CN105484883A - Remote-control intelligent control generator set - Google Patents
Remote-control intelligent control generator set Download PDFInfo
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- CN105484883A CN105484883A CN201610026128.4A CN201610026128A CN105484883A CN 105484883 A CN105484883 A CN 105484883A CN 201610026128 A CN201610026128 A CN 201610026128A CN 105484883 A CN105484883 A CN 105484883A
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- remote
- controlled intelligent
- unit
- intelligent unit
- generator set
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02D—CONTROLLING COMBUSTION ENGINES
- F02D29/00—Controlling engines, such controlling being peculiar to the devices driven thereby, the devices being other than parts or accessories essential to engine operation, e.g. controlling of engines by signals external thereto
- F02D29/06—Controlling engines, such controlling being peculiar to the devices driven thereby, the devices being other than parts or accessories essential to engine operation, e.g. controlling of engines by signals external thereto peculiar to engines driving electric generators
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Control Of Eletrric Generators (AREA)
Abstract
The invention discloses a remote-control intelligent control generator set which comprises a generator, a remote control intelligent unit, a mutual inductor, a bridge rectifier unit, a voltage regulator (AVR), a temperature sensor, a ventilation door stepping motor, a starting and stopping button, an igniter, an oil control electromagnetic valve, a power switch, a one-way communicating device, an engine oil sensor, a diode, a relay, a motor, a storage battery, a charger, a charging coil and an internal combustion engine. The remote control manner of the remote-control intelligent control generator set is simple, control elements are few, and work is reliable.
Description
Technical field
The present invention relates to a kind of generator set, particularly a kind of remote-controlled intelligent controls generator set.
Background technique
Existing remote control generator set controls startup and the stopping of motor on control panel with startup lock, the wiring on the control panel of generator set of this remote control mode is more complicated, and on power, control air door with chock plate assembly during startup, cause difficulty in starting sometimes.
Meanwhile, after starter-generator group, generator set externally exports electric energy at once, easily causes when power rotating speed and generating voltage shakiness and externally exports electric energy, cause the damage to rear end consumer.Meanwhile, when overburdening start-up and operation, the damage to generator set is easily caused.
Summary of the invention
For above-mentioned the deficiencies in the prior art, technical problem to be solved by this invention is: provide a kind of remote-controlled intelligent and control generator set, comprise generator and mutual inductor, remote-controlled intelligent unit, mutual inductor, bridge rectifier unit, pressure governor, temperature transducer, air door stepper motor, start-stop button, oil control solenoid valve and igniter, engine oil sensor, one-way conduction device, relay, motor, storage battery, charger, charge coil, pressure governor, internal-combustion engine and generator, the first end of described main winding is connected with the first end of single-phase accessory power outlet, second end is connected with the first input end of pressure governor, the lead-in wire of described main winding is connected with the second input end of pressure governor, second end of described main winding is also directly connected with the second end of single-phase accessory power outlet through mutual inductor, 3rd end of described mutual inductor is connected with the first end of remote-controlled intelligent unit, 3rd end ground connection of described single-phase accessory power outlet, the first end of described oil control winding is connected with the first end of bridge rectifier unit, the described oil control lead-in wire of winding is connected with the second end of bridge rectifier unit, the first end that 3rd end and first oil of described bridge rectifier unit control solenoid valve is connected, 4th end of described bridge rectifier unit is connected with the second end of remote-controlled intelligent unit, described oil control the second end of solenoid valve is connected with the 3rd end of remote-controlled intelligent unit, one end of described secondary winding is connected with the 3rd input end of pressure governor, the other end of described secondary winding is connected with the four-input terminal of pressure governor, one end of described rotor windings is connected with the 5th input end of pressure governor, the other end of described rotor windings is connected with the 6th input end of pressure governor, first output terminal of described pressure governor is connected with the 4th end of remote-controlled intelligent unit, second output terminal of described pressure governor is connected with the five terminal