CN112473078A - Intelligent running machine - Google Patents

Abstract

The invention relates to fitness equipment, and discloses an intelligent treadmill, which comprises a mobile terminal and a treadmill end, wherein the mobile terminal comprises an input module, a calculation module and a sending module; according to the intelligent treadmill, a user can input the heat value required to be consumed in the running process through the mobile terminal, the mobile terminal can sum the input heat numerical values to calculate the total heat numerical value, and then the calculated total heat numerical value is remotely sent to the receiving module at the end of the treadmill through the sending module; the conversion module can convert the total heat value received by the receiving module into an equivalent running quantity value and convert the running quantity value into corresponding running parameters (including running speed, running distance and running duration); at this time, the power module can run the treadmill according to the setting of the running parameters until all running parameters are finished.

Description

Intelligent running machine

Technical Field

The invention relates to fitness equipment, in particular to an intelligent treadmill.

Background

The treadmill is a body-building apparatus which is always provided for families and gymnasiums, is the simplest one of the current family body-building apparatuses, and is the best choice of the family body-building apparatus. The first global household treadmill was born in north europe, finland, down force in 1965, and was modified by designers according to the principle of the traditional belt.

The scientific running method has certain requirements on running amount, the running effect is influenced when the running amount is too high or too low, and the human body can be injured when the running amount is serious, so that the method is particularly important for controlling the running amount. Then the function of the existing treadmill is simple, a user can often select the running amount according to own experience and emotion without a relatively scientific reference range, so that the running effect is greatly reduced, even the human body is damaged, and the existing treadmill also has a certain improvement space.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the intelligent running machine which can automatically set the running amount according to the heat consumed by a user.

In order to solve the technical problem, the invention is solved by the following technical scheme:

an intelligent treadmill comprises a mobile terminal and a treadmill end, wherein the mobile terminal comprises an input module, a calculation module and a sending module, and the treadmill end comprises a receiving module, a transformation module, a control module, a starting module and a power module; the sending module is in wireless communication connection with the receiving module;

the input module responds to external trigger to input a heat value to the mobile terminal, the calculation module is used for calculating the sum of the input heat values to obtain a total heat value, and the sending module responds to the external trigger to remotely send the total heat value to the receiving module; the conversion module converts the total heat value received by the receiving module into a running quantity value and generates running parameters through the running quantity value; the starting module responds to external triggering to send a starting signal to the control module, the control module responds to the starting signal to call the running parameters generated by the conversion module and controls the power module to operate according to the running parameters, and the power module is controlled by the control module to control the running machine to operate.

By adopting the scheme, a user can input the heat value required to be consumed in the running process through the mobile terminal, the mobile terminal can sum the input heat values to calculate the total heat value, and then the calculated total heat value is remotely sent to the receiving module at the end of the running machine through the sending module; the conversion module can convert the total heat value received by the receiving module into an equivalent running quantity value and convert the running quantity value into corresponding running parameters (including running speed, running distance and running duration); at this moment, power module can be according to the setting operation treadmill of running parameter, accomplishes all running parameters until the operation, and control module just can control the treadmill and shut down to according to the volume of running of user's actual caloric consumption demand control treadmill, with the promotion running efficiency, reduce injured probability simultaneously, it is more humanized.

Preferably, the mobile terminal further comprises a data module and an identification module, a food caloric database is preset in the data module, the input module responds to external triggering to input food names to the mobile terminal, the identification module is used for receiving and identifying the food names input by the input module, then the caloric numerical value corresponding to the food names is called from the food caloric database of the data module according to the food names, and the called caloric numerical value is sent to the calculation module.

By adopting the scheme, the user can directly input the food name so that the calculation module directly obtains the heat value corresponding to the food name without estimating the food heat by himself, the accuracy of heat value input can be improved, the operation convenience can be improved, and the method is more humanized.

Preferably, the treadmill end further comprises an adjustment module responsive to an external trigger to adjust the generated running parameter.

By adopting the scheme, the user can adaptively adjust the running parameters (such as running speed, running distance and running time) according to the self requirement, and the current running parameters can be more suitable for the current state of the user on the basis of ensuring reasonable running amount.

Preferably, the treadmill end further comprises a progress module, the progress module reversely generates a simulated caloric value according to the running parameters finished by the actual running of the treadmill end, calculates the proportion of the simulated caloric value in the total caloric value to generate a caloric consumption progress value, and displays the caloric consumption progress value.

By adopting the scheme, the progress module can visually display the proportion of the consumed calorie value in the total calorie value in the running process of the user, so that the exercise progress of the user can be obtained, and the progress module is more humanized.

Preferably, the running parameters include running speed, running distance and running duration.

By adopting the scheme, the running parameters are more detailed and are easy to adjust.

Preferably, the mobile terminal further comprises a display module, the treadmill end further comprises a feedback module, the feedback module responds to external trigger to remotely send the simulated calorie value to the mobile terminal, and the display module is used for displaying the simulated calorie value received by the mobile terminal.

By adopting the scheme, the feedback module can reversely send the simulated heat value to the mobile terminal, so that a user can visually see the heat consumed by the current amount of exercise through the display module in the mobile terminal, and the method is more humanized.

