
Part, lifting assembly and PLC;
The generating mechanism includes solar panels 4, the first pole 1, the second pole 5, bottom plate 3, controller 6 and inverter 2,
First pole 1 is vertically arranged, and one end of second pole 5 and the upper end of the first pole 1 are hinged, second pole 5
The other end be located at bottom plate 3 on, the solar panels 4 are uniformly laid on the second pole 5, and the solar panels 4 are angularly disposed,
The solar panels 4 are connected with inverter 2 and controller 6 respectively;
The runner assembly includes base 11, first rotating shaft 7, the first Knucle-gear 10, the second Knucle-gear 8 and the first motor 9,
One end of the first rotating shaft 7 is fixedly connected on the lower section of bottom plate 3, and the other end of the first rotating shaft 7 is penetrated in base 11, institute
Stating the first motor 9 drives the first Knucle-gear 10 to rotate, and the Knucle-gear 8 of the first Knucle-gear 10 and second is engaged, second circle
Gear 8 is set in first rotating shaft 7;
When needing adjustment solar panel direction, PLC controls the first motor 9 to drive the first Knucle-gear 10 to rotate, because of the first circle
The Knucle-gear 8 of gear 10 and second is engaged, and rotates the second Knucle-gear 8 and first rotating shaft 7, so as to adjust and first rotating shaft 7
It is fixedly installed on generating mechanism.
The detection components include the second motor 28, the 3rd Knucle-gear 29, the 4th Knucle-gear 26, the 5th Knucle-gear 22, the
Two rotating shafts 31, detection cover 30, light sensor 25, the first encoder 27, second encoder 23, the 3rd motor 20, bar gear 21
With detector bar 19, second motor 28 is set on the pedestal 11, and second motor 28 drives the 3rd Knucle-gear 29 to rotate, institute
State the 3rd Knucle-gear 29 and the 4th Knucle-gear 26 is engaged, the Knucle-gear 26 of the first encoder 27 and the 4th is coaxially disposed, described
First encoder 27 and the 4th Knucle-gear 26 are set in the second rotating shaft 31, and second rotating shaft 31 is vertically arranged, and described
One end of two rotating shafts 31 is penetrated in base 11, and the other end of second rotating shaft 31 is fixedly connected with detection cover 30, the detection
Cover 30 is that right angle is fan-shaped, and the light sensor 25 is located in detection cover 30, and the light sensor 25 is located at detection cover 30
Circle centre position, the detector bar 19 is annular, and the bar gear 21 is annular, and the bar gear 21 is located at the side of detector bar 19,
The detector bar 19 is slidably connected on the circle centre position of detection cover 30 with detection cover 30, and the 3rd motor 20 drives the 5th knuckle-tooth
Wheel 22 is rotated, and the second encoder 23 is coaxially disposed with the 5th Knucle-gear 22, and the 5th Knucle-gear 22 and bar gear 21 are nibbled
Close, the detector bar 19 is provided with light-transmitting opening 24;
When detecting solar azimuth, PLC first controls the second motor 28 to drive the 3rd Knucle-gear 29 to rotate, the 3rd Knucle-gear
29 and the 4th Knucle-gear 26 engage, rotate detection cover 30, now detect do not block light sensor 25 with detection
Between the opening of cover 30, when solar irradiation is mapped to light sensor 25, light sensor 25 sends a signal to PLC, coding
The revolution of rotation is sent to PLC by device simultaneously, and now detection cover 30 is just to the sun;
Secondly PLC controls the 3rd motor 20 to drive the 5th Knucle-gear 22 to rotate, because the 5th Knucle-gear 22 and bar gear 21 are nibbled
Close, bar gear 21 and detector bar 19 is rotated between light sensor 25 and the sun, when sunshine passes through on detector bar 19
When light-transmitting opening 24 is irradiated to light sensor 25, by the anglec of rotation of the gear of 23 detector bar of second encoder 19, signal is sent out
PLC is given, so as to calculate the sunny angle between ground.
The lifting assembly includes cylinder 18 and drive block 17, and the cylinder 18 promotes drive block 17 to move up and down, described
Drive block 17 is hinged with the second pole 5, and the cylinder 18 is fixedly installed on bottom plate 3;
PLC receives the anglec of rotation of second encoder 23, so as to speculate sunny between ground by plug-in
Angle, then by cylinder 18 adjust solar panels 4 angle, make solar panels 4 vertical with sunshine.
First motor 9, the second motor 28, the 3rd motor 20, the first encoder 27, second encoder 23 and photosensitive biography
Sensor 25 is electrically connected with PLC.
