CN111007890B - Intelligent control system and method based on stone lock - Google Patents
Intelligent control system and method based on stone lock Download PDFInfo
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- CN111007890B CN111007890B CN201911219239.7A CN201911219239A CN111007890B CN 111007890 B CN111007890 B CN 111007890B CN 201911219239 A CN201911219239 A CN 201911219239A CN 111007890 B CN111007890 B CN 111007890B
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- G05D16/00—Control of fluid pressure
- G05D16/20—Control of fluid pressure characterised by the use of electric means
- G05D16/2006—Control of fluid pressure characterised by the use of electric means with direct action of electric energy on controlling means
- G05D16/2013—Control of fluid pressure characterised by the use of electric means with direct action of electric energy on controlling means using throttling means as controlling means
- G05D16/2026—Control of fluid pressure characterised by the use of electric means with direct action of electric energy on controlling means using throttling means as controlling means with a plurality of throttling means
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Abstract
The invention discloses an intelligent control system and method based on a stone lock, wherein the system comprises a pressure sensing module, a heat consumption monitoring module, an intelligent stone lock weight increasing module, a temperature regulating module, a voice broadcasting module and a central control platform, wherein all the modules are arranged in the stone lock (1); forced induction module, temperature regulation and control module, heat consumption monitoring module are connected with the central control platform electricity, and temperature regulation and control module and stone lock intelligence increase weight the module and are connected with the forced induction module electricity respectively, and the stone lock intelligence increases weight the module and the voice broadcast module is connected with heat consumption monitoring module electricity respectively, and this application can carry out intelligence to the stone lock and increase weight, avoids the user when taking exercise because the stone lock is overweight and strain, perhaps does not reach the effect of taking exercise lightly.
Description
Technical Field
The invention relates to the field of stone locks, in particular to an intelligent control system and method based on stone locks.
Background
The stone lock originates from the military camp of the Tang dynasty in China. Soldiers often use stone locks, stone stretchers and the like to exercise bodies and then spread among Chinese people, so that the soldiers develop a traditional competitive project integrating strength, skill and body building. It is contained in Qingdao Guanguanguang years.
The stone lock is a traditional long-term work method in the traditional martial arts, the mutual transmission stone lock is originated from the military camp of the Tang dynasty, is contained in the clear road and bright years, and is commonly used by soldiers to exercise bodies, such as stone locks, stone stretchers and the like, and then the stone lock is transmitted to the folk, so that the stone lock is developed into a traditional competitive project integrating strength, skill and body building. During the martial arts training, can carry out the training of grip strength, wrist strength, arm strength and waist, shank strength through the stone lock merit, can strengthen the ability that the fist face bore reaction force and improve grip strength and arm strength, strengthen human strength element and strength intensity, can build up one's body, help again to the skill.
Most of the existing stone locks are made of stones, and the weight of the stone locks is fixed and cannot be changed.
Disclosure of Invention
The invention aims to provide an intelligent control system and method based on a stone lock, and aims to solve the problems in the prior art.
In order to achieve the purpose, the invention provides the following technical scheme:
an intelligent control system based on a stone lock comprises a pressure sensing module, a heat consumption monitoring module, an intelligent weight increasing module of the stone lock, a temperature regulating module, a voice broadcasting module and a central control platform, wherein all the modules are arranged in the stone lock;
forced induction module, temperature regulation and control module, heat consumption monitoring module are connected with the central control platform electricity, and temperature regulation and control module and stone lock intelligence increase weight the module and be connected with the forced induction module electricity respectively, and stone lock intelligence increases weight the module and the voice broadcast module is connected with heat consumption monitoring module electricity respectively.
By adopting the technical scheme: the pressure sensing module comprises a pressure sensing chip and a pressure monitoring submodule, the pressure sensing chip is electrically connected with the pressure monitoring submodule, and the output end of the pressure monitoring submodule is electrically connected with the intelligent weight increasing module of the stone lock, the temperature regulating and controlling module and the central control platform respectively;
the pressure sensing module is used for monitoring the pressure of the handle part of the stone lock, so that the other modules can be opened, the pressure sensing chip is used for sensing the pressure of the handle part of the stone lock, the pressure monitoring submodule is used for comparing the pressure sensed by the pressure sensing chip with a set pressure value, the pressure sensed by the pressure sensing chip exceeds the set pressure value, and the pressure monitoring submodule sends pressure data to the intelligent weight increasing module of the stone lock, the temperature regulating and controlling module and the central control platform.
