CN114159728B - Spinning - Google Patents

Abstract

The invention relates to a spinning. The spinning of the invention comprises a riding device, a power generation device and an acousto-optic electric unit. The power generation device is at least provided with two permanent magnets with different magnetic polarities, a coil is arranged between the two permanent magnets with different magnetic polarities, the coil is connected with a connecting rod, and the connecting rod is connected with a driving wheel of the riding device in a chain transmission mode. The coil can generate induction current by rotating and cutting magnetic induction lines among the permanent magnets when the riding device is in a motion state. The sound and video equipment adjusts the volume of the sound and light unit and/or the rhythm of playing music through the intensity of the induced current generated by the power generation assembly.

Description

Spinning

Technical Field

The invention relates to the technical field of machinery, in particular to a spinning.

Background

In the technical field of fitness equipment, a spinning is a common fitness equipment, and is conveniently placed indoors for people to use at any time.

However, the existing spinning has single function, can only achieve the purpose of body building, cannot effectively utilize the biological energy consumed during the movement of the human body, and causes energy waste. Under the background, the invention improves the structure of the traditional spinning, combines the functions of stepping fitness, power generation and practical electronic and electric appliances, and provides the self-power-generation spinning.

Patent publication No. CN112691338A relates to a spinning with a camera for taking pictures, taking videos and recording videos, and the display screen or the display screen and the touch screen display the spinning with the best posture and the beautiful sports figure left by observing the picture or video self-contrast when the spinning moves. The invention discloses a spinning which comprises a camera, a display screen or a display screen plus a touch screen, a camera and spinning body connecting device, an electronic board, a spinning body and a pedal plate, wherein the camera comprises a network camera, an analog camera and an intelligent camera, the display screen comprises the display screen or the display screen plus the touch screen, the invention is held on a handrail by hands, two feet are placed on the pedal plate, the pedal plate is started to move, the camera is started when the user needs to take a picture and record a video, and the display screen or the display screen plus the touch screen is started when the user needs to watch the picture or the video.

Patent publication No. CN110013647A relates to a spinning which uses an electric fan to radiate heat to a body, and the electric fan is started to radiate heat when the body is overheated in spinning movement. The spinning comprises an electric fan, a spinning body connecting device, an electronic board and a spinning body, wherein the spinning body comprises the electronic board. The electric fan is connected with the spinning body, the electric fan is connected with the electronic board, the electric fan switch and the wind speed button are fixed on the electronic board, and the electric fan switch and the wind speed button can be fixed at the running machine body and the handrails. The two hands are held on the armrests, the two feet are placed on the foot pedals, and the foot pedals are stepped to run. When a body feels overheat in the exercise, the electric fan switch is started or the electric fan is started by selecting a proper wind speed button to radiate heat to the body.

Patent publication No. CN111228726A discloses a spinning system, which includes: the system comprises a spinning, a user terminal and a server, wherein the spinning, the user terminal and the server are in communication connection with one another; the spinning includes: the device comprises a main control module, a data acquisition module, a data sending module, a voice module, a time module, a communication module, a positioning module, a storage module and a power supply module. The main control module is electrically connected with the data acquisition module, the data sending module, the voice module, the time module, the communication module, the positioning module and the storage module respectively. The invention also discloses a control method of the spinning. According to the spinning system and the control method thereof disclosed by the invention, on one hand, a user can conveniently acquire and analyze motion data, and the interestingness in the motion process is considered; on the other hand, the system is convenient for manufacturers to collect and acquire user data and adjust the operation strategy.

Furthermore, on the one hand, due to the differences in understanding to those skilled in the art; on the other hand, since the applicant has studied a great deal of documents and patents in making the present invention, but not the details and contents thereof listed therein, the present invention is by no means characterized by those prior art, but by the fact that the present invention has all the features of the prior art, and the applicant reserves the right to add related art to the background art.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a spinning. The spinning of the invention comprises a riding device and a power generation device. The power generation device can generate induced current in a state that a user moves. The rate of movement of the user on the spinning is varied. The induced current generated by the power generating device due to the movement of the user on the spinning also varies. The spinning is provided with an acoustic-optical-electric unit. The sound-light-electricity unit can adjust the volume or music rhythm according to the intensity of the induced current generated by the power generation device, and can also adjust the light-emitting mode of the light. Preferably, the adjusting of the lighting manner of the lamp light includes adjusting the lighting intensity, the lighting color and the lighting height of the lamp post.

Under the condition that a user utilizes the spinning bike to carry out HIIT body-building exercise, the pedal of the spinning bike rotates circularly, so that the coil of the power generation device cuts the magnetic induction lines among the permanent magnets to form induction current. In response to the induced current which changes along with the motion state of the user, the sound and light unit of the spinning adjusts parameters related to the setting of the player in a mode of following the waveform change of the induced current passing through the power generation device, and then playing setting adjustment including volume amplitude, type switching and/or visual presentation adjustment is achieved.

A distinction is made between the cyclic rotation imparted by the user's left and right feet on the foot pedal. When a user performs double-leg shaping through double-leg strength balance training, the processing module of the spinning can send instructions to the sound and light unit according to a left-right leg training mode selected by the user to remind the user of using a specific leg to apply force with different images and/or lights and/or voices. Preferably, the image displays the difference of the reciprocating speed of the left foot and the reciprocating speed of the right foot, the reciprocating switching speed is fast to display red, and the reciprocating switching speed is slow to display green.