Preferably, for stationary power generation mechanism, generating mechanism is not produced when need not rotate and rock, it is described
Fixation kit is additionally provided with base 11, the 3rd motor 16 that the fixation kit includes, screw mandrel 14, walk block 13 and brake pad
12, the 3rd motor 16 is fixedly installed on the pedestal 11, and the drive screw 14 of the 3rd motor 16 rotates, the block 13 that walks
Provided with the hole that walks, the block 13 that walks is provided with internal thread, the external screw thread of the internal thread walked on block 13 and screw mandrel 14
Matching, one end of the screw mandrel 14 penetrates the block 13 that walks, and the brake pad 12 is arranged on side of the block 13 away from screw mandrel 14 that walk
On, the 3rd motor 16 is electrically connected with PLC.
Do not need adjustment angle when, PLC control the drive screw 14 of the 3rd motor 16 rotate, because walk block 13 provided with
The internal thread that screw mandrel 14 is matched, be walk block 13 and brake pad 12 with bottom plate 3 against so as to prevent bottom plate 3 from rotating.
Preferably, in order to which the block 13 that walks walks more steadily, gag lever post 15 is additionally provided with the base 11, it is described spacing
One end of bar 15 is located in base 11, and the other end of the gag lever post 15 penetrates the block 13 that walks, the gag lever post 15 and screw mandrel 14
It is parallel.
Preferably, in order to prevent detection 30 printing opacities of cover, so that the accuracy of light sensor 25 is improved, the detection cover
30 making material is crystalline material.
Preferably, the firmness in order to increase the first pole 1 and the second pole 5, the pole of the first pole 1 and second
5 making material is steel.
Preferably, controlling for convenience, first motor 9, the second motor 28, the 3rd motor 20, the 3rd motor 16
It is servomotor.
Preferably, in order to preferably drive the second Knucle-gear 8, the diameter of first Knucle-gear 10 is less than the second knuckle-tooth
Diameter.
Preferably, in order to spacing, prevent the rotating shaft 31 of first rotating shaft 7 and second from skidding off, the first rotating shaft 7 and second turn
The lower section of axle 31 is equipped with limited block.
Preferably, in order to protect the first Knucle-gear 10 and the second Knucle-gear 8, the knuckle-tooth of the first Knucle-gear 10 and second
Organic oil is applied between wheel 8.
Preferably, in order to improve photoelectric conversion rate, the solar panels 4 are monocrystalline solar panels.
Compared with prior art, the efficient intelligent photovoltaic generating equipment design structure is ingenious, and practicality is high, fine
Weather, by rotating detection cover 30, the light sensor 25 for making solar irradiation be mapped in detection cover 30 is determined too by encoder
The direction of sun, then by the slip of the light-transmitting opening 24 on detector bar 19, sunshine is irradiated light sensor through light-transmitting opening 24
25, so that it is determined that the angle between the sun and ground, so as to adjust solar panels 4, makes solar panels 4 vertical with sunshine, protect
The efficiency power generation of the efficient intelligent photovoltaic generating equipment is hindered.
Using the above-mentioned desirable embodiment according to the present invention as enlightenment, by above-mentioned description, relevant staff is complete
Various changes and amendments can be carried out without departing from the scope of the technological thought of the present invention' entirely.The technology of this invention
Property scope is not limited to the content on specification, it is necessary to its technical scope is determined according to right.
Claims (10)
1. a kind of efficient intelligent photovoltaic generating equipment, it is characterised in that including generating mechanism, runner assembly, detection components,
Lifting assembly and PLC;
The generating mechanism includes solar panels (4), the first pole (1), the second pole (5), bottom plate (3), controller (6) and inverse
Become device (2), first pole (1) is vertically arranged, and one end and the upper end of the first pole (1) of second pole (5) are hinged,
The other end of second pole (5) is located on bottom plate (3), and the solar panels (4) are uniformly laid on the second pole (5),
The solar panels (4) are angularly disposed, and the solar panels (4) connect with inverter (2) and controller (6) respectively;
The runner assembly includes base (11), first rotating shaft (7), the first Knucle-gear (10), the second Knucle-gear (8) and the first electricity
Machine (9), one end of the first rotating shaft (7) is fixedly connected on the lower section of bottom plate (3), and the other end of the first rotating shaft (7) is worn
Enter in base (11), first motor (9) drives the first Knucle-gear (10) rotation, first Knucle-gear (10) and the second circle
Gear (8) is engaged, and second Knucle-gear (8) is set in first rotating shaft (7);
The detection components include the second motor (28), the 3rd Knucle-gear (29), the 4th Knucle-gear (26), the 5th Knucle-gear
(22), the second rotating shaft (31), detection cover (30), light sensor (25), the first encoder (27), second encoder (23), the
Three motors (20), bar gear (21) and detector bar (19), second motor (28) are arranged on base (11), second electricity
Machine (28) drives the rotation of the 3rd Knucle-gear (29), the 3rd Knucle-gear (29) and the engagement of the 4th Knucle-gear (26), described first
Encoder (27) and the 4th Knucle-gear (26) are coaxially disposed, and first encoder (27) and the 4th Knucle-gear (26) are set in
In second rotating shaft (31), second rotating shaft (31) is vertically arranged, and one end of second rotating shaft (31) is penetrated in base (11),
The other end of second rotating shaft (31) is fixedly connected with detection cover (30), and the detection cover (30) is that right angle is fan-shaped, the light
Dependent sensor (25) is located in detection cover (30), and the light sensor (25) is located at the circle centre position of detection cover (30), the inspection
It is annular to survey bar (19), and the bar gear (21) is annular, and the bar gear (21) is located at the side of detector bar (19), the inspection
The circle centre position that bar (19) is surveyed on detection cover (30) is slidably connected with detection cover (30), and the 3rd motor (20) driving the 5th is justified
Gear (22) rotates, and the second encoder (23) is coaxially disposed with the 5th Knucle-gear (22), the 5th Knucle-gear (22) and
Bar gear (21) is engaged, and the detector bar (19) is provided with light-transmitting opening (24);
The lifting assembly includes cylinder (18) and drive block (17), and the cylinder (18) promotes drive block (17) to move up and down,
The drive block (17) is hinged with the second pole (5), and the cylinder (18) is fixedly installed on bottom plate (3);
First motor (9), the second motor (28), the 3rd motor (20), the first encoder (27), second encoder (23) and
Light sensor (25) is electrically connected with PLC.