By adopting the technical scheme: the temperature regulation and control module comprises a first temperature sensor, a second temperature sensor and a constant temperature control submodule, wherein the first temperature sensor and the second temperature sensor are respectively and electrically connected with the constant temperature control submodule;
the temperature regulation and control module is used for changing the temperature of stone lock, and first temperature sensor is used for responding to the temperature of outside air, and the second temperature sensor is used for responding to the temperature of stone lock, and the thermostatic control submodule piece is used for carrying out the control of temperature according to the temperature that first temperature sensor and second temperature sensor responded to the stone lock.
By adopting the technical scheme: the intelligent weight increasing module of the stone lock comprises a weight monitor, a display unit and a stone lock height monitoring submodule, wherein the display unit comprises a display screen and a data input submodule, and the weight monitor, the stone lock height monitoring submodule and the data input submodule are electrically connected with the display screen;
the intelligent weight increasing module of the stone lock is used for estimating the weight of the stone lock possibly born by a user, the weight monitor is used for monitoring the weight of the stone lock, the stone lock height monitoring submodule is used for monitoring the height of the stone lock when the user lifts, the data input submodule is used for enabling the user to input the weight and the height to evaluate the weight of the stone lock which can be born by the user, and the display screen can display the weight monitor, the stone lock height monitoring submodule and the data input submodule.
By adopting the technical scheme: the central control platform comprises a PLC chip, the pressure sensing module, the heat consumption monitoring module and the temperature regulation and control module are electrically connected with the input end of the PLC chip, and the PLC chip is used for controlling the pressure sensing module, the heat consumption monitoring module and the temperature regulation and control module.
By adopting the technical scheme: the heat consumption monitoring module comprises a heat consumption monitor, the heat consumption monitor is in bidirectional connection with the intelligent weight increasing module of the stone lock, and the heat consumption monitor is used for monitoring the heat consumption of a user when the user uses the stone lock to move.
By adopting the technical scheme: the voice broadcast module includes that megaphone and manual work modify the passageway, and heat consumption monitoring module, manual work modify passageway and megaphone electricity in proper order are connected, and the manual work is modified the passageway and can be reaching different heat and consume and set up different pronunciation, and the megaphone can be reported the pronunciation that sets up.
An intelligent control method based on a stone lock,
s1: the pressure sensing module is used for monitoring the pressure of the handle part of the stone lock, so that other modules can be started, a pressure sensing chip in the pressure sensing module is used for sensing the pressure of the handle part of the stone lock, the pressure monitoring submodule compares the pressure sensed by the pressure sensing chip with a set pressure value, the pressure sensed by the pressure sensing chip exceeds the set pressure value, and the pressure monitoring submodule sends pressure data to the intelligent weight increasing module of the stone lock, the temperature regulating module and the central control platform;
s2: a first temperature sensor in the temperature regulation and control module is used for sensing the temperature of outside air, a second temperature sensor is used for sensing the temperature of the stone lock, and the constant temperature control submodule controls the temperature of the stone lock according to the temperatures sensed by the first temperature sensor and the second temperature sensor;
s3: estimating the weight of the stone lock possibly born by the user by using an intelligent stone lock weight increasing module, so as to remind the user to increase or reduce the weight;
s4: monitoring the heat consumption of a user when the user uses the stone lock to move by using a heat consumption monitor, and sending monitoring data to the intelligent weight increasing module and the voice broadcasting module of the stone lock;
s5: the voice broadcasting module is used for carrying out voice broadcasting when different heat consumptions are achieved;
s6: and the central control platform is used for controlling the pressure sensing module, the heat consumption monitoring module and the temperature regulating and controlling module.
