CN114287925A - Block chain monitoring system for refueling - Google Patents

Abstract

The invention discloses a block chain monitoring system for refueling, which comprises a block chain monitoring storage module, a fitness analysis module and a refueling control module, the block chain monitoring and storing module is used for monitoring the body-building condition of the body-building person and packing the blocks for storage, the body-building analyzing module is used for analyzing and calculating the exercise amount of the body-building person, the fuel filling control module is used for controlling the fuel filling amount of the gas water heater, the block chain monitoring and storing module is connected with the body-building analysis module through a network, the body-building analysis module is electrically connected with the fuel filling control module, the block chain monitoring and storing module comprises a temperature monitoring unit and a motion amount monitoring module, the body-building exercise amount monitoring system has the advantages that the fuel filling variation can be controlled according to the exercise amount, and the safety is high.

Description

Block chain monitoring system for refueling

Technical Field

The invention relates to the technical field of block chain monitoring, in particular to a block chain monitoring system for fuel filling.

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 treadmill is not affected by weather, and the body-building plan is not needed to be interrupted. When the user wants to run, the user can stand to run. And the indoor environment is quiet, the temperature is suitable, and the body builder can run in an ideal environment. Therefore, the stability of running every day is ensured, and the health care exerciser is loved.

After the exerciser finishes the running training each time at the treadmill, often need to wash and wash sweat on one's body urgently, but if bathe immediately, the blood vessel can expand rapidly, increases the pressure of heart, also can influence the blood supply insufficiency of other organs, causes the brain very easily to appear the oxygen deficiency state to probably appear dizziness, nausea, general debilitation etc. discomforts, and the rest time fitness person under the different strenuous degree of motion can't grasp, often leads to because wash sweat on one's body too early to bathe. Meanwhile, the optimum bath water temperature is different under different environmental temperatures; according to research, the water temperature of bathing after exercise can be maximally beneficial to body health along with the bathing process, the exercise amount is higher, the water temperature change amount is faster, the body can be prevented from being not timely cooled, and the possibility of cramping by directly contacting cold bathing water can be avoided. Therefore, it is desirable to design a blockchain monitoring system for fueling that controls fueling variability and is highly safe with respect to the amount of motion.

Disclosure of Invention

It is an object of the present invention to provide a blockchain monitoring system for refueling to solve the above-mentioned problems in the background art.

In order to solve the technical problems, the invention provides the following technical scheme: the block chain monitoring and storing system for refueling comprises a block chain monitoring and storing module, a fitness analysis module and a refueling control module, wherein the block chain monitoring and storing module is used for monitoring fitness conditions of fitness users and packing blocks for storage, the fitness analysis module is used for analyzing and calculating the exercise amount of the fitness users, the refueling control module is used for controlling the refueling amount of a gas water heater, the block chain monitoring and storing module is in network connection with the fitness analysis module, and the fitness analysis module is electrically connected with the refueling control module.

According to the technical scheme, the block chain monitoring and storing module comprises a temperature monitoring unit and an exercise amount monitoring module, the temperature monitoring unit is used for monitoring the body-building environment temperature of the body-building person, and the exercise amount monitoring module is used for monitoring the body-building exercise amount of the body-building person.

According to the technical scheme, the exercise amount monitoring module comprises a starting submodule, a timing unit and a rotating speed monitoring unit, the starting submodule is electrically connected with the timing unit, the starting submodule is used for triggering a signal to the timing unit when the treadmill is started, the timing unit is used for starting timing according to an electric signal sent by the starting submodule, and the rotating speed monitoring unit is used for measuring the speed of the treadmill track after the treadmill is started.

According to the technical scheme, the body-building analysis module comprises a transmission module, a motion intensity analysis module and a motion amount calculation module, the transmission module is connected with the block chain monitoring storage module through a network, the transmission module is used for acquiring and transmitting information of the block chain monitoring storage module, the motion intensity analysis module is used for analyzing and calculating the motion intensity of a body-building person during body building, the motion amount calculation module is used for analyzing and calculating the total motion amount of the body-building person during one-time running, and the motion intensity analysis module and the motion amount calculation module are both electrically connected with the transmission module.

