Speech enhancing method, device for communication earphone and noise reducing communication earphone

What is claimed is: 1. A speech enhancing method for a communication earphone, said communication earphone comprising a sending end comprising at least two microphones; and a receiving end comprising at least one microphone and a speaker, wherein said speech enhancing method comprises: implementing noise reduction at both said sending end and said receiving end of said communication earphone respectively by multiplexing sound signals picked up by the microphones of the said sending end, wherein the noise reduction processing at said sending end comprises: determining a wearing condition of said communication earphone by determining an energy difference among the sound signals picked up by the at least two microphones of said sending end; if said energy difference is greater than a first preset threshold, determining that said communication earphone is normally worn, said sound signals being first processed by multi-microphone noise reduction processing and then processed by single channel noise reduction processing to further suppress residuary stationary noise; and if said energy difference is smaller than or equal to the first preset threshold, determining that said communication earphone is abnormally worn and suppressing stationary noise in said sound signals directly by the single channel noise reduction. 2. The speech enhancing method for the communication earphone according to claim 1 , wherein multi-microphone noise reduction processing comprises: distinguishing speech signal components and noise signal components in said sound signals by comparing the energy difference among frequency components in said sound signals; and subjecting said noise signal components to attenuation processing. 3. The speech enhancing method for the communication earphone according to claim 2 , wherein in the process of distinguishing the speech signal components and the noise signal components in said sound signals by comparing the energy difference among frequency components in said sound signals, if the energy difference of a certain frequency component in said sound signals is greater than a second preset threshold, the frequency component of which the energy difference is greater than said second preset threshold is determined as a speech signal component; and if the energy difference of a certain frequency component in said sound signals is less than or equal to said second preset threshold, the frequency component of which the energy difference is less than or equal to said second preset threshold is determined as a noise signal component. 4. The speech enhancing method for the communication earphone according to claim 1 , wherein the process of suppressing stationary noise by single channel noise reduction comprises: calculating energies of noises of various frequencies in said sound signals by a smooth-average method; and removing the energies of noises in said sound signals. 5. The speech enhancing method for the communication earphone according to claim 1 , wherein an in-ear part of said communication earphone has a non-closed earplug structure, and a position where the speaker of said communication earphone is coupled with an ear canal is relatively constant under normal wearing condition; and the noise reduction processing at said receiving end comprises: utilizing the microphones constituting the receiving end to pick up a noise signal; obtaining an antinoise signal according to said noise signal; and mixing the antinoise signal with a speech signal received by the receiving end and feeding the antinoise signal and the speech signal into ears via the speaker constituting the receiving end. 6. The speech enhancing method for the communication earphone according to claim 5 , wherein the obtaining the antinoise signal according to said noise signal, comprises: inverting said noise signal by an inverter to obtain a primary antinoise signal; and modifying and adjusting a phase of said primary antinoise signal in audio frequency range utilizing a phase compensator, to obtain an antinoise signal with a phase exactly opposite to that of said noise signal, wherein said phase compensator comprises an active filter implemented by a twin T network to compensate for phase loss at low frequency part caused by the non-closed earplug structure. 7. The speech enhancing method for communication earphone according to claim 1 , further comprising a process of detecting and suppressing howling, wherein the process comprises: if an energy of a certain frequency of a frequency spectrum of the sound signals picked up by the microphones of said communication earphone is higher than that of other frequency bands by a preset value or more and the energy of the certain frequency is still increasing, then autonomously adjusting the noise reduction at said receiving end. 8. A communication earphone comprising: a sending end comprising at least two microphones; a receiving end comprising at least one microphone and a speaker; a sending end noise reduction unit; and a receiving end noise reduction unit, wherein said sending end noise reduction unit comprises: a wearing condition determining module configured to determine a wearing condition of said communication earphone by comparing an energy difference of sound signals picked up by the at least two microphones of said sending end, and wherein, if said energy difference is greater than a first preset threshold, the wearing condition determining module is configured to determine that said communication earphone is normally worn, and if the energy difference is smaller than or equal to the first preset threshold, the wearing condition determining module is configured to determine that said communication earphone is abnormally worn; a multi-microphone noise reduction module configured to subject said sound signals to multi-microphone noise reduction processing when said communication earphone is normally worn; and a single channel noise reduction module configured to, if said communication earphone is normally worn, further suppress residuary stationary noise after said multi-microphone noise reduction module has subjected said sound signals to noise reduction processing, and configured to, if said communication earphone is abnormally worn, subject steady state noise in said sound signals to suppressing processing. 9. The communication earphone according to claim 8 , wherein said multi-microphone noise reduction module further comprises: a sound signal component distinguishing module configured to distinguish speech signal components and noise signal components in said sound signals by comparing energy difference among frequency components in said sound signals; and a noise signal attenuating module configured to subject said noise signal components to attenuation processing. 10. The communication earphone according to claim 8 , wherein said single channel noise reduction module further comprises: a noise energy calculating module configured to calculate noise energies of various frequencies in said sound signals by a smooth-average method; and a noise energy removing module configured to remove said noise energy in said sound signals. 11. The communication earphone according to claim 8 , wherein an in-ear part of said communication earphone has a non-closed earplug structure, and a position where the speaker of said communication earphone is coupled with an ear canal is relatively constant under normal wearing condition; and said receiving end noise reduction unit comprises: a noise signal picking up module configured to pick up a noise signal utilizing the microphones of said receiving end; an antinoise signal determining module configured to