By adopting the technical scheme: in the step S3, the intelligent weight increasing module of the stone lock is used to estimate the weight of the stone lock that the user may bear, so as to remind the user to increase or decrease the weight, and the method further includes the following steps:
a1: monitoring the weight of the stone lock by using a weight monitor, and sending monitoring data to a display screen for displaying;
a2: the data input submodule is used for enabling a user to input the weight and the height so as to evaluate the weight of the stone lock which can be born by the user, and the evaluated weight of the stone lock is sent to the display screen to be displayed;
a3: after the user gains weight or loses weight to the stone lock according to the estimated weight data of the stone lock, the stone lock height monitoring submodule monitors the lifting height of the user;
a4: and the stone lock height monitoring submodule analyzes the adaptation degree of the weight and the user according to the lifting height of the user and the estimated weight of the stone lock.
By adopting the technical scheme: in the step A4, the stone lock height monitoring submodule analyzes the adaptation degree of the weight and the user according to the lifting height of the user and the estimated weight of the stone lock;
the user inputs the weight X and the height Y into the data input submodule, the weight of the stone lock which can be born by the user is evaluated to be set to be L, and the weight of the weight monitor which is used for measuring the stone lock is set to be L 0 Setting the weight of the stone lock needing to be increased or reduced as L', according to a formula:
L’=L-L 0 (unit: kg)
The user gains weight or loses weight to the stone lock according to the estimated stone lock weight data L', the stone lock height monitoring submodule monitors the lifting height of the user, and the lifting height is set to be H 1 、H 2 、H 3 、…、H (n-1) 、H n Effectively sequencing the acquired data by using the stone lock height monitoring submodule from high to low, deleting the monitored maximum value and minimum value, setting the average number of the maximum value and the minimum value of the stone lock height monitoring submodule for deleting the acquired height data as H', and according to a formula:
when H ' is less than or equal to the set threshold, the adaptation degree of the weight L ' of the stone lock, which indicates that the weight needs to be increased or reduced, to the user is low, and the weight needs to be reduced again, and when H ' is greater than the set threshold
The weight L' indicating that the stone lock needs to be increased or reduced in weight is higher in adaptability with the user, and the stone lock is more suitable for the user to exercise.
Compared with the prior art, the invention has the beneficial effects that:
1. the pressure sensing module is used for monitoring the pressure of the handle part of the stone lock, so that other modules can be started, a pressure sensing chip in the pressure sensing module is used for sensing the pressure of the handle part of the stone lock, the pressure monitoring submodule compares the pressure sensed by the pressure sensing chip with a set pressure value, the pressure sensed by the pressure sensing chip exceeds the set pressure value, and the pressure monitoring submodule sends pressure data to the intelligent weight increasing module of the stone lock, the temperature regulating module and the central control platform to start all the modules;
2. the temperature of the outside air is sensed by a first temperature sensor in the temperature control module, the temperature of the stone lock is sensed by a second temperature sensor, and the temperature of the stone lock is controlled by the constant temperature control submodule according to the temperatures sensed by the first temperature sensor and the second temperature sensor, so that a user can conveniently use the stone lock and the temperature of the stone lock is proper;
3. estimating the weight of the stone lock possibly born by the user by using an intelligent stone lock weight increasing module, so as to remind the user to increase or reduce the weight; monitoring the weight of the stone lock by using a weight monitor, and sending monitoring data to a display screen for displaying; the data input submodule is used for enabling a user to input the weight and the height so as to evaluate the weight of the stone lock which can be born by the user, and the evaluated weight of the stone lock is sent to the display screen to be displayed; after the user gains weight or loses weight to the stone lock according to the estimated weight data of the stone lock, the stone lock height monitoring submodule monitors the lifting height of the user; and the stone lock height monitoring submodule analyzes the adaptation degree of the weight to the user according to the lifting height of the user and the estimated weight of the stone lock.
4. Monitoring the heat consumption of a user when the user uses the stone lock to exercise by using a heat consumption monitor, and sending monitoring data to the intelligent weight increasing module and the voice broadcasting module of the stone lock, so that the heat consumption of the user is monitored in time;
5. the voice broadcasting module is used for carrying out voice broadcasting when different heat consumptions are achieved, and the central control platform is used for controlling the pressure sensing module, the heat consumption monitoring module and the temperature regulation and control module
6. This application can carry out intelligence to the stone lock and increase weight, avoids the user when taking exercise, because the stone lock is overweight and the strain, perhaps too lightly does not reach the effect of taking exercise.