According to the technical scheme, the dye filling control module comprises a pause time control module, an interval quantity control module and a filling speed control module, the pause time control module is electrically connected with the movement intensity analysis module, the pause time control module is used for controlling the time of stopping filling fuel, the interval quantity control module is electrically connected with the transmission module, the interval quantity control module is used for controlling the variable interval quantity of the fuel filling speed, the filling speed control module is electrically connected with the interval quantity control module and the movement quantity calculation module, and the filling speed control module is used for controlling the variable speed during filling fuel.

According to the above technical solution, the operation method of the blockchain monitoring system for refueling includes the steps of:

step S1: the temperature monitoring unit monitors the temperature value of the household environment in real time;

step S2: when a body builder starts body building exercise and starts the treadmill, the starting submodule monitors the starting current of the treadmill and then triggers signals to the timing unit, the temperature monitoring unit and the rotating speed monitoring unit;

step S3: after receiving a control signal of the starting sub-module, the timing module starts to time data, the temperature value monitored by the temperature monitoring unit and the rotating speed value of the treadmill track detected by the rotating speed monitoring unit are all recorded and uploaded to the block chain monitoring and storing module;

step S4: acquiring data of a block chain monitoring storage module at a transmission module at the gas water heater end, and starting to analyze the exercise condition of a body builder;

step S5: the fuel filling control module obtains the analysis result of the body builder, controls the fuel filling amount and the earliest filling time of the gas water heater, avoids the body builder from influencing the health due to too early bathing, can enable the body builder to automatically adjust the fuel filling speed to control the optimal water temperature to bathe without controlling the water temperature, and achieves the effects of time saving, labor saving and high safety.

According to the above technical solution, the step S4 further includes the following steps:

step S41: after the exerciser finishes the running exercise, the treadmill is closed, the promoter module monitors the stop of the exercise, the temperature monitoring unit, the timing unit and the rotating speed monitoring unit which send signal values are used for controlling the execution unit to stop running and uploading the monitoring data during the running period to the block chain monitoring storage module for storage;

step S42: the transmission module acquires the monitoring data of the block chain monitoring and storing module on the exercise, wherein the monitoring data comprises an environmental temperature value C during the exercise, a time value T of the timing unit on the exercise and an average rotating speed value V of the treadmill track monitored by the rotating speed monitoring unit;

step S43: the motion intensity analysis module reads the monitoring value and analyzes and calculates the motion intensity degree value Q of the time;

step S44: the motion amount calculation module further reads the monitoring value and analyzes and calculates the total motion amount value P of the motion.

According to the above technical solution, in step S43, the calculation formula of the exercise intensity degree value Q by the exercise intensity analysis module is as follows:

in the formula, the exercise intensity degree value Q is in direct proportion to an environment temperature value C and a track rotating speed value V, wherein the unit of the monitored temperature value C is 'centigrade', the unit of the track rotating speed value V is 'meter per second', the running speed of a body builder is equal to the track rotating speed when the body builder runs, and therefore the faster the track rotating speed is, the higher the environment temperature is, the larger the body perspiration amount is, and the higher the exercise intensity is;

in step S44, the calculation formula of the total motion quantity value P of the current motion by the motion quantity calculation module is:

in the formula, when the track speed V is larger, the total exercise magnitude P is exponentially increased as the running time T is longer, and when the track speed V is constant and the running time T is longer, the total exercise magnitude P is also increased faster.

According to the above technical solution, the step S5 further includes:

step S51: after the exercise intensity analysis module analyzes and calculates the exercise intensity degree value Q, the electric signal is transmitted to the pause time control module;

step S52: the pause time control module is according to the formula t ═ k + log₂Q, calculating the time t for controlling the fuel injection to be suspended after stopping the exercise, wherein k is the minimum interval time value from the exercise to the bathing, and the interval time is longer when the intensity of the exercise is higher, so that the phenomenon that the bodybuilder has not had a rest and has a full bath due to premature fuel injection is avoided, and the discomfort of the body is avoided;

step S53: after the pause time is over, the interval quantity control module controls the fuel filling flow speed change interval according to the environment temperature value C monitored by the temperature, so that the maximum value U of the filling flow is_maxAnd minimum value of charging flow U_minVaries inversely with ambient temperature, where U_min＝U_maxΔ U, Δ U being the variation of the fueling, the overall fueling interval being smaller as the ambient temperature C is higher, so that the temperature of the water produced by the fuel combustion is relatively low, and therefore, the fuel can be used in hot weatherThe water temperature is low, so that the problem that the body cannot dissipate heat timely after exercise is avoided, otherwise, more fuel is filled in the interval when the room temperature is low, and the problem that the body is uncomfortable due to too low water temperature is avoided;