When the fast circulating rotation state is switched to the slow circulating rotation state, the spinning can acquire the steep drop of the frequency of the induced current, the processing module of the spinning sends a gentle playing instruction to the sound-light-electricity unit based on the steep drop of the frequency, and a prompt of gentle and stable motion is provided for a user in a mode of stabilizing the frequency of the induced current at a specific low frequency. When the slow-speed circular rotation state is switched to the fast-speed circular rotation state, the spinning can acquire the steep rise of the frequency of the induced current, a processing module of the spinning sends a sudden playing instruction to the sound-light-electricity unit based on the steep rise of the frequency, and a prompt of fast-rhythm movement is provided for a user in a mode of stabilizing the frequency of the induced current at a specific high frequency as a target.

When a user uses the spinning to perform HIIT body-building exercise or other dynamic exercise modes, the riding device at least has a first motion state and a second motion state different from the first motion state. Under the condition that the riding device is in the first motion state, the generating device generates induced current in the first state, so that the loudspeaker of the sound-light-electricity unit works at the first volume, and the sound-light-electricity unit plays music with the motion rhythm synchronous with the first motion state. Under the condition that the riding device is in the second motion state, the generating device generates induced current in the second state, so that the loudspeaker of the sound-light electric unit works at the second volume, and the sound-light electric unit plays music with the motion rhythm synchronous with the second motion state. Preferably, the user may be performing a fast-paced high-intensity sport while the cycling apparatus is in the first sport state, and the user may be performing a slow-paced low-intensity sport while the cycling apparatus is in the second sport state. Preferably, the induced current of the first state is stronger than the induced current of the first state. Preferably, the first volume is higher than the second volume. The correct music can help the user better cope with fatigue and improve the fitness performance of the user. Music, properly used during exercise, can reduce the user's perception of strength, increase blood flow, and increase the rate of lactic acid removal, thereby relieving pain and discomfort, and enabling the user to perform longer, more intense exercises. The exercise rhythm is synchronous with the music rhythm, so that the oxygen demand of the exerciser can be reduced by 7%, the music with strong motivation has the function of eliminating fatigue, and the endurance of the user can be improved by 15%.

According to a preferable embodiment, the power generation device can generate induced current of the first state and/or the second state in a mode of responding to the first motion state and/or the second motion state of the riding device, and mechanical energy generated by exercise is converted into electric energy, so that self-generation is realized. The mechanical energy that the user produced through riding the device and will moving when taking exercise on spinning transmits to power generation facility, and power generation facility turns into the electric energy with the mechanical energy that the user taken exercise produced and is used for controlling the work of sound photoelectric cell.

According to a preferred embodiment, the first motion state is the motion state of the riding device when the user does the anaerobic exercise, and the second motion state is the motion state of the riding device when the user does the aerobic exercise. The riding device is provided with a foot pedal, and the riding device is in a first motion state and/or a second motion state due to the movement of a user on the foot pedal. When a user exercises on the spinning, the user can move the pedals in different states to enable the riding device to obtain different movement states, so that the power generation device generates different induced currents.

According to a preferred embodiment, the power generation device is provided with at least two permanent magnets of different magnetic polarity. The generating set is provided with a coil between two permanent magnets with different magnetic polarities, wherein the coil can cut magnetic induction lines between the permanent magnets through rotation when the riding device is in a first motion state and/or a second motion state. Preferably, the rate of change of the magnetic flux of the power generating means is different so as to generate different induced currents.

According to a preferred embodiment, the coil of the power generation device is connected with a connecting rod. The connecting rod pass through chain drive's mode with ride device's action wheel is connected. Under the condition that the user takes exercise, the user makes the action wheel rotate through applying the circulation rotation to the running-board thereby make the connecting rod drive the coil rotation and produce induced-current with the magnetic induction line of cutting between the permanent magnet.

According to a preferred embodiment, the pedals of the riding device are connected with the driving wheel. The pedal and the driver have a first movement speed and/or a second movement speed in a case where the user moves on the pedal in a first movement state and/or a second movement state.

According to a preferred embodiment, the acousto-optic unit comprises at least a display module, a lamppost and a processing module. And the processing module is respectively connected with the display module and the lamp post through electric signals. The display module is integrated with a loudspeaker. The processing module can adjust the displayed image and/or the power supply voltage of the lamppost by monitoring the strength of the induced current generated by the power generation device.

According to a preferred embodiment, a voltage stabilizing module is connected to the power output end of the power generation device. And the rear end of the voltage stabilizing module is connected with a storage battery. In the case where the user performs exercise, the power generation means generates induced current in response to the movement of the user. The electric energy generated by the power generation device is subjected to voltage stabilization by the voltage stabilization module and then is transmitted to the storage battery for storage.

According to a preferred embodiment, the power output end of the power generation device is connected with the processing module through the ADC sampling module. Under the condition of the first motion state and/or the second motion state of the riding device, the processing module can monitor the induced current generated by the power generation device through the ADC sampling module.

According to a preferred embodiment, the riding device is provided with armrests and a seat cushion. The armrest and the seat cushion can provide a balanced force point for a user in the first and/or second motion state of the cycling apparatus.

The invention also provides the spinning with the entertainment function. The spinning of this embodiment can include the device of riding, the subassembly that generates electricity, processing module and sound photoelectric unit. Preferably, the acousto-optic electrical unit is provided with at least a lamp post. The power generation assembly is capable of generating the induced current in the first state and/or the second state in a manner responsive to the first motion state and/or the second motion state of the cycling apparatus. The processing module adjusts the light emitting mode of the lamp post by detecting the strength of the induced current generated by the power generation assembly. The spinning of this embodiment can carry out the effect of moving show reinforcing user's impression through the lamp pole and experience.