Drawings
In order that the present invention may be more readily and clearly understood, a more particular description of the invention briefly described above will be rendered by reference to specific embodiments that are illustrated in the appended drawings.
FIG. 1 is a schematic structural diagram of an intelligent control system based on a stone lock according to the present invention;
FIG. 2 is a schematic diagram illustrating steps of an intelligent control method based on a stone lock according to the present invention;
FIG. 3 is a detailed step diagram of step S3 of the intelligent control method based on the stone lock according to the present invention;
FIG. 4 is a schematic diagram of an implementation process of an intelligent control method based on a stone lock;
fig. 5 is a device diagram of an intelligent control system and method based on a stone lock according to 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.
In the embodiment of the invention, the intelligent control system based on the stone lock comprises a pressure sensing module, a heat consumption monitoring module, an intelligent stone lock weight increasing module, a temperature regulating module, a voice broadcasting module and a central control platform, wherein all the modules are arranged in the stone lock 1;
forced induction module, temperature regulation and control module, heat consumption monitoring module are connected with the central control platform electricity, and temperature regulation and control module and stone lock intelligence increase weight the module and be connected with the forced induction module electricity respectively, and stone lock intelligence increases weight the module and the voice broadcast module is connected with heat consumption monitoring module electricity respectively.
By adopting the technical scheme: the pressure sensing module comprises a pressure sensing chip and a pressure monitoring submodule, the pressure sensing chip is electrically connected with the pressure monitoring submodule, and the output end of the pressure monitoring submodule is respectively and electrically connected with the intelligent weight increasing module of the stone lock, the temperature regulating and controlling module and the central control platform;
the pressure sensing module is used for monitoring the pressure of the handle part of the stone lock, so that the other modules can be opened, the pressure sensing chip is used for sensing the pressure of the handle part of the stone lock, the pressure monitoring submodule is used for comparing the pressure sensed by the pressure sensing chip with a set pressure value, the pressure sensed by the pressure sensing chip exceeds the set pressure value, and the pressure monitoring submodule sends pressure data to the intelligent weight increasing module of the stone lock, the temperature regulating and controlling module and the central control platform.
By adopting the technical scheme: the temperature regulation and control module comprises a first temperature sensor, a second temperature sensor and a constant temperature control submodule, wherein the first temperature sensor and the second temperature sensor are respectively and electrically connected with the constant temperature control submodule;
the temperature regulation and control module is used for changing the temperature of stone lock, and first temperature sensor is used for responding to the temperature of outside air, and the second temperature sensor is used for responding to the temperature of stone lock, and the thermostatic control submodule piece is used for carrying out the control of temperature according to the temperature that first temperature sensor and second temperature sensor responded to the stone lock.
By adopting the technical scheme: the intelligent weight increasing module for the stone lock comprises a weight monitor, a display unit and a stone lock height monitoring submodule, wherein the display unit comprises a display screen and a data input submodule, and the weight monitor, the stone lock height monitoring submodule and the data input submodule are electrically connected with the display screen;
the intelligent weight increasing module for the stone lock is used for estimating the weight of the stone lock possibly born by a user, the weight monitor is used for monitoring the weight of the stone lock, the stone lock height monitoring submodule is used for monitoring the height of the stone lock when the user lifts, the data input submodule is used for enabling the user to input the weight and the height to evaluate the weight of the stone lock that the user can bear, and the display screen can display the weight monitor, the stone lock height monitoring submodule and the data input submodule.
By adopting the technical scheme: the central control platform comprises a PLC chip, the pressure sensing module, the heat consumption monitoring module and the temperature regulation and control module are electrically connected with the input end of the PLC chip, and the PLC chip is used for controlling the pressure sensing module, the heat consumption monitoring module and the temperature regulation and control module.
By adopting the technical scheme: the heat consumption monitoring module comprises a heat consumption monitor, the heat consumption monitor is in two-way connection with the intelligent weight increasing module of the stone lock, and the heat consumption monitor is used for monitoring the heat consumption of a user when the user uses the stone lock to move.
By adopting the technical scheme: the voice broadcast module includes that megaphone and manual work modify the passageway, and heat consumption monitoring module, manual work modify passageway and megaphone electricity in proper order and connect, and the manual work is modified the passageway and can be reaching different heat and be consumed time setting up different pronunciation, and the megaphone can be reported the pronunciation that sets up.
