KR20220145989A - Spining bike applied the internet of things - Google Patents

Abstract

The present invention relates to a spinning bicycle to which the Internet of things is applied, comprising: a fixation unit that is fixedly installed to be adjustable in height on the ground or the floor indoors or outdoors; a boarding unit installed and coupled to one side of the fixation unit to be height-adjustable so that a user can be on board; a support unit installed and coupled to the other side of the fixation unit to be height-adjustable while facing the boarding unit in a vertical direction so that a user's upper body weight or arms may be supported; a driving unit coupled and installed to the fixation unit to be rotatably driven so that the driving unit may be positioned below the boarding unit and the support unit in the fixation unit; a display unit coupled and installed to the fixation unit so as to be adjacent to the support unit; and a control unit controlling the operation of the driving unit, wherein the control unit can analyze the user's health status according to the user's exercise information and biometric information to additionally perform the user's health data management and display the user's health data on the display unit according to the user's health status analysis data through the internet of things. Optimal spinning exercise is recommended according to the user's health status.

Description

Spinning bike applied the internet of things

The present invention relates to a spinning bicycle to which the Internet of Things is applied, and more particularly, by analyzing the user's health condition according to the user's exercise information and biometric information, and managing the user's health data through the Internet of Things according to the user's health condition analysis data is additionally performed and the user's health data is displayed on the display unit, and the user can freely watch spinning lectures using the display unit to enable home training and individual exercise through the spinning bike to optimize the user's health condition. Spinning by recommending and managing spinning exercises to promote user health, and by continuously checking their health status through the Internet of Things (IoT) in real time and performing spinning exercises according to their health, maximizing the use of spinning bikes. Expand the distribution of bicycles, maintain robustness through optimized layout and structure, and secure ease of movement and installation through miniaturization and light weight to maximize user convenience and improve user satisfaction, and to improve user satisfaction during use and storage. It relates to a spinning bicycle with IoT applied that can reduce the cost and time due to the management of individual personal sports equipment by maintaining the state, and increase exports and sales.

Today, as modern people's interest in health care and body care increases, the number of people who exercise regularly through club meetings and the like is increasing, and indoor sports that are not restricted by external environments are also enjoying great popularity.

Such indoor sports can be performed regardless of the seasonal and time constraints that occur during outdoor exercise, and as the number of people who enjoy indoor sports increases, indoor exercise equipment that can increase the exercise effect is also widely distributed.

In particular, today, as it is difficult to visit gyms or public facilities due to yellow dust, fine dust, ultrafine dust, and Corona 19, home training is rapidly spreading, so you can The use of indoor exercise equipment in a personal space such as an office is rapidly increasing.

Modern people are exposed to various diseases due to excessive food intake, absolute lack of exercise, and stress.

Such indoor exercise equipment includes various types of fitness equipment including a treadmill, an indoor cycle, and a rowing machine, and may be classified for use for aerobic exercise or strength exercise.

In particular, the spinning exercise is an exercise using a spinning bicycle, and unlike a general bicycle, a spinning bicycle refers to a bicycle that is installed indoors or outdoors so that the user understands the movement. It is a bicycle that can be exercised by rotating a flywheel.

The spinning exercise using a spinning bike uses a spinning bike to move the upper body up, down, left, right, and wave according to the exciting music, and transform the lower body into a sitting or standing posture so that the arms, legs, abdomen, It can be exercised in various areas such as the waist and hips.

These spinning bicycles have various effects such as aerobic exercise, reduction of body fat, strengthening of heart function, and strengthening of muscle strength.

However, in general, the spinning exercise is in the form of a group exercise program (GX) in which two or more participants gather in one space under the guidance of a professional instructor and exercise according to music. Since the group exercise program is conducted in a group form in which several exercise participants follow the instructor's movements centered on the instructor, it is difficult to exercise on your own in a private place. There was a problem in that the personal use of a spinning bike by purchasing a spinning bike decreased because it was not possible to listen to it, and the penetration rate of the spinning bike decreased.

In addition, it is not possible to compose a program of difficulty suitable for the level of all exercise participants, and it is difficult to teach movement suitable for each individual, which reduces the continuous participation of beginners. That is, the conventional spinning bicycle causes user dissatisfaction as the course proceeds uniformly without information on the user's health condition, such as the user's physical condition, age, height, weight or medical history, and causes user's dissatisfaction, damage to health due to excessive exercise, or , there was a problem in that there is a risk of a safety accident due to a sudden fall of the user.

Specifically, the conventional spinning bicycle system does not have a function to store the biological state and exercise state information of different users, and it is a simple spin bicycle mechanism that can be used under the guidance of a professional instructor, so it is limited in self-learning the spinning exercise.

In addition, it takes a lot of money to participate in the spinning exercise program, and it is difficult for office workers with irregular free time to participate in the program.

In addition, there are many restrictions to exercise by installing a spinning bicycle at home, such as installation space and installation cost, and even if a spinning bicycle is installed at home, it is less interesting and less interesting than exercising by participating in the program.

Accordingly, the user's health condition is analyzed according to the user's exercise information and biometric information, and the user's health data management is additionally performed through the Internet of Things according to the user's health condition analysis data, and the user's health data is displayed on the display unit. , the user can freely watch spinning lectures using the display unit, enabling home training and individual exercise through the spinning bike, and recommending and managing the optimal spinning exercise according to the user's health condition to promote the user's health, Spinning bike with Internet of Things applied, which can increase the spread of spinning bikes by maximizing the use of spinning bikes by performing spinning exercises according to one’s health by immediately and continuously checking one’s health status through the Internet of Things There is an urgent need for development.