According to a preferred embodiment, the preset program of the processing module can record the exercise data of the user and can upload the recorded data to the remote server through the network communication unit arranged in the processing module. Preferably, the preset program of the processing module is capable of scoring the movement of the user and uploading the same to a remote server (e.g., a cloud server).

According to a preferred embodiment, the network communication unit of the processing module is capable of establishing data communication with at least two different spinning vehicles. The processing module of one spinning can send/receive recorded data to other spinning through the network communication unit and process the data. A plurality of spinning can construct a LAN through connecting the mode of same wiFi, support that a plurality of spinning compete and rank under the online.

According to a preferred embodiment, the lamppost is capable of adjusting the lighting height in response to the magnitude of the induced current of the power generation assembly detected by the processing module. Preferably, the light source of the lamp post can adopt a light source formed by connecting a plurality of sections of LEDs, so that the processing module can adjust the light emitting mode of the light post.

According to a preferred embodiment, the light source of the lamppost is a variable color light source. The light source can respond to the adjusting signal of the processing module to change the light-emitting color. Preferably, the light source of the lamppost can be simultaneously provided with light sources of three colors of red, green and blue. The processing module can be used for preparing different colors in an RGB dimming mode.

The invention has the beneficial effects that:

1. the invention combines riding exercise and power generation, and can effectively convert the biological energy consumed during body building into electric energy for storage;

2. the invention integrates the sound-light-electricity unit, so that people can enjoy entertainment during body building and exercise.

Drawings

FIG. 1 is a simplified three-dimensional schematic view of a spinning in accordance with a preferred embodiment of the present invention;

FIG. 2 is a simplified side view schematic illustration of a spinning in accordance with a preferred embodiment of the present invention;

FIG. 3 is a simplified schematic diagram of a preferred embodiment of a power plant provided by the present invention;

FIG. 4 is a simplified side view schematic of a preferred embodiment of the power plant provided by the present invention;

FIG. 5 is a simplified schematic diagram of power generation detection in accordance with a preferred embodiment of the present invention.

List of reference numerals

100: spinning; 101: a housing; 102: a light bar; 110: a riding device; 111: a foot pedal; 112: a cushion; 113: a handrail; 114: a base; 120: a power generation device; 121: a permanent magnet; 122: a coil; 123: a connecting rod; 130: an acousto-optic-electric unit; 131: a display module; 132: a lamp post; 141: a processing module; 142: an ADC sampling module 142;143: a battery; 144: and a voltage stabilizing module.

Detailed Description

The following detailed description is made with reference to fig. 1 to 5.

Example 1

The embodiment discloses a spinning 100. The spinning 100 of the present embodiment, referring to fig. 1 and 2, may include a riding device 110, a power generation device 120, and an acousto-optic unit 130.

Referring to fig. 1 and 2, the riding device 110 may be provided with a footrest 111, a seat cushion 112, armrests 113, and a base 114. Preferably, the seat cushion 112, the armrest 113 and the base 114 are connected by a bracket to form a bicycle-like structure. Preferably, the two pedals 111 are sleeved with a driving wheel below the cushion 112 to realize synchronous transmission. Preferably, the user is able to exercise by applying a cyclic rotation (e.g., riding) to the foot pedal 111.

Referring to fig. 2 and 3, the power generation device 120 may be provided with two permanent magnets 121 of different magnetic polarities. The power generation device 120 is provided with a coil 122 between two permanent magnets 121 of different magnetic polarities. The coil 122 of the generator 120 is connected to a connecting rod 123. The connecting rod 123 is connected with the driving wheel of the riding device 110 in a chain transmission manner. In the case of the user performing exercise, the user rotates the driving wheel by applying a cyclic rotation to the pedals 111 so that the connecting rod 123 rotates the coil 122 to cut the magnetic induction lines between the permanent magnets 121 to generate an induced current.

Referring to fig. 1 and 2, the acousto-optic unit 130 may include a display module 131 and a lamp post 132. Preferably, the display module 131 may be a speaker-integrated display screen capable of playing audio and video. Preferably, light post 132 includes at least light bar 102 and housing 101. Housing 101 encloses light bar 102 to form light post 132. Preferably, light bar 102 is a running water light.

Referring to fig. 5, the spinning 100 further includes a processing module 141, an ADC sampling module 142, a battery 143, and a voltage stabilization module 144. Preferably, the power generation device 120 is connected to the battery 143 after being connected to the voltage stabilization module 144. The induced current generated by the power generation device 120 is stabilized by the voltage stabilizing module 144 and then transmitted to the battery 143 for storage. Preferably, the power output terminal of the power generating device 120 is connected to the processing module 141 through the ADC sampling module 142. In the case of the first motion state and/or the second motion state of the riding device 110, the processing module 141 can monitor the induced current generated by the power generation device 120 through the ADC sampling module 142. Preferably, the storage battery 143 is connected to a power supply terminal of the acousto-optic cell 130 to supply power to the acousto-optic cell 130. Preferably, the storage battery 143 is connected to power supply terminals of the display module 131 and the lamp post 132, respectively. Preferably, the storage battery 143 is provided with a mains interface capable of being charged by mains electricity. Preferably, the processing module 141 is electrically connected with the control terminal of the acousto-optic unit 130, especially the control terminal of the display module 131 and the lamp post 132. Preferably, the processing module 141 can process a digital signal converted from an analog signal of the power generated by the power generation device 120 by the ADC sampling module 142, so as to monitor the induced current generated by the power generation device 120. The processing module 141 can adjust the displayed image and/or the supply voltage of the lamp post 132 by monitoring the intensity of the induced current generated by the power generation device 120.