An intelligent control method based on a stone lock,
s1: the pressure sensing module is used for monitoring the pressure of the handle part of the stone lock, so that other modules are started, a pressure sensing chip in the pressure sensing module is used for sensing the pressure of the handle part of the stone lock, the pressure monitoring sub-module is used for comparing the pressure sensed by the pressure sensing chip with a set pressure value, the pressure sensed by the pressure sensing chip exceeds the set pressure value, and the pressure monitoring sub-module sends pressure data to the intelligent weight increasing module of the stone lock, the temperature regulating and controlling module and the central control platform;
s2: a first temperature sensor in the temperature regulation and control module is used for sensing the temperature of outside air, a second temperature sensor is used for sensing the temperature of the stone lock, and the constant temperature control submodule controls the temperature of the stone lock according to the temperatures sensed by the first temperature sensor and the second temperature sensor;
s3: estimating the weight of the stone lock possibly born by the user by using an intelligent stone lock weight increasing module, so as to remind the user to increase or reduce the weight;
s4: monitoring the heat consumption of a user in the process of using the stone lock to exercise by using a heat consumption monitor, and sending monitoring data to an intelligent weight increasing module and a voice broadcasting module of the stone lock;
s5: the voice broadcasting module is used for carrying out voice broadcasting when different heat consumptions are achieved;
s6: and the central control platform is used for controlling the pressure sensing module, the heat consumption monitoring module and the temperature regulating and controlling module.
By adopting the technical scheme: in the step S3, the intelligent weight increasing module of the stone lock is used to estimate the weight of the stone lock that the user may bear, so as to remind the user to increase or decrease the weight, and the method further includes the following steps:
a1: monitoring the weight of the stone lock by using a weight monitor, and sending monitoring data to a display screen for displaying;
a2: the data input submodule is used for enabling a user to input the weight and the height so as to evaluate the weight of the stone lock which can be born by the user, and the evaluated weight of the stone lock is sent to the display screen to be displayed;
a3: after the user gains weight or loses weight to the stone lock according to the estimated weight data of the stone lock, the stone lock height monitoring submodule monitors the lifting height of the user;
a4: and the stone lock height monitoring submodule analyzes the adaptation degree of the weight to the user according to the lifting height of the user and the estimated weight of the stone lock.
By adopting the technical scheme: in the step A4, the stone lock height monitoring submodule analyzes the adaptation degree of the weight and the user according to the lifting height of the user and the estimated weight of the stone lock;
the user inputs the weight X and the height Y into the data input submodule, the weight of the stone lock which can be born by the user is evaluated to be set to be L, and the weight of the weight monitor which is used for measuring the stone lock is set to be L 0 Setting the weight of the stone lock needing to be increased or reduced as L', according to the formula:
L’=L-L 0 (unit: kg)
The user gains weight or loses weight to the stone lock according to the estimated stone lock weight data L', the stone lock height monitoring submodule monitors the lifting height of the user, and the lifting height is set to be H 1 、H 2 、H 3 、…、H (n-1) 、H n The stone lock height monitoring submodule is used for effectively acquiring data from high to lowThe monitored maximum value and the monitored minimum value are deleted, the average number of the maximum value and the minimum value of the stone lock height monitoring submodule for deleting the collected height data is set to be H', and according to a formula:
when H ' is less than or equal to the set threshold, the adaptation degree of the weight L ' of the stone lock, which indicates that the weight needs to be increased or reduced, to the user is low, and the weight needs to be reduced again, and when H ' is greater than the set threshold
The weight L' which represents that the stone lock needs to be increased in weight or be reduced in weight is higher in adaptation degree with a user, and the stone lock is more suitable for the user to exercise.