step S54: after the fuel filling interval is controlled, the gas water heater starts to use U_maxThe flow is filled with fuel to boil water, and then the filling speed control module controls the filling flow from U to U according to the exercise amount of the exerciser_maxIs reduced to U_minThe deceleration value a is calculated by the following formula: and b is a motion amount conversion coefficient, wherein in the formula, the larger the total motion amount value P during body building, the faster the refueling speed during bathing is increased, so that the water temperature can be reduced more quickly, and the problem that high body heat caused by high motion amount is difficult to discharge in time is avoided, and conversely, the smaller the total motion amount value P during body building, the slower the water temperature is reduced during bathing, so that the problem that the body is not suitable for the rapid water temperature reduction to cause cramping is avoided.

According to the technical scheme, in the step S54, the fuel filling amount is controlled from U_maxDecrease to U at a rate of_minAfter that, the fuel injection amount is controlled at U_minThe body-building person keeps the U value constant_minThe water temperature with the fuel flow is used for bathing, the whole bathing process is not required to be controlled, and the effect of the optimum water temperature is ensured.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, by arranging the block chain monitoring and storing module, the body-building analysis module and the fuel filling control module, the exercise environment and the exercise amount information can be monitored when a body-building person runs at home, the interval time required by the body-building person in subsequent bath can be analyzed and calculated according to the monitoring result, and the bath water temperature can be controlled by controlling the fuel filling amount of the gas water heater, so that the water temperature which is most suitable for the current exercise amount can be provided without manually controlling the water temperature when the body-building person takes a bath after exercise, and the characteristics of controlling the fuel filling variation amount and high safety according to the exercise amount are realized.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic diagram of the system module composition of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: a block chain monitoring system for fuel filling comprises a block chain monitoring storage module, a fitness analysis module and a fuel filling control module, wherein the block chain monitoring storage module is used for monitoring fitness conditions of fitness users and packaging the fitness conditions for storage in blocks; through being provided with block chain monitoring storage module, body-building analysis module and refueling control module, can be when the person of body-building runs at home, monitoring motion environment and amount of exercise information, and required interval time when the follow-up bathing of the person of body-building is calculated according to the analysis of monitoring result, and the temperature of bathing through the fuel injection volume control of control gas formula water heater, need not manual control temperature and can provide the temperature of optimum current amount of exercise when making the person of body-building to bathe after the motion, realized can be according to the high characteristics of amount of exercise control refueling variation and security.

The block chain monitoring and storing module comprises a temperature monitoring unit and an exercise amount monitoring module, wherein the temperature monitoring unit is used for monitoring the body-building environment temperature of the body-building person, and the exercise amount monitoring module is used for monitoring the body-building exercise amount of the body-building person.

The exercise amount monitoring module comprises a starting submodule, a timing unit and a rotating speed monitoring unit, the starting submodule is electrically connected with the timing unit, the starting submodule is used for triggering a signal to the timing unit when the treadmill is started, the timing unit is used for starting timing according to an electric signal sent by the starting submodule, and the rotating speed monitoring unit is used for measuring the speed of the treadmill track after the treadmill is started.

The fitness analysis module comprises a transmission module, a movement intensity analysis module and a movement amount calculation module, the transmission module is in network connection with the block chain monitoring storage module, the transmission module is used for acquiring and transmitting information of the block chain monitoring storage module, the movement intensity analysis module is used for analyzing and calculating the movement intensity of the fitness person during fitness, the movement amount calculation module is used for analyzing and calculating the total movement amount of the fitness person during one-time running, and the movement intensity analysis module and the movement amount calculation module are both electrically connected with the transmission module.

The dye filling control module comprises a pause time control module, a section control module and a filling speed control module, wherein the pause time control module is electrically connected with the movement intensity analysis module, the pause time control module is used for controlling the time for stopping filling fuel, the section control module is electrically connected with the transmission module, the section control module is used for controlling the variable section quantity of the fuel filling speed, the filling speed control module is electrically connected with the section control module and the movement quantity calculation module, and the filling speed control module is used for controlling the variable speed during filling fuel.