of remote-controlled intelligent unit, the minus earth of described charger, positive input terminal is connected with the 6th end of remote-controlled intelligent unit by power switch, node between the positive pole of described charger and the 6th end of remote-controlled intelligent unit is connected with storage battery, + 12V the power supply that described storage battery exports is for powering for whole remote-controlled intelligent unit, the input end of described charger is by charge coil ground connection, 7th end of described remote-controlled intelligent unit is connected with one end of the coil of relay, the other end ground connection of the coil of described relay, one end of the switch of described relay is connected with the positive pole of storage battery, the other end of the switch of described relay is connected with one end of motor, the other end ground connection of described motor, 8th end of described remote-controlled intelligent unit is connected with one end of start-stop button, the other end ground connection of described start-stop button, 9th end of described remote-controlled intelligent unit is connected with air door stepper motor, tenth end of described remote-controlled intelligent unit is connected with the first end of spark coil, second end of described spark coil is connected with the anode of spark plug, the minus earth of described spark plug, 3rd end of described igniter is connected with the first end of one-way conduction device, second end of described one-way conduction device is connected with one end of engine oil sensor, the other end ground connection of described engine oil sensor, the tenth one end of described remote-controlled intelligent unit is connected with temperature transducer, 12 end of described remote-controlled intelligent unit is connected with singlechip controller, described temperature transducer is also connected with internal-combustion engine, for sensing the temperature of internal-combustion engine and being exported to remote-controlled intelligent unit, described internal-combustion engine is also direct to be connected with the tenth end of remote-controlled intelligent unit, first end and the internal-combustion engine of described single-phase accessory power outlet and remote-controlled intelligent unit are all connected, described internal-combustion engine also directly and air door stepper motor and motors.
Wherein, described remote-controlled intelligent unit comprises singlechip controller, switching circuit, load current sample circuit, rotating speed sample circuit, the first drive circuit, remote control reception module and the second drive circuit, the input end of described singlechip controller and switching circuit, the output terminal of load current sample circuit, the output terminal of temperature transducer, the output terminal of rotating speed sample circuit, the input end of drive circuit, the output terminal of remote control reception module is all connected, the input end of described load current sample circuit is connected with single-phase accessory power outlet as the first end of remote-controlled intelligent unit, the output terminal of described switching circuit is connected with oil control solenoid valve as the 3rd end of remote-controlled intelligent unit, the output terminal of described drive circuit is as the 7th end and motors of remote-controlled intelligent unit, the output terminal of described drive circuit is connected with air door stepper motor as the 9th end of remote-controlled intelligent unit, the input end of described rotating speed sample circuit is connected with internal-combustion engine as the tenth end of remote-controlled intelligent unit, one end that described singlechip controller is connected with temperature transducer is as the tenth one end of remote-controlled intelligent unit, one end that described singlechip controller is connected with pressure governor single-chip microcomputer is as the 12 end of remote-controlled intelligent unit.
Wherein, the described rotating shaft of air door stepper motor is connected with the air door of Carburetor, to drive the unlatching size of the air door of Carburetor.
Further, also voltmeter is connected with between the first end of described main winding and the second end.
Further, the node between the positive input terminal of described charger and the 6th end of remote-controlled intelligent unit is connected with storage battery by safety fuse cutout Fb.
Further, the first end of the nearly winding of described oil is connected with the first end of bridge rectifier unit by safety fuse cutout Fa.
Further, the second end of described oil control winding is connected with a terminal box.
Further, the second end of described main winding is connected with the first input end of pressure governor by a terminal box.
Further, the lead-in wire of described main winding is connected with the second input end of pressure governor by a terminal box.
Further, the lead-in wire of described oil control winding is connected with the second end of bridge rectifier unit by two terminal boxes successively.