2. efficient intelligent photovoltaic generating equipment as claimed in claim 1, it is characterised in that also set on the base (11)
There are fixation kit, the 4th motor (16), screw mandrel (14), the block that walks (13) and brake pad (12) that the fixation kit includes, institute
State the 4th motor (16) to be fixedly installed on base (11), the 4th motor (16) drive screw (14) rotation is described to walk
Block (13) is provided with internal thread and screw mandrel on internal thread, the block that walks (13) provided with the hole that walks, the block that walks (13)
(14) external screw thread matching, one end of the screw mandrel (14) penetrates the block that walks (13), and the brake pad (12) is arranged on the block that walks
(13) on the side away from screw mandrel (14), the 4th motor (16) electrically connects with PLC.
3. efficient intelligent photovoltaic generating equipment as claimed in claim 2, it is characterised in that also set on the base (11)
Limited location bar (15), one end of the gag lever post (15) is located in base (11), and the other end of the gag lever post (15) is penetrated away
Position block (13), the gag lever post (15) is parallel with screw mandrel (14).
4. efficient intelligent photovoltaic generating equipment as claimed in claim 1, it is characterised in that the system of the detection cover (30)
Make material for crystalline material.
5. efficient intelligent photovoltaic generating equipment as claimed in claim 1, it is characterised in that first pole (1) and
The making material of second pole (5) is steel.
6. efficient intelligent photovoltaic generating equipment as claimed in claim 2, it is characterised in that first motor (9), the
Two motors (28), the 3rd motor (20) and the 4th motor (16) are servomotor.
7. efficient intelligent photovoltaic generating equipment as claimed in claim 1, it is characterised in that first Knucle-gear (10)
Diameter be less than the second knuckle-tooth diameter.
8. efficient intelligent photovoltaic generating equipment as claimed in claim 1, it is characterised in that the first rotating shaft (7) and
Limited block is equipped with below second rotating shaft (31).
9. efficient intelligent photovoltaic generating equipment as claimed in claim 1, it is characterised in that first Knucle-gear (10)
And second apply organic oil between Knucle-gear (8).
10. efficient intelligent photovoltaic generating equipment as claimed in claim 1, it is characterised in that the solar panels (4) are
Monocrystalline solar panels.
Priority Applications (1)
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CN201710476556.1A CN107024942B (en) | 2017-06-21 | 2017-06-21 | Intelligent photovoltaic power generation equipment |
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CN201710476556.1A CN107024942B (en) | 2017-06-21 | 2017-06-21 | Intelligent photovoltaic power generation equipment |
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CN107024942A true CN107024942A (en) | 2017-08-08 |
CN107024942B CN107024942B (en) | 2019-12-06 |
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ID=59531633
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CN201710476556.1A Active CN107024942B (en) | 2017-06-21 | 2017-06-21 | Intelligent photovoltaic power generation equipment |
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Cited By (1)
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CN107394874A (en) * | 2017-08-22 | 2017-11-24 | 浙江工贸职业技术学院 | A kind of PV air-conditioner power supply circuit and PV air-conditioner |
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DE19536087A1 (en) * | 1995-07-26 | 1997-01-30 | Seifert Karl Heinz | Holder for solar cells - has controlling solar cells electrically connected to motor to position frame automatically to face sun |
CN201051725Y (en) * | 2007-07-01 | 2008-04-23 | 司永红 | Automatically tracking solar power generation device |
CN101662240A (en) * | 2009-05-27 | 2010-03-03 | 北京奥腾讯达科技有限公司 | Self-orienting solar power generation device |
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CN107394874A (en) * | 2017-08-22 | 2017-11-24 | 浙江工贸职业技术学院 | A kind of PV air-conditioner power supply circuit and PV air-conditioner |
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Publication number | Publication date |
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CN107024942B (en) | 2019-12-06 |
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