Preferably, the mobile terminal further comprises a cache module, and the cache module is used for storing the simulated heat value sent to the mobile terminal as a data source of the calculation module.

By adopting the scheme, if the user does not finish the specified running amount in the current exercise plan, the cache module can store the calorific value which is not consumed by the residual running amount so as to be used as a reference for the user to exercise next time.

Preferably, the mobile terminal further comprises a clearing module, and the clearing module can erase the data after the calculating module calls the data of the simulated heat value in the buffer module.

By adopting the scheme, the data in the cache module can be erased in time after being called, and the shortage of the storage space in the cache module is avoided.

Preferably, the treadmill end further comprises a prompt module, and when the running time of the power module exceeds the running time, the control module controls the prompt module to prompt.

By adopting the scheme, the user can timely obtain feedback information after finishing the specified running amount, and stop the current movement in time, so that excessive movement is avoided, and the movement safety is ensured.

Due to the adoption of the technical scheme, the invention has the remarkable technical effects that: the user can input the heat value to be consumed in the running process through the mobile terminal, the mobile terminal can sum the input heat numerical values to calculate the total heat numerical value, and then the calculated total heat numerical value is remotely sent to the receiving module at the end of the running machine through the sending module; the conversion module can convert the total heat value received by the receiving module into an equivalent running quantity value and convert the running quantity value into corresponding running parameters (including running speed, running distance and running duration); at this moment, power module can be according to the setting operation treadmill of running parameter, accomplishes all running parameters until the operation, and control module just can control the treadmill and shut down to according to the volume of running of user's actual caloric consumption demand control treadmill, with the promotion running efficiency, reduce injured probability simultaneously, it is more humanized.

Drawings

Fig. 1 is a schematic diagram of the system structure of the present embodiment.

The names of the parts indicated by the numerical references in the above figures are as follows: 1. a mobile terminal; 2. a treadmill end; 3. an input module; 4. a calculation module; 5. a sending module; 6. a receiving module; 7. a transformation module; 8. a control module; 9. a starting module; 10. a power module; 11. a data module; 12. an identification module; 13. an adjustment module; 14. a progress module; 15. a display module; 16. a feedback module; 17. a cache module; 18. a clearing module; 19. and a prompt module.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

As shown in fig. 1, the intelligent treadmill disclosed in this embodiment includes a mobile terminal 1 and a treadmill end 2, wherein the mobile terminal 1 is preferably a smart phone, a tablet computer, or a notebook computer. The mobile terminal 1 comprises an input module 3, a computing module 4 and a sending module 5, and the treadmill end 2 comprises a receiving module 6, a transformation module 7, a control module 8, a starting module 9 and a power module 10. The input module 3 may be a physical keyboard or a virtual keyboard integrated in a touch screen; the control module 8 can be a chip with data processing capability, including but not limited to a single chip microcomputer, a PLC, a CPU, an MCU, an ARM, etc.; the starting module 9 can be a physical key arranged on the operation panel of the treadmill or a virtual key integrated in the touch screen; the power module 10 is preferably a motor for driving the treadmill to operate; the sending module 5 and the receiving module 6 are in wireless communication connection, and the two modules can be paired bluetooth modules or wireless data transmission modules.

In this embodiment, the input module 3 inputs a heat value to the mobile terminal 1 in response to an external trigger, the calculation module 4 is configured to calculate a sum of the input heat values to obtain a total heat value, and the sending module 5 remotely sends the total heat value to the receiving module 6 in response to the external trigger; the transformation module 7 converts the total calorie value received by the receiving module 6 into a running quantity value and generates running parameters according to the running quantity value; the running parameters include running speed, running distance and running duration. The starting module 9 responds to external trigger to send a starting signal to the control module 8, the control module 8 responds to the starting signal to call the running parameters generated by the transformation module 7 and controls the power module 10 to operate according to the running parameters, and the power module 10 is controlled by the control module 8 to control the running of the treadmill. The treadmill end 2 further comprises a prompt module 19, and the prompt module 19 is preferably an audible alarm, such as a speaker, a buzzer, etc. When the running time of the power module 10 exceeds the running time, the control module 8 controls the prompt module 19 to prompt. The user can run according to the running amount calculated by the running machine and the generated running parameters, so that the exercise effect can be ensured, the excessive exercise can be avoided, and the exercise safety is improved.

Furthermore, the mobile terminal 1 further includes a data module 11 and an identification module 12, wherein a food calorie database is preset in the data module 11, and the food calorie database includes calorie reference values corresponding to different foods under a unit weight. The input module 3 responds to an external trigger to input a food name to the mobile terminal 1, and the identification module 12 is used for receiving and identifying the food name input by the input module 3, calling a calorie value corresponding to the food name from a food calorie database of the data module 11 according to the food name and sending the called calorie value to the calculation module 4. The user can directly calculate the calorie value to be consumed by inputting the food name, the trouble of independently inquiring the food calorie is avoided, the operation efficiency and the convenience are improved, and the method is more humanized.

