Power cooperation system for exercise apparatuses

What is claimed is: 1 . A power cooperation system for exerciser apparatuses, comprising: at least two exercise apparatuses comprising at least one first exercise apparatus and at least one second exercise apparatus, each exercise apparatus having a motion module, a power generation module, a power storage module and at least one power consuming module, the motion module being driven by an external force to generate mechanical energy, the power generation module connected to the motion module for converting the mechanical energy of the motion module into electrical energy, the power storage module connected to the power generation module for storing the electrical energy generated by the power generation module, the power consuming module electrically connected to the power storage module for consuming the electrical energy stored in the power storage module; the first exercise apparatus and the second exercise apparatus having a wireless communication channel therebetween for transmitting electrical quantity information of the power storage modules of the respective exercise apparatuses; the first exercise apparatus having a power transmitting module and a control unit, the power transmitting module connected to the power generation module and/or the power storage module of the first exercise apparatus, the power transmitting module converting the electrical energy of the power generation module and/or the power storage module into an energy wave and transmitting to the second exercise apparatus, the control unit connected to the power storage module and the power transmitting module for controlling the energy wave transmitted from the power transmitting module; and the second exercise apparatus having a power receiving module and a control unit, the power receiving module connected to the power storage module of the second exercise apparatus for receiving the energy wave transmitted from the power transmitting module of the first exercise apparatus and converting the energy wave into electrical energy and stored in the power storage module, the control unit connected to the power storage module and the power receiving module for controlling the power receiving module to receive the energy wave; wherein the control unit of the first exercise apparatus and the control unit of the second exercise apparatus are configured to control transmission and reception of the energy wave according to the electrical quantity information of the power storage modules of the respective exercise apparatuses. 2 . The power cooperation system as claimed in claim 1 , wherein the second exercise apparatus further comprises a power transmitting module connected to the control unit and the power generation module and/or the power storage module of the second exercise apparatus for converting the electrical energy of the power generation module and/or the power storage module into an energy wave and transmitting to the first exercise apparatus; the control unit of the second exercise apparatus is configured to control the energy wave transmitted from the power transmitting module; the first exercise apparatus further comprises a power receiving module connected to the control unit and the power storage module of the first exercise apparatus for receiving the energy wave transmitted from the power transmitting module of the second exercise apparatus and converting the energy wave into electrical energy and stored in the power storage module; the control unit of the first exercise apparatus is configured to control the power receiving module to receive the energy wave; the control units of the first exercise apparatus and the second exercise apparatus are configured to control transmission and reception of the energy wave according to the electrical quantity information of the power storage modules of the respective exercise apparatuses. 3 . The power cooperation system as claimed in claim 1 , wherein the power storage module of each exercise apparatus defines a first preset value and a second preset value; when the electrical quantity of the power storage module of the corresponding exercise apparatus is higher than the first preset value, the control unit of the corresponding exercise apparatus controls the power transmitting module to transmit the energy wave; when the electrical quantity of the power storage module of the corresponding exercise apparatus is lower than the second preset value, the control unit of the corresponding exercise apparatus controls the power receiving module to receive the energy wave. 4 . The power cooperation system as claimed in claim 1 , wherein the first exercise apparatus and the second exercise apparatus are the same type of exercise apparatus, when the electrical quantity of the power storage module of the first exercise apparatus is higher than that of the second exercise apparatus, the control unit of the first exercise apparatus controls the power transmitting module to transmit the energy wave to the second exercise apparatus; and the control unit of the second exercise apparatus controls the power receiving module to receive the energy wave transmitted by the first exercise apparatus. 5 . The power cooperation system as claimed in claim 1 , wherein each exercise apparatus has a communication device connected to the control unit, the wireless communication channel defined between the two communication devices of the two exercise apparatuses. 6 . The power cooperation system as claimed in claim 1 , wherein the wireless communication channel is defined between the power transmitting module of the first exercise apparatus and the power receiving module of the second exercise apparatus. 7 . The power cooperation system as claimed in claim 5 , wherein the communication device of each exercise apparatus has an information transmission module and an information receiving module, the information transmission module configured to transmit the electrical quantity information of the power storage module, and the information receiving module configured to receive the electrical quantity information of other exercise apparatus. 8 . The power cooperation system as claimed in claim 1 further comprising a power distribution device wirelessly connected between the exercise apparatuses and defining the wireless communication channel for receiving the electrical quantity information of the power storage modules of the respective exercise apparatuses, the power distribution device configured to transfer a command to the first exercise apparatus to make the control unit of the first exercise apparatus to control the energy wave transmitted from the power transmitting module. 9 . The power cooperation system as claimed in claim 1 , wherein the energy wave is electromagnetic waves. 10 . The power cooperation system as claimed in claim 1 , wherein the energy wave is ultrasonic waves. 11 . The power cooperation system as claimed in claim 1 , wherein the power transmitting module of each exercise apparatus transmits the energy wave by beams. 12 . A power cooperation system for exerciser apparatuses, comprising: at least two exercise apparatuses at the same location, each exercise apparatus having a motion module, a power generation module, a power storage module and at least one power consuming module, the motion module provided for a user to perform a specific exercise and driven by motion of the user to generate mechanical energy, the power generation module connected to the motion module for converting the mechanical energy of the motion module into electrical energy, the power storage module connected to the power generation module for storing the electrical energy generated by