Preferably, the power generation device 120 is capable of generating an induced current in a state in which the user moves. The rate of movement of the user on the spinning 100 is varied. The induced current of the power generating means generated by the user's motion on the spinning 100 is also varied. The spinning 100 of the present invention is provided with an acoustic-optic-electric unit 130. The sound-light-electricity unit 130 can adjust the volume or music rhythm according to the intensity of the induced current generated by the power generation device 120.

Preferably, the power generation device 120 can generate the induced current of the first state and/or the second state in response to the first motion state and/or the second motion state of the riding device 110, and convert the mechanical energy generated by the exercise into electric energy to realize self-generation. When a user exercises on the spinning 100, mechanical energy generated by the movement is transmitted to the power generation device 120 through the riding device 110, and the power generation device 120 converts the mechanical energy generated by the exercise of the user into electric energy to control the operation of the sound-light-electricity unit 130.

Preferably, the first motion state is the motion state of cycling device 110 when the user is performing an anaerobic exercise, and the second motion state is the motion state of cycling device 110 when the user is performing an aerobic exercise. The riding device 110 is provided with a foot pedal 111, and the riding device 110 is in a first motion state and/or a second motion state due to the user moving on the foot pedal 111. When a user exercises on the spinning 100, the riding device 110 obtains different motion states by performing different states of motion on the pedals 111, so that the power generation device 120 generates different induced currents.

Preferably, the pedals 111 of the riding device 110 are connected with the driving wheels. In the case where the user moves on the foot pedal 111 in the first movement state and/or the second movement state, the foot pedal 111 and the driver have the first movement speed and/or the second movement speed. The coil 122 of the power generation device 120 is connected to a link 123. The connecting rod 123 is connected with the driving wheel of the riding device 110 in a chain transmission manner. Mechanical energy generated when a user moves the riding device 110 in the first motion state and/or the second motion state on the pedal 111 can be transmitted to the power generation device 120 through the connecting rod 123 and the driving wheel in a chain transmission manner.

Preferably, spinning 100 includes a cycling apparatus 110, a power generation apparatus 120, and an acousto-optic electrical unit 130. The power generation device 120 can generate induced current in the first state and/or the second state in a manner of responding to the first motion state and/or the second motion state of the riding device 110, and convert mechanical energy generated by exercise into electric energy to realize self-generation.

Preferably, the power output terminal of the power generating device 120 is connected to a voltage stabilizing module 144. The rear end of the voltage stabilizing module 144 is connected with a storage battery 143. In the case where the user performs exercise, the power generation device 120 generates induced current in response to the user's motion. The electric energy generated by the power generation device 120 is stabilized by the voltage stabilizing module 144 and then transmitted to the storage battery 143 for storage.

Preferably, the riding device is provided with armrests 113 and a seat cushion 112. The armrest 113 and seat cushion 112 can provide a balanced force point for the user in the first and/or second motion states of the cycling apparatus 110.

Preferably, the storage battery 143 is provided with a charge monitoring module, and a user can check the charge and discharge state of the storage battery 143 at any time. Preferably, the storage battery 143 can be connected to, charged by, and store electric energy.

Preferably, display module 131 is connected to cycling apparatus 110 via a clamping assembly. Preferably, the display module 131 may be replaced by a smart terminal such as a tablet or a mobile phone.

Preferably, in the case where a user exercises with the spinning 100 of the present invention, the user can grip the mobile phone through the grip assembly and use the mobile phone while exercising. Preferably, the user uses the mobile phone to live broadcast and view the screen chat while exercising, and the user can also charge the mobile phone by using the charging line.

Preferably, the spinning 100 is provided with an acousto-optic electrical unit 130 and a processing module 141. Preferably, the battery 143 supplies power to the acousto-optic cell 130. Preferably, the processing module 141 of the spinning 100 is electrically connected to the acousto-optic electrical unit 130 and the monitoring circuit, respectively. The processing module 141 of the spinning 100 can receive the electrical signals generated by the monitoring circuit. The processing module 141 of the spinning 100 can send instructions to the acousto-optic unit 130 to adjust the playback volume and/or music and/or images of the acousto-optic unit 130.

Example 2

This embodiment is a further improvement of embodiment 1, and repeated contents are not described again.

Preferably, the spinning 100 of the present embodiment is provided with an acoustic-optical-electrical unit 130 and a processing module 141. Preferably, the battery 143 supplies power to the acousto-optic cell 130. Preferably, the processing module 141 of the spinning 100 is electrically connected to the sound-light-electric unit 130 and the monitoring circuit, respectively. The processing module 141 of the spinning 100 can receive the electrical signal generated by the monitoring circuit. The processing module 141 of the spinning 100 can send instructions to the acousto-optic unit 130 to adjust the playback volume and/or music and/or images of the acousto-optic unit 130.

The body-building music-playing device can be used for listening to music while building a body, good music can reduce fatigue of the body, improve exercise mood of people and improve exercise performance, particularly can divert attention of people, relieve pain of the body, prolong exercise time and improve endurance when long-distance running is carried out, but wrong music is used at wrong time, and the body-building music-playing device is harmful to people.