A method of operating a blockchain monitoring system for refueling includes the steps of:

step S1: the temperature monitoring unit monitors the temperature value of the household environment in real time;

step S2: when a body builder starts body building exercise and starts the treadmill, the starting submodule monitors the starting current of the treadmill and then triggers signals to the timing unit, the temperature monitoring unit and the rotating speed monitoring unit;

step S3: after receiving a control signal of the starting sub-module, the timing module starts to time data, the temperature value monitored by the temperature monitoring unit and the rotating speed value of the treadmill track detected by the rotating speed monitoring unit are all recorded and uploaded to the block chain monitoring and storing module;

step S4: acquiring data of a block chain monitoring storage module at a transmission module at the gas water heater end, and starting to analyze the exercise condition of a body builder;

step S5: the fuel filling control module obtains the analysis result of the body builder, controls the fuel filling amount and the earliest filling time of the gas water heater, avoids the body builder from influencing the health due to too early bathing, can enable the body builder to automatically adjust the fuel filling speed to control the optimal water temperature to bathe without controlling the water temperature, and achieves the effects of time saving, labor saving and high safety.

Step S4 further includes the steps of:

step S41: after the exerciser finishes the running exercise, the treadmill is closed, the promoter module monitors the stop of the exercise, the temperature monitoring unit, the timing unit and the rotating speed monitoring unit which send signal values are used for controlling the execution unit to stop running and uploading the monitoring data during the running period to the block chain monitoring storage module for storage;

step S42: the transmission module acquires the monitoring data of the block chain monitoring and storing module on the exercise, wherein the monitoring data comprises an environmental temperature value C during the exercise, a time value T of the timing unit on the exercise and an average rotating speed value V of the treadmill track monitored by the rotating speed monitoring unit;

step S43: the motion intensity analysis module reads the monitoring value and analyzes and calculates the motion intensity degree value Q of the time;

step S44: the motion amount calculation module further reads the monitoring value and analyzes and calculates the total motion amount value P of the motion.

In step S43, the motion intensity analysis module calculates the motion intensity degree value Q according to the following formula:

in the formula, the exercise intensity degree value Q is in direct proportion to an environment temperature value C and a track rotating speed value V, wherein the unit of the monitored temperature value C is 'centigrade', the unit of the track rotating speed value V is 'meter per second', the running speed of a body builder is equal to the track rotating speed when the body builder runs, and therefore the faster the track rotating speed is, the higher the environment temperature is, the larger the body perspiration amount is, and the higher the exercise intensity is;

in step S44, the calculation formula of the total motion quantity value P of this motion by the motion quantity calculation module is:

in the formula, when the track speed V is larger, the total exercise magnitude P is exponentially increased as the running time T is longer, and when the track speed V is constant and the running time T is longer, the total exercise magnitude P is also increased faster.

Step S5 further includes:

step S51: after the exercise intensity analysis module analyzes and calculates the exercise intensity degree value Q, the electric signal is transmitted to the pause time control module;

step S52: the pause time control module is according to the formula t ═ k + log₂Q, calculating the time t for controlling the fuel injection to be suspended after stopping the exercise, wherein k is the minimum interval time value from the exercise to the bathing, and the interval time is longer when the intensity of the exercise is higher, so that the phenomenon that the bodybuilder has not had a rest and has a full bath due to premature fuel injection is avoided, and the discomfort of the body is avoided;

step S53: after the pause time is over, the interval quantity control module controls the fuel filling flow speed change interval according to the environment temperature value C monitored by the temperature, so that the maximum value U of the filling flow is_maxAnd minimum value of charging flow U_minVaries inversely with ambient temperature, where u_min＝u_max- Δ u, Δ u is the fueling variation, and when the ambient temperature C is higher, the fueling interval is smaller as a whole, so that the temperature of the water burned by the fuel is relatively lower, thereby in hotter days, the water temperature is lower, and the body heat dissipation after exercise is avoided being untimely, otherwise, when the room temperature is lower, the interval is filled with more fuel, and the body discomfort caused by too low water temperature is avoided;

step S54: after the fuel filling interval is controlled, the gas water heater starts to use U_maxFlow filling fuel water boiling, and subsequent filling speedThe control module controls the flow of the fuel to be filled from U according to the exercise amount of the body builder_maxIs reduced to U_minThe deceleration value a is calculated by the following formula: and b is a motion amount conversion coefficient, wherein in the formula, the larger the total motion amount value P during body building, the faster the refueling speed during bathing is increased, so that the water temperature can be reduced more quickly, and the problem that high body heat caused by high motion amount is difficult to discharge in time is avoided, and conversely, the smaller the total motion amount value P during body building, the slower the water temperature is reduced during bathing, so that the problem that the body is not suitable for the rapid water temperature reduction to cause cramping is avoided.