Above-mentioned remote-controlled intelligent controls generator set and starts or stops signal by the start key on remote control panel and stop key to the remote control reception module output in remote-controlled intelligent unit, and then starts or stops whole generator set.Simultaneously, above-mentioned remote-controlled intelligent controls generator set and also starts or stops signal by controlling the start stop switch be arranged on the control panel of generator set to make remote control reception module to receive, and then the control that also can start or stop whole generator set.The remote control mode that above-mentioned remote-controlled intelligent controls generator set is simple, and control unit is few, reliable operation.
Accompanying drawing explanation
In order to be illustrated more clearly in the embodiment of the present invention or technological scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.
Fig. 1 is the circuit diagram that remote-controlled intelligent of the present invention controls the better embodiment of generator set.
Fig. 2 is the skeleton diagram of remote-controlled intelligent unit in Fig. 1.
Fig. 3 is the schematic diagram that in Fig. 1, air door stepper motor is connected with Carburetor.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technological scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.
Please refer to shown in Fig. 1, the better embodiment that remote-controlled intelligent of the present invention controls generator set comprises remote-controlled intelligent unit 1, generator, mutual inductor 2, bridge rectifier unit 3, pressure governor (AVR) 4, temperature transducer 5, air door stepper motor 6, start-stop button K1, igniter 7 and oil control solenoid valve 8, engine oil sensor 9, one-way conduction device 10, relay R L, motor M, storage battery B, charger 11, charge coil L1, pressure governor (AVR) single-chip microcomputer, internal-combustion engine and generator, wherein said generator comprises main winding L2, oil control winding L 3, secondary winding L4 and rotor windings L5.
The first end of the main winding L2 of described generator is connected with the first end of single-phase accessory power outlet 12, second end is connected by the first input end of a terminal box 13 with pressure governor (AVR) 4, and the lead-in wire of the main winding L2 of described generator is connected by second input end of a terminal box with pressure governor (AVR) 4.Second end of the main winding L2 of described generator is also connected with the second end of single-phase accessory power outlet 12 through mutual inductor 2, and the 3rd end of described mutual inductor 2 is connected with the first end of remote-controlled intelligent unit 1.3rd end ground connection of described single-phase accessory power outlet 12.Voltmeter V is also connected with between the first end of the main winding L2 of described generator and the second end.
The first end of the oil control winding L 3 of described generator is connected with the first end of bridge rectifier unit 3 by a terminal box, safety fuse cutout Fa, a terminal box successively, second end of the oil control winding L 3 of described generator is connected with a terminal box, and the lead-in wire of the oil control winding L 3 of described generator is connected with the second end of bridge rectifier unit 3 by two terminal boxes successively.3rd end of described bridge rectifier unit 3 is connected by the first end of two terminal boxes with oil control solenoid valve 8 successively, and the 4th end of described bridge rectifier unit 3 is connected with the second end of remote-controlled intelligent unit 1.Second end of described oil control solenoid valve 8 is connected with the 3rd end of remote-controlled intelligent unit 1 by a terminal box.
One end of the secondary winding L4 of described generator is connected with the 3rd input end of pressure governor (AVR) 4 by a terminal box, and the other end of described secondary winding L4 is connected with the four-input terminal of pressure governor (AVR) 4 by a terminal box.
One end of the rotor windings L5 of described generator is connected with the 5th input end of pressure governor (AVR) 4 by two terminal boxes successively, and the other end of described rotor windings L5 is connected with the 6th input end of pressure governor (AVR) 4 by two terminal boxes successively.
First output terminal of described pressure governor (AVR) 4 is connected with the 4th end of remote-controlled intelligent unit 1 by a terminal box, and the second output terminal of described pressure governor (AVR) 4 is connected with the five terminal of remote-controlled intelligent unit 1 by a terminal box.
The minus earth of described charger 11, positive pole is connected with the 6th end of remote-controlled intelligent unit 1 by power switch K2.Node between the positive pole of described charger 11 and the 6th end of remote-controlled intelligent unit 1 is connected with storage battery B by safety fuse cutout Fb.+ 12V the power supply that described storage battery B exports is for powering for whole remote-controlled intelligent unit 1.The input end of described charger 11 is successively by a terminal box and charge coil L1 ground connection.