Example 1: and (3) defining conditions, inputting data into a data input submodule by a user, wherein the weight of the stone lock which can be born by the user is estimated to be 14kg, the weight of the weight monitor measured by the weight monitor is set to be 8kg, and the weight of the stone lock which needs to be increased or reduced is set to be L', according to the formula:
L’=L-L 0 (unit: kg)
Calculating to obtain: l' =14kg-8kg =6kg, the manual weight of the stone lock is increased by 6kg, when a user lifts the weight, the stone lock height monitoring submodule monitors the lifting height of the user, the monitoring lifting height is respectively 80cm, 114cm, 121cm, 181cm, 170cm and 157cm, the stone lock height monitoring submodule is used for effectively sequencing the acquired data by 80cm, 114cm, 121cm, 157cm, 170cm and 181cm from high to low, the maximum value 181cm and the minimum value 80cm are deleted, and according to the formula:
is calculated to obtain
In which a threshold is setHas a value of
H 'is larger than a set threshold value, the adaptation degree of the weight L' of the stone lock, which needs to be increased, to the user is high, and the stone lock is more suitable for the user to exercise.
Example 2: and (3) limiting conditions, inputting data input sub-modules of 55kg of weight and 165cm of height by a user, evaluating the weight of the stone lock which can be born by the user, setting the weight of the stone lock which can be born by the user to be 8kg, setting the weight of the weight monitor to be 10kg, and setting the weight of the stone lock which needs to be increased or reduced to be L', according to a formula:
L’=L-L 0 (unit: kg)
Calculating to obtain: l' =8kg-10kg = -2kg, the manual weight loss is carried out on the stone lock is carried out for 2kg, when a user lifts the weight, the stone lock height monitoring submodule monitors the lifting height of the user, the lifting height is respectively 75cm, 121cm, 170cm, 165cm, 130cm and 157cm, the stone lock height monitoring submodule is used for effectively sequencing collected data from high to low for 75cm, 121cm, 130cm, 157cm, 165cm and 170cm, the monitored maximum value 170cm and the monitored minimum value 75cm are deleted according to the formula:
is calculated to obtain
Wherein the threshold value is set to
H ' is greater than the threshold value, and the weight L ' that represents the stone lock needs to subtract heavy is higher with user's adaptation degree, relatively suitable user takes exercise.
Example 3: and (3) limiting conditions, inputting data into a data input submodule by a user according to the weight of 90kg and the height of 178cm, estimating that the weight of the stone lock which can be born by the user is set to be 20kg, the weight of the weight monitor measured on the stone lock is set to be 10kg, and the weight of the stone lock which needs to be increased or reduced is set to be L', according to a formula:
L’=L-L 0 (unit: kg)
Calculating to obtain: l' =20kg-10kg =10kg, manually gaining weight of the stone lock by 10kg, monitoring the lifting height of the user by a stone lock height monitoring submodule when the user lifts the weight, wherein the monitoring lifting height is respectively 60cm, 100cm, 112cm, 177cm, 152cm and 107cm, effectively sequencing the acquired data by the stone lock height monitoring submodule from high to low by 60cm, 100cm, 107cm, 112cm, 132cm and 177cm, deleting the maximum value 177cm and the minimum value 60cm, and according to a formula:
is calculated to obtain
Wherein the threshold is set to
H 'is smaller than a set threshold value, which indicates that the weight L' of the stone lock, which needs to be increased, has low adaptability to the user and needs to be reduced again.