Furthermore, the treadmill end 2 further comprises an adjusting module 13, wherein the adjusting module 13 can be an entity adjusting key or a virtual adjusting key integrated on the treadmill operation panel; the adjusting module 13 responds to external trigger to adjust the generated running parameters, so that the user can adjust the generated specific running parameters on the basis of the specified running amount, so as to adapt to the actual motion state of the user more and be more humanized.

Still further, the treadmill end 2 further includes a progress module 14, the progress module 14 preferably being a display screen or a touch screen disposed on the treadmill operating panel. The progress module 14 reversely generates a simulated caloric value according to the running parameters of the running machine 2 after actual running, calculates the ratio of the simulated caloric value to the total caloric value to generate a caloric consumption progress value, and displays the caloric consumption progress value. The user can more intuitively know the completion condition of the current running amount.

Further, the mobile terminal 1 further comprises a display module 15, and the display module 15 is preferably a display screen or a touch screen integrated on the mobile terminal 1. The treadmill end 2 further comprises a feedback module 16, the feedback module 16 preferably being a wireless transmission module that is paired with the mobile terminal 1. The feedback module 16 is responsive to an external trigger to remotely transmit the simulated calorie value to the mobile terminal 1, and the display module 15 is configured to display the simulated calorie value received by the mobile terminal 1. The user can check the running amount which is finished currently through the mobile terminal 1, and the method is more humanized.

Furthermore, the mobile terminal 1 further comprises a cache module 17, and the cache module 17 is preferably a chip integrated in the mobile terminal 1 and having a data storage function, such as a flash memory chip. The buffer module 17 is used for storing the simulated heat value sent to the mobile terminal 1 as a data source of the calculating module 4. The mobile terminal 1 further includes a clearing module 18, and after the calculating module 4 retrieves the data of the simulated heat value in the cache module 17, the clearing module 18 can erase the data, so as to avoid the shortage of the internal storage space of the cache module 17.

Claims (9)

1. The utility model provides an intelligence treadmill which characterized in that: the system comprises a mobile terminal (1) and a treadmill end (2), wherein the mobile terminal (1) comprises an input module (3), a calculation module (4) and a sending module (5), and the treadmill end (2) comprises a receiving module (6), a transformation module (7), a control module (8), a starting module (9) and a power module (10); the sending module (5) is in wireless communication connection with the receiving module (6);

the input module (3) responds to external trigger to input a heat value to the mobile terminal (1), the calculation module (4) is used for calculating the sum of the input heat values to obtain a total heat value, and the sending module (5) responds to the external trigger to remotely send the total heat value to the receiving module (6); the conversion module (7) converts the total heat value received by the receiving module (6) into a running quantity value and generates running parameters through the running quantity value; the starting module (9) responds to external trigger to send a starting signal to the control module (8), the control module (8) responds to the starting signal to call the running parameters generated by the transformation module (7) and controls the power module (10) to operate according to the running parameters, and the power module (10) is controlled by the control module (8) to control the running of the treadmill.

2. The intelligent treadmill of claim 1, wherein: the mobile terminal (1) further comprises a data module (11) and an identification module (12), a food heat database is preset in the data module (11), the input module (3) responds to external triggering to input food names to the mobile terminal (1), the identification module (12) is used for receiving and identifying the food names input by the input module (3), then the heat numerical values corresponding to the food names are called from the food heat database of the data module (11) according to the food names, and the called heat numerical values are sent to the calculation module (4).

3. The intelligent treadmill of claim 1, wherein: the treadmill end (2) further comprises an adjustment module (13), the adjustment module (13) being responsive to an external trigger to adjust the generated running parameter.

4. The intelligent treadmill of claim 1, wherein: the treadmill end (2) also comprises a progress module (14), the progress module (14) reversely generates a simulated caloric numerical value according to the running parameters finished by the actual running of the treadmill end (2), calculates the proportion of the simulated caloric numerical value in the total caloric numerical value to generate a caloric consumption progress value, and displays the caloric consumption progress value.

5. The intelligent treadmill of claim 1, wherein: the running parameters include running speed, running distance and running duration.

6. The intelligent treadmill of claim 1, wherein: the mobile terminal (1) further comprises a display module (15), the treadmill end (2) further comprises a feedback module (16), the feedback module (16) responds to external triggering to remotely send the simulated heat value to the mobile terminal (1), and the display module (15) is used for displaying the simulated heat value received by the mobile terminal (1).

7. The intelligent treadmill of claim 6, wherein: the mobile terminal (1) further comprises a cache module (17), and the cache module (17) is used for storing the simulated heat value sent to the mobile terminal (1) to serve as a data source of the calculation module (4).

8. The intelligent treadmill of claim 7, wherein: the mobile terminal (1) further comprises a clearing module (18), and the clearing module (18) can erase the data after the calculating module (4) calls the data of the simulated heat value in the cache module (17).

9. The intelligent treadmill of claim 5, wherein: the treadmill end (2) also comprises a prompt module (19), and when the running time of the power module (10) exceeds the running time, the control module (8) controls the prompt module (19) to prompt.

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