7th end of described remote-controlled intelligent unit 1 is connected by terminal box one end with the coil of relay R L, the other end ground connection of the coil of described relay R L.One end of the switch of described relay R L is connected with the positive pole of storage battery B, and the other end of the switch of described relay R L is connected with one end of motor M, the other end ground connection of described motor M.
8th end of described remote-controlled intelligent unit 1 is connected with one end of start-stop button K1, the other end ground connection of described start-stop button K1.9th end of described remote-controlled intelligent unit 1 is connected with air door stepper motor 6, tenth end of described remote-controlled intelligent unit 1 is connected with the first end of the spark coil of igniter 7 by two terminal boxes successively, second end of described spark coil is connected with the anode of the spark plug of igniter 7, the minus earth of described spark plug.3rd end of described spark coil is connected with the first end of one-way conduction device 10, and the second end of described one-way conduction device 10 is connected by terminal box one end with engine oil sensor 9, the other end ground connection of described engine oil sensor 9.The tenth one end of described remote-controlled intelligent unit 1 is connected with temperature transducer 5.12 end of described remote-controlled intelligent unit 1 is connected with pressure governor (AVR) single-chip microcomputer.
Described temperature transducer 5 is also connected with internal-combustion engine, for sensing the temperature of internal-combustion engine and being exported to remote-controlled intelligent unit 1.Described internal-combustion engine is also direct to be connected with the tenth end of remote-controlled intelligent unit 1.First end and the internal-combustion engine of described single-phase accessory power outlet 12 and remote-controlled intelligent unit 1 are all connected.Described internal-combustion engine is also direct to be connected with air door stepper motor 6 and motor M.
Shown in Fig. 2, described remote-controlled intelligent unit 1 comprises singlechip controller 100, switching circuit 102, load current sample circuit 105, rotating speed sample circuit 106, first drive circuit 107, remote control reception module 108 and the second drive circuit 109.
Concrete, the input end of described singlechip controller 100 and switching circuit 102, the output terminal of load current sample circuit 105, the output terminal of temperature transducer 5, the output terminal of rotating speed sample circuit 106, the input end of first and second drive circuit, the output terminal of remote control reception module 108 are all connected.The input end of described load current sample circuit 105 is connected with single-phase accessory power outlet 12 as the first end of remote-controlled intelligent unit 1.The output terminal of described switching circuit 102 is connected with oil control solenoid valve 8 as the 3rd end of remote-controlled intelligent unit 1.The output terminal of described first drive circuit 107 is connected with motor M as the 7th end of remote-controlled intelligent unit 1.The output terminal of described second drive circuit 109 is connected with air door stepper motor 6 as the 9th end of remote-controlled intelligent unit 1.The input end of described rotating speed sample circuit 106 is connected with internal-combustion engine as the tenth end of remote-controlled intelligent unit 1.One end that described singlechip controller 100 is connected with temperature transducer 5 is as the tenth one end of remote-controlled intelligent unit 1.One end that described singlechip controller 100 is connected with pressure governor (AVR) single-chip microcomputer is as the 12 end of remote-controlled intelligent unit 1.
Shown in Fig. 3, it is air door stepper motor 6 and Carburetor 16 schematic diagram connected mutually.The rotating shaft of described air door stepper motor 6 is connected with the air door of Carburetor 16, and then can drive the unlatching size of air door of Carburetor 16.
Below the simple working principle to above-mentioned remote-controlled intelligent control generator set is briefly described:
Above-mentioned remote-controlled intelligent controls generator set and starts or stops signal by the start key on remote control panel and stop key to remote control reception module 108 output in remote-controlled intelligent unit 1, and then starts or stops whole generator set.Simultaneously, above-mentioned remote-controlled intelligent controls generator set and also starts or stops signal by controlling the start stop switch be arranged on the control panel of generator set to make remote control reception module 108 to receive, and then the control that also can start or stop whole generator set.The remote control mode that above-mentioned remote-controlled intelligent controls generator set is simple, and control unit is few, reliable operation.