Example 4: and (3) under the limited conditions, inputting data into a submodule by a user, wherein the weight of the stone lock which can be born by the user is estimated to be 14kg, the weight of the weight monitor measured by the weight monitor is set to be 20kg, and the weight of the stone lock which needs to be increased is set to be L', according to the formula:
L’=L-L 0 (unit: kg)
Calculating to obtain: l' =14kg-20kg = -6kg, manual weight reduction is carried out on the stone lock for 6kg, when a user lifts the weight, the stone lock height monitoring submodule monitors the lifting height of the user, the lifting height is 172cm, 180cm, 178cm, 171cm, 182cm and 168cm, the stone lock height monitoring submodule is used for effectively sorting collected data from high to low for 168cm, 171cm, 172cm, 178cm, 180cm and 182cm, the monitored maximum value 182cm and the monitored minimum value 168cm are deleted, and according to the formula:
is calculated to obtain
Wherein the threshold value is set to
H' is far greater than the set threshold value, and the user lifts the stone lock easily, and can manually increase the weight of the stone lock.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Claims (8)
1. An intelligent control method based on a stone lock is characterized in that:
s1: the pressure sensing module is used for monitoring the pressure of the handle part of the stone lock, so that other modules are started, a pressure sensing chip in the pressure sensing module is used for sensing the pressure of the handle part of the stone lock, the pressure monitoring sub-module is used for comparing the pressure sensed by the pressure sensing chip with a set pressure value, the pressure sensed by the pressure sensing chip exceeds the set pressure value, and the pressure monitoring sub-module sends pressure data to the intelligent weight increasing module of the stone lock, the temperature regulating and controlling module and the central control platform;
s2: a first temperature sensor in the temperature regulation and control module is used for sensing the temperature of outside air, a second temperature sensor is used for sensing the temperature of the stone lock, and the constant temperature control submodule controls the temperature of the stone lock according to the temperatures sensed by the first temperature sensor and the second temperature sensor;
s3: estimating the weight of the stone lock possibly born by the user by using an intelligent stone lock weight increasing module so as to remind the user to increase or reduce the weight;
s4: monitoring the heat consumption of a user when the user uses the stone lock to move by using a heat consumption monitor, and sending monitoring data to the intelligent weight increasing module and the voice broadcasting module of the stone lock;
s5: the voice broadcasting module is used for carrying out voice broadcasting when different heat consumptions are achieved;
s6: the central control platform is used for controlling the pressure sensing module, the heat consumption monitoring module and the temperature regulation and control module;
in the step S3, the intelligent weight increasing module of the stone lock is used to estimate the weight of the stone lock that the user may bear, so as to remind the user to increase or decrease the weight, and the method further includes the following steps:
a1: monitoring the weight of the stone lock by using a weight monitor, and sending monitoring data to a display screen for displaying;
a2: the data input sub-module is used for enabling a user to input the weight and the height so as to evaluate the weight of the stone lock which can be born by the user, and the evaluated weight of the stone lock is sent to the display screen to be displayed;
a3: after the user gains weight or loses weight to the stone lock according to the estimated weight data of the stone lock, the stone lock height monitoring submodule monitors the lifting height of the user;
a4: the stone lock height monitoring submodule analyzes the adaptation degree of the weight and the user according to the lifting height of the user and the estimated weight of the stone lock;
in the step A4, the stone lock height monitoring submodule analyzes the adaptation degree of the weight and the user according to the lifting height of the user and the estimated weight of the stone lock;
the user inputs the weight X and the height Y into the data input submodule, the weight of the stone lock which can be born by the user is evaluated to be set as L, the weight of the weight monitor which is used for measuring the stone lock is set as L0, and the weight of the stone lock which needs to be increased or reduced is set as L', according to the formula:
l' = L-L0 (unit: kg)
The user gains weight or loses weight to the stone lock according to estimated stone lock weight data L ', the stone lock height monitoring submodule monitors the lifting height of the user, the monitoring lifting height is set to be H1, H2, H3, \8230;, H (n-1) and Hn respectively, the stone lock height monitoring submodule is utilized to effectively sort the collected data according to the sequence from high to low, the monitored maximum value and the monitored minimum value are deleted, the average number of the maximum value and the minimum value of the stone lock height monitoring submodule for deleting the collected height data is set to be H', according to the formula:
when H ' is less than or equal to the set threshold, the adaptation degree of the weight L ' of the stone lock, which indicates that the weight needs to be increased or reduced, to the user is low, and the weight needs to be reduced again, and when H ' is greater than the set threshold
The weight L' indicating that the stone lock needs to be increased or reduced in weight is higher in adaptability with the user, and the stone lock is more suitable for the user to exercise.
2. A smart control system based on a stone lock for performing a smart control method based on a stone lock according to claim 1, characterized in that: the system comprises a pressure sensing module, a heat consumption monitoring module, an intelligent weight increasing module of the stone lock, a temperature regulating module, a voice broadcasting module and a central control platform, wherein all the modules are arranged in the stone lock (1);
forced induction module, temperature regulation and control module, heat consumption monitoring module are connected with the central control platform electricity, and temperature regulation and control module and stone lock intelligence increase weight the module and be connected with the forced induction module electricity respectively, and stone lock intelligence increases weight the module and the voice broadcast module is connected with heat consumption monitoring module electricity respectively.