Preferably, the user can perform the HIIT fitness exercise using the spinning 100 of the present invention. The HIIT training is a high-intensity intermittent training mode, specifically, the actions are continuously completed while the high-intensity training is performed, and the training lasts for a long time. It is more common to combine fast and slow running, i.e. aerobic and anaerobic exercise.

The HIIT body-building mode is a training technology which enables people to do full-force, quick and explosive exercises in a short time. This technique allows the trainer to increase heart rate and burn more calories in a short period of time. "a high intensity exercise increases the body's need for oxygen and creates an anoxic state, resulting in the body of the handler needing more oxygen during recovery.

In case that a user performs HIIT body-building exercise using the spinning 100 of the present invention, the power generating device 120 can generate induced currents with different intensities to adjust the playing volume and/or music of the sound-light unit 130.

In the case where the user performs the HIIT body-building exercise using the spinning 100 of the present invention, the pedals 111 of the spinning 100 are subjected to the cyclic rotation load to be displaced so that the power generating device 120 forms an induced current having a period corresponding to the cyclic rotation period. In response to the induced current "varying with the user's motion state", the acousto-optic unit 130 of the spinning 100 adjusts parameters related to the player setting in a manner of following the waveform variation of the induced current through the power generation device 120, thereby achieving the adjustment of the play setting including the volume amplitude, the type switching, and/or the visual presentation adjustment.

There is a difference in the cyclic rotation applied to the foot pedal 111 by the left and right feet of the user. When the user performs the double-leg shaping through the double-leg strength balance training, the processing module 141 of the spinning 100 can send instructions to the acousto-optic unit 130 to remind the user to use a specific leg to generate force with different images and voices based on the left and right leg training modes selected by the user. Preferably, the image displays the difference of reciprocating speed of the left foot and the right foot, the red is displayed when the reciprocating switching speed is high, and the green is displayed when the reciprocating switching speed is low. Preferably, the acousto-optic unit 130 is capable of sending instructions such as "left leg exertion", "right leg exertion" and the like to the user.

When the fast circulation rotation state is switched to the slow circulation rotation state, the spinning 100 can acquire a steep drop in the frequency of the induced current. The processing module 141 of the spinning 100 transmits a smooth play instruction to the acousto-optic unit 130 based on the steep drop in frequency and provides a prompt for a smooth and stable motion to the user in a manner of targeting the stabilization of the frequency of the induced current at a specific low frequency. When switching from the slow circulation rotation state to the fast circulation rotation state, the spinning 100 can collect a steep rise in the frequency of the induced current. The processing module 141 of the spinning 100 sends a jerk play instruction to the acousto-optic unit 130 based on the steep rise in frequency and provides a prompt for a fast paced motion to the user in a manner targeting the stabilization of the frequency of the induced current at a specific high frequency.

In the case that the user performs HIIT body-building exercise or other dynamic exercise modes by using the spinning 100 of the present invention, the riding device 110 has at least a first motion state and a second motion state different from the first motion state. In the first motion state of the riding device 110, the generating device 120 generates the induced current of the first state, so that the speaker of the acousto-optic unit 130 operates at the first volume and the acousto-optic unit 130 plays music in synchronization with the motion rhythm of the first motion state. In the second motion state of the riding device 110, the generating device 120 generates the induced current of the second state, so that the speaker of the acousto-optic unit 130 operates at the second volume and the acousto-optic unit 130 plays music in synchronization with the motion rhythm of the second motion state. Preferably, the user may be performing a fast-paced high intensity athletic state while riding device 110 is in the first athletic state, and the user may be performing a slow-paced low intensity athletic state while riding device 110 is in the second athletic state. Preferably, the induced current of the first state is stronger than the induced current of the first state. Preferably, the first volume is higher than the second volume. Preferably, the spinning 100 is provided with a processing module 141, and the processing module 141 can be respectively connected with the power generation device 120 and the sound-light-electric unit 130. Preferably, the processing module 141 is connected to the power generation device through an ADC sampling module 142 (digital-to-analog sampling module), so as to collect power generation data information of the power generation device 120. The electric power generated by the power generation device 120 according to the electromagnetic induction principle is an analog quantity. The ADC sampling module 142 converts an analog quantity of the induced current generated by the power generation device 120 into a digital quantity that can be processed by the processing module 141. The processing module 141 can obtain characteristic parameters including a voltage value, a current value, a frequency and the like of the induced current after sampling the electric energy generated by the power generation device 120 through the ADC sampling module 142. Preferably, the processing module 141 detects the voltage value of the induced current in real time through the ADC sampling module 142. When the processing module 141 detects that the voltage value of the induced current suddenly drops or is lower than the preset threshold, the processing module 141 sends a signal to the acousto-optic electric unit 130 so that the speaker of the acousto-optic electric unit 130 works at the second volume and the acousto-optic electric unit 130 plays music in synchronization with the second motion state motion rhythm. When the processing module 141 detects that the voltage value of the induced current suddenly rises or is higher than the preset threshold, the processing module 141 sends a signal to the acousto-optic unit 130 so that the speaker of the acousto-optic unit 130 operates at the first volume and the acousto-optic unit 130 plays music in synchronization with the first motion state motion rhythm.

