Physical method for maintaining freshness of vegetables and fruits via technology of optical signal and optical signal generator

What is claimed is: 1. An optical signal generator for maintaining freshness of vegetables or fruits and in the form of a cabinet structure, comprising: an enclosure ( 3 ); a main frame ( 2 ) disposed in the enclosure ( 3 ); a lighting plate structure ( 1 ) mounted inside the main frame ( 2 ) and the enclosure ( 3 ), a door ( 4 ) and a receiving device ( 6 ) for receiving vegetables or fruits to be placed within the enclosure ( 3 ), a transparent isolation fence or glass-plate ( 7 ) mounted on the surface of the lighting plate structure ( 1 ); a fan and an air duct ( 8 ) mounted inside the enclosure ( 3 ); a wind hole ( 9 ) disposed on a bottom side of the enclosure ( 3 ); and an automatic humidifying system ( 13 ) with a humidifying tube interface ( 14 ) mounted on a side of the enclosure ( 13 ), wherein the lighting plate structure ( 1 ) comprises: a computer programmable pulsed scanning signal generator ( 22 ), a red light source group ( 26 ), a green light source group ( 27 ), and a blue light source group ( 28 ), and a red light source TRIAC controller ( 23 ), a green light source TRIAC controller ( 24 ), and a blue light source TRIAC controller ( 25 ), each of which is connected to and is configured to receive a pulse from the computer programmable pulsed scanning signal generator ( 22 ) and thereby correspondingly controls the red light source group ( 26 ), the green light source group ( 27 ), and the blue light source group ( 28 ) to emit light signals, with a pulsed or pulsed periodical scanning combined spectrum, to the vegetables or fruits to maintain freshness of the vegetables or fruits. 2. The optional signal generator of claim 1 , wherein the emitted light signal has a luminance of 40-1000 Lux. 3. The optical signal generator of claim 1 , wherein the red light source group ( 26 ), the green light source group ( 27 ), and the blue light source group ( 28 ) each comprises single-linear or multi-linear lighting tubes, single-point or multi-point lighting lamps, or single-point or multi-point LED, or light emitter made of rare earth material with lower energy consumption. 4. The optical signal generator of claim 1 , wherein the red light source group ( 26 ), the green light source group ( 27 ), and the blue light source group ( 28 ) are arranged in parallel and apart from each other. 5. The optical signal generator of claim 1 , wherein the red light source group ( 26 ), the green light source group ( 27 ), and the blue light source group ( 28 ) are arranged on different concentric circles. 6. The optical signal generator of claim 1 , wherein the red light source group ( 26 ), the green light source group ( 27 ), and the blue light source group ( 28 ) are arranged radially. 7. An optical signal generator for maintaining freshness of vegetables or fruits and in the form of a cabinet structure having channels, comprising: an enclosure ( 3 ); a main frame ( 2 ) disposed in the enclosure ( 3 ); a lighting plate structure ( 1 ) mounted inside the main frame ( 2 ) and the enclosure ( 3 ), wherein the lighting plate structure is made in the form of an adjustable supporting rod in a vertical direction in the enclosure ( 3 ); a fan and an air duct ( 8 ) mounted inside the enclosure ( 3 ); and an automatic humidifying system ( 13 ) with a humidifying tube interface ( 14 ) mounted on a top side of the enclosure ( 13 ), the automatic humidifying system ( 13 ) being in communication with a water inlet tube ( 16 ), wherein the lighting plate structure ( 1 ) comprises: a computer programmable pulsed scanning signal generator ( 22 ), a red light source group ( 26 ), a green light source group ( 27 ), and a blue light source group ( 28 ), and a red light source TRIAC controller ( 23 ), a green light source TRIAC controller ( 24 ), and a blue light source TRIAC controller ( 25 ), each of which is connected to and is configured to receive a pulse from the computer programmable pulsed scanning signal generator ( 22 ) and thereby correspondingly controls the red light source group ( 26 ), the green light source group ( 27 ), and the blue light source group ( 28 ) to emit light signals, with a pulsed or pulsed periodical scanning combined spectrum, to the vegetables or fruits to maintain freshness of the vegetables or fruits.