3. The intelligent control system based on the stone lock as claimed in claim 2, wherein: the pressure sensing module comprises a pressure sensing chip and a pressure monitoring submodule, the pressure sensing chip is electrically connected with the pressure monitoring submodule, and the output end of the pressure monitoring submodule is electrically connected with the intelligent weight increasing module of the stone lock, the temperature regulating and controlling module and the central control platform respectively;
the pressure sensing module is used for monitoring the pressure of the handle part of the stone lock, so that the other modules can be opened, the pressure sensing chip is used for sensing the pressure of the handle part of the stone lock, the pressure monitoring submodule is used for comparing the pressure sensed by the pressure sensing chip with a set pressure value, the pressure sensed by the pressure sensing chip exceeds the set pressure value, and the pressure monitoring submodule sends pressure data to the intelligent weight increasing module of the stone lock, the temperature regulating and controlling module and the central control platform.
4. The intelligent control system based on the stone lock as claimed in claim 2, wherein: the temperature regulation and control module comprises a first temperature sensor, a second temperature sensor and a constant temperature control submodule, wherein the first temperature sensor and the second temperature sensor are respectively and electrically connected with the constant temperature control submodule;
the temperature regulation and control module is used for changing the temperature of stone lock, and first temperature sensor is used for responding to the temperature of outside air, and second temperature sensor is used for responding to the temperature of stone lock, and the thermostatic control submodule piece is used for carrying out the control of temperature according to the temperature of first temperature sensor and second temperature sensor response to the stone lock.
5. The intelligent control system based on the stone lock as claimed in claim 2, wherein: the intelligent weight increasing module for the stone lock comprises a weight monitor, a display unit and a stone lock height monitoring submodule, wherein the display unit comprises a display screen and a data input submodule, and the weight monitor, the stone lock height monitoring submodule and the data input submodule are electrically connected with the display screen;
the intelligent weight increasing module of the stone lock is used for estimating the weight of the stone lock possibly born by a user, the weight monitor is used for monitoring the weight of the stone lock, the stone lock height monitoring submodule is used for monitoring the height of the stone lock when the user lifts, the data input submodule is used for enabling the user to input the weight and the height to evaluate the weight of the stone lock which can be born by the user, and the display screen can display the weight monitor, the stone lock height monitoring submodule and the data input submodule.
6. The intelligent control system based on the stone lock as claimed in claim 2, wherein: the central control platform comprises a PLC chip, the pressure sensing module, the heat consumption monitoring module and the temperature regulation and control module are electrically connected with the input end of the PLC chip, and the PLC chip is used for controlling the pressure sensing module, the heat consumption monitoring module and the temperature regulation and control module.
7. The intelligent control system based on the stone lock as claimed in claim 2, wherein: the heat consumption monitoring module comprises a heat consumption monitor, the heat consumption monitor is in two-way connection with the intelligent weight increasing module of the stone lock, and the heat consumption monitor is used for monitoring the heat consumption of a user when the user uses the stone lock to move.
8. The intelligent control system based on the stone lock as claimed in claim 2, wherein: the voice broadcast module includes that megaphone and manual work modify the passageway, and heat consumption monitoring module, manual work modify passageway and megaphone electricity in proper order are connected, and the manual work is modified the passageway and can be reaching different heat and consume and set up different pronunciation, and the megaphone can be reported the pronunciation that sets up.
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| CN203915897U (en) * | 2014-06-20 | 2014-11-05 | 北京荣盛水合科技有限公司 | A kind of intelligent dumbbell |
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| US10065064B2 (en) * | 2014-09-30 | 2018-09-04 | Icon Health & Fitness, Inc. | Exercise machine with an adjustable weight mechanism |
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| CN203915897U (en) * | 2014-06-20 | 2014-11-05 | 北京荣盛水合科技有限公司 | A kind of intelligent dumbbell |
| CN106390366A (en) * | 2016-11-14 | 2017-02-15 | 南京舜国宸智能科技有限公司 | Intelligent dumbbell alarm clock |
| CN108635739A (en) * | 2018-07-06 | 2018-10-12 | 尚体健康科技(上海)股份有限公司 | Heart rate dumbbell and its body-building monitoring and managing method |
| CN110075474A (en) * | 2019-05-08 | 2019-08-02 | 济南朗威健康科技有限公司 | A kind of intelligent Dumbbell |
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