Preferably, when the user enters the slow-paced low-intensity exercise state from the fast-paced high-intensity exercise state, the riding device 110 enters the second exercise state from the first exercise state, and the power generation device 120 is correspondingly switched from the induced current generating the first state to the induced current generating the second state, and the voltage value of the induced current suddenly drops. When the user enters the slow-paced low-intensity exercise state from the fast-paced high-intensity exercise state, the exercise tempo of the riding device 110 slows down, the rotation rate of the coil 122 of the power generation device 120 slows down, and the rate at which the coil 122 cuts the magnetic induction lines slows down to cause the voltage value of the induced current to suddenly drop. Preferably, when the user enters the fast-paced high-intensity exercise state from the slow-paced low-intensity exercise state, the riding device 110 enters the first exercise state from the second exercise state, and the power generation device 120 is correspondingly switched from the induced current generating the second state to the induced current generating the first state, so that the voltage value of the induced current rises sharply. When the user enters the fast-paced high-intensity exercise state from the slow-paced low-intensity exercise state, the exercise tempo of the riding device 110 is increased, the rotation rate of the coil 122 of the power generation device 120 is increased, so that the rate of cutting the magnetic induction wire by the coil 122 is increased, and the voltage value of the induced current rises suddenly. The correct music can help the user better cope with fatigue and improve the fitness performance of the user. The correct use of music during exercise can result in a user with reduced strength perception, increased blood flow and faster clearance of lactate, thereby relieving pain and discomfort, and can enable a user to perform longer, more intense exercises. The exercise rhythm is synchronous with the music rhythm, so that the oxygen demand of the exerciser can be reduced by 7%, the music with strong motivation has the function of eliminating fatigue, and the endurance of a user can be improved by 15%.

Preferably, when the user moves on the spinning 100, an image display device (e.g., a display module) in the acousto-optic electronic unit 130 can display the movement rhythm of the user in an image conversion manner. The processing module 141 collects a voltage value of the induced current generated by the power generation device 120, and maps the voltage value of the induced current with an area size of the display image through a preset program. The area of the image displayed on the display device increases when the voltage value of the induced current increases, and the area of the image displayed on the display device decreases when the voltage value of the induced current decreases.

Preferably, the spinning 100 of the present embodiment stimulates the user to exercise by the change of the image and/or the sound, enhancing the exercise effect.

Example 3

This embodiment is a further improvement on embodiments 1 and 2, and repeated details are not repeated.

The present embodiment provides a spinning 100 having an entertainment function. The spinning 100 of the present embodiment may include a cycling apparatus 110, a power generation assembly 120, a processing module 141, and an acousto-optic electrical unit 130. Preferably, the acousto-optic cell 130 is provided with at least a lamp post 132. Power generation assembly 120 is capable of generating an induced current in the first state and/or the second state in a manner responsive to the first state of motion and/or the second state of motion of cycling apparatus 110. The processing module 141 adjusts the lighting mode of the lamp post 132 by detecting the intensity of the induced current generated by the power generation assembly 120.

Preferably, the preset program of the processing module 141 is capable of recording the exercise data of the user and uploading the recorded data to a remote server through a network communication unit configured by the processing module 141. Preferably, the network communication unit of the processing module 141 is capable of establishing data communication with at least two different spinning cars 100. The processing module 141 of one spinning 100 can transmit/receive recorded data to/from other spinning 100 through the network communication unit and process the data. Preferably, the network communication unit is compatible with a plurality of network communication ports. Preferably, the network communication unit compatible communication ports may include bluetooth, wiFi, data cable ports, and the like.

Preferably, the processing module 141 of the spinning 100 can perform networking operations through a data cable port of the network communication unit. Preferably, the preset program of the processing module 141 is capable of recording the exercise data such as exercise duration and exercise posture of the user. Preferably, the preset program of the processing module 141 can score the data of the user, such as the exercise duration and the exercise posture. The processing module 141 scores the exercise data of the user and uploads the scored exercise data to a remote server (e.g., a cloud server). The user can select whether to network the processing module 141 of the spinning 100. In the case where the user selects the processing module 141 to be networked, the user can inquire the score ranking of himself through the display of the display module 141. Preferably, the user can also invite other networked spinning 100 users to play the PK race, if the spinning 100 is networked. Preferably, when the user plays the PK game on the spinning 100, the user needs to perform corresponding operations according to the instructions transmitted to the user by the acousto-optic electric unit 130. The spinning 100 scores the instruction completion degree of the user and finally determines the success or failure. Preferably, the user can perform a 1V1 battle or a multi-player battle with the spinning 100 networked.

Preferably, at least two spinning 100 can also realize data intercommunication of a plurality of spinning 100 by connecting the same regional network under line. Preferably, a plurality of spinning cars 100 can construct a local area network by connecting to the same WiFi, and the plurality of spinning cars 100 can compete and rank on line.

Preferably, the processing module 141 may map the score of the data such as the exercise duration and the exercise posture of the user with the height of the lamp post 132 one by one. Preferably, the user may set a plurality of score intervals having the highest scores, and each score interval may be mapped to the height of the lamp post 132 one by one. In the case where the user sets a mapping relationship between the score interval and the lighting height of the lamp post 132, the lamp post 132 may generate a progress bar type lighting effect in such a manner that the lighting height of the lamp post 132 corresponds to the score obtained by the user in the case of the user's motion.

Preferably, the lamp post 132 is capable of adjusting the light emitting height in response to the magnitude of the induced current of the power generation assembly 120 detected by the processing module. Preferably, the light source of the lamppost 132 is a variable color light source, which is capable of emitting a color change in response to an adjustment signal from the processing module.