In step S54, the fuel injection amount is controlled from U_maxDecrease to U at a rate of_minAfter that, the fuel injection amount is controlled at U_minThe body-building person keeps the U value constant_minThe water temperature with the fuel flow is used for bathing, the whole bathing process is not required to be controlled, and the effect of the optimum water temperature is ensured.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A blockchain monitoring system for refueling comprises a blockchain monitoring storage module, a fitness analysis module and a refueling control module, and is characterized in that: the block chain monitoring and storing module is used for monitoring the body-building condition of a body-building person and packaging the body-building condition into blocks for storage, the body-building analysis module is used for analyzing and calculating the exercise amount of the body-building person, the fuel filling control module is used for controlling the fuel filling amount of the gas water heater, the block chain monitoring and storing module is connected with the body-building analysis module through a network, and the body-building analysis module is electrically connected with the fuel filling control module; through being provided with block chain monitoring storage module, body-building analysis module and refueling control module, can be when the person of body-building runs at home, monitoring motion environment and amount of exercise information, and required interval time when the follow-up bathing of the person of body-building is calculated according to the analysis of monitoring result, and the temperature of bathing through the fuel injection volume control of control gas formula water heater, need not manual control temperature and can provide the temperature of optimum current amount of exercise when making the person of body-building to bathe after the motion, realized can be according to the high characteristics of amount of exercise control refueling variation and security.

2. A blockchain monitoring system for refueling according to claim 1 wherein: the block chain monitoring and storing module comprises a temperature monitoring unit and an exercise amount monitoring module, the temperature monitoring unit is used for monitoring the body-building environment temperature of the body-building person, and the exercise amount monitoring module is used for monitoring the body-building exercise amount of the body-building person.

3. A blockchain monitoring system for refueling according to claim 2 wherein: the exercise amount monitoring module comprises a starting submodule, a timing unit and a rotating speed monitoring unit, the starting submodule is electrically connected with the timing unit, the starting submodule is used for triggering a signal to the timing unit when the treadmill is started, the timing unit is used for starting timing according to an electric signal sent by the starting submodule, and the rotating speed monitoring unit is used for measuring the speed of the treadmill track after the treadmill is started.

4. A blockchain monitoring system for refueling according to claim 3 wherein: the body-building analysis module comprises a transmission module, a motion intensity analysis module and a motion amount calculation module, the transmission module is in network connection with the block chain monitoring storage module, the transmission module is used for acquiring and transmitting information of the block chain monitoring storage module, the motion intensity analysis module is used for analyzing and calculating the motion intensity of the body-building person during body building, the motion amount calculation module is used for analyzing and calculating the total motion amount of the body-building person during one-time running, and the motion intensity analysis module and the motion amount calculation module are both electrically connected with the transmission module.

5. A blockchain monitoring system for refueling according to claim 4 wherein: the dye filling control module comprises a pause time control module, an interval quantity control module and a filling speed control module, wherein the pause time control module is electrically connected with the movement intensity analysis module, the pause time control module is used for controlling the time of stopping filling fuel, the interval quantity control module is electrically connected with the transmission module, the interval quantity control module is used for controlling the variable interval quantity of the fuel filling speed, the filling speed control module is electrically connected with the interval quantity control module and the movement quantity calculation module, and the filling speed control module is used for controlling the variable speed during filling fuel.