Described remote-controlled intelligent unit adopts singlechip controller, its working principle is: when remote control reception touch block receive remote control panel or be arranged at actuating signal that the start stop switch on control panel exports time, whole remote-controlled intelligent module is by simultaneously according to the temperature sensed by temperature transducer, by the aperture of the air door of air door step motor control Carburetor, in order to the startup of generator.When after dynamic start, singlechip controller will judge whether the rotating speed of generator reaches 3000 turns or 3600 turns further, after reaching, to pressure governor (AVR) control signal (time can set), exports electric energy to control whole generator set.When backend load exceedes the setting power of whole generator set; the current signal that described mutual inductor is responded to will be transferred to singlechip controller by load current sample circuit; to pressure governor (AVR) control signal; stop making whole generator set exporting electric energy, and then the effect of protection generator set can be played.Meanwhile, remote-controlled intelligent of the present invention controls generator set stepper motor and instead of chock plate assembly.Decrease cost.
These are only embodiments of the present invention; not thereby the scope of the claims of the present invention is limited; every utilize specification of the present invention and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.
Claims (10)
1. a remote-controlled intelligent controls generator set, comprise generator and mutual inductor, it is characterized in that: described remote-controlled intelligent controls generator set and also comprises remote-controlled intelligent unit, mutual inductor, bridge rectifier unit, pressure governor, temperature transducer, air door stepper motor, start-stop button, igniter and oil control solenoid valve, engine oil sensor, one-way conduction device, relay, motor, storage battery, charger, charge coil, internal-combustion engine, the first end of the main winding of described generator is connected with the first end of single-phase accessory power outlet, second end is connected with the first input end of pressure governor, the lead-in wire of described main winding is connected with the second input end of pressure governor, second end of described main winding is also connected with the second end of single-phase accessory power outlet by mutual inductor, described mutual inductor is also connected with the first end of remote-controlled intelligent unit, 3rd end ground connection of described single-phase accessory power outlet, the first end of the oil control winding of described generator is connected with the first end of bridge rectifier unit, the described oil control lead-in wire of winding is connected with the second end of bridge rectifier unit, the first end that 3rd end and first oil of described bridge rectifier unit control solenoid valve is connected, 4th end of described bridge rectifier unit is connected with the second end of remote-controlled intelligent unit, second end of described oil control solenoid valve is connected with remote-controlled intelligent unit, one end of the secondary winding of described generator is connected with the 3rd input end of pressure governor, the other end of described secondary winding is connected with the four-input terminal of pressure governor, one end of the rotor windings of described generator is connected with the 5th input end of pressure governor, the other end of described rotor windings is connected with the 6th input end of pressure governor, first output terminal of described pressure governor is connected with the 4th end of remote-controlled intelligent unit, second output terminal of described pressure governor is connected with the five terminal of remote-controlled intelligent unit, the minus earth of described charger, positive pole is connected with the 6th end of remote-controlled intelligent unit by power switch, node between the positive pole of described charger and the 6th end of remote-controlled intelligent unit is connected with storage battery, + 12V the power supply that described storage battery exports is for powering for whole remote-controlled intelligent unit, the input end of described charger is by charge coil ground connection, 7th end of described remote-controlled intelligent unit is connected with one end of the coil of relay, the other end ground connection of the coil of described relay, one end of the switch of described relay is connected with the positive pole of storage battery, the other end of the switch of described relay is connected with one end of motor, the other end ground connection of described motor, 8th end of described remote-controlled intelligent unit is connected with one end of start-stop button, the other end ground connection of described start-stop button, 9th end of described remote-controlled intelligent unit is connected with air door stepper motor, tenth end of described remote-controlled intelligent unit is connected with the first end of the spark coil of igniter, second end of described spark coil is connected with the spark plug of igniter, the minus earth of described spark plug, 3rd end of described spark coil is connected with the first end of one-way conduction device, second end of described one-way conduction device is connected with one end of engine oil sensor, the other end ground connection of described engine oil sensor, the tenth one end of described remote-controlled intelligent unit is connected with temperature transducer, 12 end of described remote-controlled intelligent unit is connected with singlechip controller, described temperature transducer is also connected with internal-combustion engine, for sensing the temperature of internal-combustion engine and being exported to remote-controlled intelligent unit, described internal-combustion engine is also direct to be connected with the tenth end of remote-controlled intelligent unit, first end and the internal-combustion engine of described single-phase accessory power outlet and remote-controlled intelligent unit are all connected, described internal-combustion engine also directly and air door stepper motor and motors.