Preferably, the acousto-optic unit 130 of the present embodiment may include a lamp post 132. Preferably, the lamppost 132 may be a "fountain light post". Preferably, the power supply terminal of the fountain light column is in electrical signal connection with the processing module 141. The processing module 141 can control the brightness or height of the fountain light column by controlling the output voltage of the power supply terminal of the fountain light column. Preferably, the processing module 141 collects a voltage value of the induced current generated by the power generation device 120, and maps the voltage value of the induced current to the lighting height of the fountain light column through a preset program. The lowest voltage value of the induced current corresponds to the lowest lighting height of the fountain light column, and the highest voltage value of the induced current corresponds to the highest lighting height of the fountain light column. When the voltage value of the induced current is increased or decreased, the lighting height of the fountain light column is increased or decreased. Preferably, the lamp post 132 can adjust the light emitting height in response to the magnitude of the induced current of the power generation assembly 120 detected by the processing module. Preferably, when the user performs a fast-paced high-intensity exercise on the spinning 100, the riding device 110 is in the first exercise state, the power generation assembly 120 generates an induced current in the first state with a larger energy, and the processing module 141 can send a signal to the lamp post 132, so that the lamp post 132 emits light in a manner of fast illumination speed and high illumination height. Preferably, when the user performs a slow-rhythm low-intensity exercise on the spinning 100, the riding device 110 is in the second exercise state, the power generation assembly 120 generates an induced current in the second state with relatively low energy, and the processing module 141 can send a signal to the lamp post 132 at this time, so that the lamp post 132 emits light at a slow lighting speed and a low lighting height. Preferably, the light source of the lamppost 132 may be a light source formed by connecting multiple segments of LEDs, so that the processing module 141 can adjust the light emitting manner of the lamppost 132.

Preferably, the lamp post 132 of the present embodiment may be configured as a water lamp. Preferably, the processing module 141 is provided with different water lamp thresholds, and each water lamp threshold corresponds to a light emitting mode of the water lamp. Preferably, the processing module 141 is provided with at least a first running water light threshold and a second running water light threshold. Preferably, when the riding device 110 is in the first motion state, the power generation device 120 generates an induced current in the first state, and the induced current in the first state collected by the processing module 141 through the ADC sampling module 142 corresponds to the first running light threshold. When the induced current of the first state detected by the processing module 141 corresponds to the first flood light threshold, the processing module 141 controls the flood light to emit light in the first light emitting manner. Preferably, in the case that the riding device 110 is in the second motion state, the power generation device 120 generates the induced current in the second state, and the induced current in the second state collected by the processing module 141 through the ADC sampling module 142 corresponds to the second running water lamp threshold. When the induced current of the second state detected by the processing module 141 corresponds to the second running water lamp threshold, the processing module 141 controls the running water lamp to emit light in the second light emitting manner. Preferably, a light emitting frequency when the water-flowing lamp emits light in the first light emitting manner is higher than a light emitting frequency when the water-flowing lamp emits light in the first light emitting manner. Preferably, the processing module 141 is provided with different water lamp thresholds to correspond to different lighting modes of lighting frequencies.

Preferably, the light source of the lamppost 132 may be provided with light sources of three colors of red, green and blue at the same time. Preferably, the processing module 141 may configure different colors by performing RGB dimming on light sources of three colors, i.e., red, green and blue. Preferably, the processing module 141 can change the light emitting intensity of the red, green and blue light sources by PWM dimming to mix the light with different colors. Preferably, the processing module 141 can implement the conversion of the lighting color of the lamppost 132 by adjusting the output PWM signal.

The spinning 100 of this embodiment can be through networking rank, the mode amazing user's of competitive motion interest to the spinning 100 of this embodiment can carry out the motion effect show through lamp pole 100 and strengthen user's impression experience.

It should be noted that the above-mentioned embodiments are exemplary, and that those skilled in the art, having benefit of this disclosure, may devise various solutions which are within the scope of this disclosure and are within the scope of the invention. It should be understood by those skilled in the art that the present specification and figures are illustrative only and are not limiting upon the claims. The scope of the invention is defined by the claims and their equivalents. Throughout this document, the features referred to as "preferably" are only optional and should not be understood as necessarily requiring that such applicant reserves the right to disclaim or delete any relevant preferred feature at any time. The present description contains a plurality of inventive concepts such as "preferably", "according to a preferred embodiment" or "optionally" each indicating that the respective paragraph discloses a separate concept, the applicant reserves the right to apply for divisional applications according to each inventive concept.

Claims (11)

1. Spinning comprising a cycling device (110), an electric power generating device (120) and an acousto-optic electric unit (130), characterized in that the electric power generating device (120) is capable of generating an induced current in a first state and/or a second state in a manner responsive to a first state of motion and/or a second state of motion of the cycling device (110); the sound-light-electricity unit (130) adjusts the volume of the sound-light-electricity unit (130) and/or the rhythm of playing music and/or the light-emitting mode of light through the intensity of the induced current generated by the power generation device (120);

the first motion state is a motion state when the user performs anaerobic motion, and the second motion state is a motion state when the user performs aerobic motion;

the riding device (110) is provided with a pedal (111), and the riding device (110) is in a first motion state and/or a second motion state due to the movement of a user on the pedal (111);

the power generation device (120) is at least provided with two permanent magnets (121) with different magnetic polarities, a coil (122) is arranged between the two permanent magnets (121) with different magnetic polarities in the power generation device (120), and the coil (122) can cut magnetic induction lines between the permanent magnets (121) through rotation when the riding device (110) is in a first motion state and/or a second motion state;