6. A blockchain monitoring system for refueling according to claim 5 wherein: the method of operating the blockchain monitoring system for refueling includes the steps of:

step S1: the temperature monitoring unit monitors the temperature value of the household environment in real time;

step S2: when a body builder starts body building exercise and starts the treadmill, the starting submodule monitors the starting current of the treadmill and then triggers signals to the timing unit, the temperature monitoring unit and the rotating speed monitoring unit;

step S3: after receiving a control signal of the starting sub-module, the timing module starts to time data, the temperature value monitored by the temperature monitoring unit and the rotating speed value of the treadmill track detected by the rotating speed monitoring unit are all recorded and uploaded to the block chain monitoring and storing module;

step S4: acquiring data of a block chain monitoring storage module at a transmission module at the gas water heater end, and starting to analyze the exercise condition of a body builder;

step S5: the fuel filling control module obtains the analysis result of the body builder and controls the fuel filling amount and the earliest filling time of the gas water heater.

7. A blockchain monitoring system for refueling according to claim 6 wherein: the step S4 further includes the steps of:

step S41: after the exerciser finishes the running exercise, the treadmill is closed, the promoter module monitors the stop of the exercise, the temperature monitoring unit, the timing unit and the rotating speed monitoring unit which send signal values are used for controlling the execution unit to stop running and uploading the monitoring data during the running period to the block chain monitoring storage module for storage;

step S42: the transmission module acquires the monitoring data of the block chain monitoring and storing module on the exercise, wherein the monitoring data comprises an environmental temperature value C during the exercise, a time value T of the timing unit on the exercise and an average rotating speed value V of the treadmill track monitored by the rotating speed monitoring unit;

step S43: the motion intensity analysis module reads the monitoring value and analyzes and calculates the motion intensity degree value Q of the time;

step S44: the motion amount calculation module further reads the monitoring value and analyzes and calculates the total motion amount value P of the motion.

8. A blockchain monitoring system for refueling according to claim 7 wherein: in step S43, the calculation formula of the exercise intensity degree value Q by the exercise intensity analysis module is as follows:

in the formula, the exercise intensity degree value Q is in direct proportion to an environment temperature value C and a track rotating speed value V, wherein the unit of the monitored temperature value C is 'centigrade', the unit of the track rotating speed value V is 'meter per second', the running speed of a body builder is equal to the track rotating speed when the body builder runs, and therefore the faster the track rotating speed is, the higher the environment temperature is, the larger the body perspiration amount is, and the higher the exercise intensity is;

in step S44, the calculation formula of the total motion quantity value P of the current motion by the motion quantity calculation module is:

in the formula, when the track speed V is larger, the total exercise magnitude P is exponentially increased as the running time T is longer, and when the track speed V is constant and the running time T is longer, the total exercise magnitude P is also increased faster.

9. A blockchain monitoring system for refueling according to claim 8 wherein: the step S5 further includes:

step S51: after the exercise intensity analysis module analyzes and calculates the exercise intensity degree value Q, the electric signal is transmitted to the pause time control module;

step S52: the pause time control module is according to the formula t ═ k + log₂Q, calculating the time t for controlling the fuel injection to be suspended after the movement is stopped, wherein k is the minimum interval time value from the movement to the bathing, and the reaction time in the formula is longer when the intensity of the movement is higher;

step S53: after the pause time is over, the interval quantity control module controls the fuel filling flow speed change interval according to the environment temperature value C monitored by the temperature, so that the maximum value U of the filling flow is_maxAnd minimum value of charging flow U_minVaries inversely with ambient temperature, where U_min＝U_max- Δ U, Δ U being the fueling variation, the fueling interval being overall smaller as the ambient temperature C is greater, so that the water temperature at which the fuel is burned is relatively lower, therebyIn hot weather, the water temperature is lower, otherwise, more fuel is filled in the interval when the room temperature is lower, so that the discomfort caused by the over-low water temperature is avoided;

step S54: after the fuel filling interval is controlled, the gas water heater starts to use U_maxThe flow is filled with fuel to boil water, and then the filling speed control module controls the filling flow from U to U according to the exercise amount of the exerciser_maxIs reduced to U_minThe deceleration value a is calculated by the following formula: where b is a motion amount conversion coefficient, and in the formula, the larger the total motion amount value P during exercise, the faster the fueling rate during bathing becomes, and the faster the water temperature can be lowered, while conversely, the smaller the total motion amount value P during exercise, the slower the water temperature is lowered during bathing.

10. A blockchain monitoring system for refueling according to claim 9 wherein: in step S54, the fuel charge amount is controlled from U_maxDecrease to U at a rate of_minAfter that, the fuel injection amount is controlled at U_minThe body-building person keeps the U value constant_minThe water with the fuel flow is used for bathing.

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