2. remote-controlled intelligent as claimed in claim 1 controls generator set, it is characterized in that: described remote-controlled intelligent unit comprises singlechip controller, switching circuit, load current sample circuit, rotating speed sample circuit, the first drive circuit, remote control reception module and the second drive circuit, the input end of described singlechip controller and switching circuit, the output terminal of load current sample circuit, the output terminal of temperature transducer, the output terminal of rotating speed sample circuit, the input end of drive circuit, the output terminal of remote control reception module is all connected, the input end of described load current sample circuit is connected with single-phase accessory power outlet as the first end of remote-controlled intelligent unit, the output terminal of described switching circuit is connected with oil control solenoid valve as the 3rd end of remote-controlled intelligent unit, the output terminal of described drive circuit is as the 7th end and motors of remote-controlled intelligent unit, the output terminal of described drive circuit is connected with air door stepper motor as the 9th end of remote-controlled intelligent unit, the input end of described rotating speed sample circuit is connected with internal-combustion engine as the tenth end of remote-controlled intelligent unit, one end that described singlechip controller is connected with temperature transducer is as the tenth one end of remote-controlled intelligent unit, one end that described singlechip controller is connected with pressure governor is as the 12 end of remote-controlled intelligent unit.
3. remote-controlled intelligent as claimed in claim 2 controls generator set, it is characterized in that: the described rotating shaft of air door stepper motor is connected with the air door of Carburetor, to drive the unlatching size of the air door of Carburetor.
4. remote-controlled intelligent as claimed in claim 1 controls generator set, it is characterized in that: be also connected with voltmeter between the first end of the main winding of described generator and the second end.
5. remote-controlled intelligent as claimed in claim 1 controls generator set, it is characterized in that: the node between the positive pole of described charger and the 6th end of remote-controlled intelligent unit is connected with storage battery by safety fuse cutout Fb.
6. remote-controlled intelligent as claimed in claim 1 controls generator set, it is characterized in that: the first end of the oil control winding of described generator is connected with the first end of bridge rectifier unit by safety fuse cutout Fa.
7. remote-controlled intelligent as claimed in claim 1 controls generator set, it is characterized in that: the second end of the oil control winding of described generator is connected with a terminal box.
8. remote-controlled intelligent as claimed in claim 1 controls generator set, it is characterized in that: the second end of the main winding of described generator is connected with the first input end of pressure governor by a terminal box.
9. remote-controlled intelligent as claimed in claim 1 controls generator set, it is characterized in that: the lead-in wire of the main winding of described generator is connected with the second input end of pressure governor by a terminal box.
10. remote-controlled intelligent as claimed in claim 1 controls generator set, it is characterized in that: the lead-in wire of the oil control winding of described generator is connected with the second end of bridge rectifier unit by two terminal boxes successively.
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Cited By (1)
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CN114234230A (en) * | 2021-12-08 | 2022-03-25 | 华帝股份有限公司 | Ignition circuit with temperature compensation and control method |
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CN114234230A (en) * | 2021-12-08 | 2022-03-25 | 华帝股份有限公司 | Ignition circuit with temperature compensation and control method |
CN114234230B (en) * | 2021-12-08 | 2024-03-01 | 华帝股份有限公司 | Ignition circuit with temperature compensation and control method |
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