under the condition that a user uses the spinning for HIIT body-building exercise, a pedal plate of the spinning rotates circularly to enable a coil of a power generation device to cut a magnetic induction line between permanent magnets to form induction current, and in response to the induction current changing along with the motion state of the user, an acoustic-optical-electrical unit (130) of the spinning (100) adjusts parameters related to player setting according to a mode of following waveform change of the induction current passing through the power generation device (120), so that playing setting adjustment including volume amplitude, type switching and/or visual presentation adjustment is achieved;

when a user performs double-leg shaping through double-leg strength balance training, the processing module of the spinning can send instructions to the acousto-optic and electric units respectively aiming at left and right leg training modes based on user selection to remind the user to use a specific leg to generate force with different images and/or lamplight and/or voice; the coil (122) of the power generation device (120) is connected with a connecting rod (123), the connecting rod (123) is connected with a driving wheel of the riding device (110) in a chain rotation mode, and a pedal (111) of the riding device (110) is connected with the driving wheel.

2. Spinning according to claim 1, characterized in that the footboard (111) and the drive wheel have a first and/or second movement speed in case the user is in a first and/or second movement state by performing a movement on the footboard (111).

3. Spinning according to claim 1, characterized in that the acousto-optic and electro-optical unit (130) comprises at least a display module (131) and a lamp post (132), the display module (131) and the lamp post (132) being electrically connected to a processing module (141) of the spinning, respectively, the display module (131) being integrated with a loudspeaker, the processing module (141) being able to adjust the displayed image and/or the supply voltage of the lamp post (132) by monitoring the intensity of the induced current generated by the power generation means (120).

4. The spinning according to claim 1, characterized in that a voltage stabilizing module (144) is connected to a power output end of the power generation device (120), a storage battery (143) is connected to a rear end of the voltage stabilizing module (144), and electric energy generated by the power generation device (120) is stabilized by the voltage stabilizing module (144) and then transmitted to the storage battery (143) for storage.

5. Spinning according to claim 1, characterized in that the power output of the power generation device (120) is connected to a processing module (141) via an ADC sampling module (142), and in the case of the first and/or second motion state of the riding device (110), the processing module (141) can monitor the induced current generated by the power generation device (120) via the ADC sampling module (142).

6. Spinning according to claim 1, characterized in that the cycling device is provided with an armrest (113) and a seat cushion (112), the armrest (113) and the seat cushion (112) being able to provide a balanced stress point for the user in case of a first and/or a second motion state of the cycling device (110).

7. A spinning with entertainment function, characterized by that, include riding the apparatus (110) at least, the generating set (120), processing module (141) and acoustoelectric unit (130), wherein, the said acoustoelectric unit (130) has lamp posts (132) at least; the power generation device (120) can generate induction current of a first state and/or a second state in a manner of responding to the first motion state and/or the second motion state of the riding device (110); the processing module (141) adjusts the light emitting mode of the lamp post (132) by detecting the intensity of the induced current generated by the power generation device (120);

the first motion state is a motion state when the user performs anaerobic motion, and the second motion state is a motion state when the user performs aerobic motion;

the riding device (110) is provided with a pedal (111), and the riding device (110) is in a first motion state and/or a second motion state due to the movement of a user on the pedal (111);

the power generation device (120) is at least provided with two permanent magnets (121) with different magnetic polarities, a coil (122) is arranged between the two permanent magnets (121) with different magnetic polarities in the power generation device (120), and the coil (122) can cut magnetic induction lines between the permanent magnets (121) through rotation when the riding device (110) is in a first motion state and/or a second motion state;

under the condition that a user uses the spinning for HIIT body-building exercise, a pedal plate of the spinning rotates circularly to enable a coil of a power generation device to cut a magnetic induction line between permanent magnets to form induction current, and in response to the induction current changing along with the motion state of the user, an acoustic-optical-electrical unit (130) of the spinning (100) adjusts parameters related to player setting according to a mode of following waveform change of the induction current passing through the power generation device (120), so that playing setting adjustment including volume amplitude, type switching and/or visual presentation adjustment is achieved;

when a user performs double-leg shaping through double-leg strength balance training, the processing module of the spinning can send instructions to the sound-light-electricity unit based on a left-right leg training mode selected by the user respectively so as to remind the user to use a specific leg to exert force with different images and/or light and/or voice;

the coil (122) of the power generation device (120) is connected with a connecting rod (123), the connecting rod (123) is connected with a driving wheel of the riding device (110) in a chain rotation mode, and a pedal (111) of the riding device (110) is connected with the driving wheel.

8. Spinning according to claim 7, characterized in that the preset program of the processing module (141) is able to record the user's movement data and to upload the recorded data to a remote server through a network communication unit provided by the processing module (141).

9. The spinning according to claim 8 wherein the network communication unit of the processing module (141) is capable of establishing data communication with at least two different spinning, and the processing module (141) of one spinning is capable of sending/receiving recorded data to/from the other spinning via the network communication unit and processing the data.

10. The spinning according to any one of claims 7 to 9, wherein the lamp post (132) is capable of adjusting the lighting height and/or the lighting brightness and/or the lighting color in response to the magnitude of the induced current of the power generation device (120) detected by the processing module.

11. The spinning according to any one of claims 7 to 9, wherein the light source of the lamp post (132) is a variable color light source capable of changing the light emitting color in response to the adjustment signal of the processing module.

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