Korean Patent Publication No. 10-2020-0104638 Korean Patent Publication No. 10-2016-0138682 Korean Patent Publication No. 10-2014-0146787 Korean Patent Publication No. 10-2016-0045247 Korean Patent Registration Publication No. 10-2147437

The present invention is to solve the above problems, and an object of the present invention is to analyze the user's health condition according to the user's exercise information and biometric information, and to analyze the user's health data through the Internet of Things according to the user's health condition analysis data. Optimum according to the user's health condition by performing additional management and displaying the user's health data on the display unit It recommends and manages the spinning exercise of the user to promote health, and by continuously checking their health status through the Internet of Things (IoT) in real time and performing a spinning exercise according to their health, maximize the utilization of the spinning bike. Expand the distribution of spinning bikes, maintain robustness through optimized layout and structure, and secure ease of movement and installation through miniaturization and light weight to maximize user convenience and improve user satisfaction, and improve user satisfaction during use and storage. It is to provide a spinning bike with IoT applied that can reduce the cost and time required for managing individual personal sports equipment by maintaining a clean condition, and increase exports and sales.

In order to achieve the object of the present invention, a spinning bicycle to which the Internet of Things is applied according to the present invention includes a fixing unit that is fixedly installed on the ground or floor indoors or outdoors; a boarding unit that is coupled and installed to one side of the fixed unit so as to allow a user to board; a support unit installed on the other side of the fixing unit to be vertically adjustable while facing the boarding unit to support a user's upper body load or arm; a driving unit rotatably coupled and installed to the fixing unit so as to be positioned below the boarding unit and the support unit in the fixing unit; a display unit coupled and installed to the fixing unit so as to be adjacent to the support unit; and a control unit for controlling the operation of the driving unit, wherein the control unit analyzes the user's health condition according to the user's exercise information and biometric information, and according to the user's health condition analysis data, the user's Health data management may be additionally performed and the user's health data may be displayed on the display unit.

Further, in another preferred embodiment of the spinning bicycle to which the Internet of Things is applied according to the present invention, the fixing unit of the spinning bicycle to which the Internet of Things is applied is a first fixing part that extends horizontally and is fixedly disposed on the ground or floor indoors or outdoors ; a second fixing part extending in a horizontal direction and fixedly disposed on the ground or floor indoors or outdoors so as to face each other in a vertical direction and parallel to the first fixing part; a base portion having one end coupled to the first fixing portion and the other end coupled to the second fixing portion to extend in a U-shape; a guide part installed to be detachably attached to the first fixing part and rotatably coupled to guide the movement of the fixing unit; and a first adjusting unit coupled to the first fixing unit and the second fixing unit, respectively, to adjust the heights of the first fixing unit and the second fixing unit.

In another preferred embodiment of the spinning bicycle to which the Internet of Things is applied according to the present invention, the boarding unit of the spinning bicycle to which the Internet of Things is applied includes: a bridge portion extending in the height direction from one side of the base portion; a seating part coupled to one end of the bridge part so as to be able to move up and down; and a second adjustment part coupled to the bridge part to adjust the height of the seating part, wherein the support unit includes a support part extending in a height direction from the other side of the base part; a handle part that is slidably coupled to one end of the support part; and a third adjustment unit coupled to the support unit to adjust the height of the handle unit.

Further, in another preferred embodiment of the spinning bicycle to which the IoT is applied according to the present invention, the driving unit of the spinning bicycle to which the IoT is applied includes a driving unit rotatably coupled to and installed on one side of the lower portion of the base unit so as to be adjacent to the seating unit; a rolling part rotatably coupled to the lower part of the other side of the base part so as to be adjacent to the handle part; a connection part connecting the driving part and the rolling part so that the rolling part rotates in association with the rotational driving of the driving part; a cover part extending vertically from the driving part to the rolling part to protect the driving part, the rolling part, and the connecting part; a fourth adjustment unit coupled to the upper portion of the other side of the base unit to adjust the rotational force of the rolling unit so as to be adjacent to the support unit; and a blocking unit formed in the driving unit to prevent slipping.

Further, in another preferred embodiment of the spinning bicycle to which the Internet of Things is applied according to the present invention, the control unit of the spinning bicycle to which the Internet of Things is applied is installed in the display unit and the handle unit to measure a user's heart rate and body temperature. a sensing unit having a sensing unit and a second sensing unit installed in the driving unit and the seating unit to measure an exercise time and an exercise amount of a user; a data storage unit for storing data on heart rate, recommended exercise time, calorie consumption, and moving distance according to gender, age, height, and weight, and measurement data of the sensing unit; a check unit for confirming whether the user and the corresponding user start exercising through the sensing unit and the data stored in the data storage unit; an analysis unit that analyzes the health state of the user according to the detection result of the sensing unit, the data storage unit, and the verification unit; a comparison unit that compares the analysis result of the analysis unit and the measurement data of the sensing unit with existing data stored in the data storage unit to compare whether the user's health status has changed; and a processing unit that transmits the measurement data of the sensing unit, the stored data of the data storage unit, the confirmation result of the confirmation unit, the analysis result of the analysis unit, and the comparison result of the comparison unit to the display unit or to the smart phone of the user. can do.

The spinning bicycle to which the Internet of Things according to the present invention is applied analyzes the user's health condition according to the user's exercise information and biometric information, and additionally performs the user's health data management through the Internet of Things according to the user's health condition analysis data, and the user health data of the user is displayed on the display unit, and the user can freely watch spinning lectures using the display unit, enabling home training and individual exercise through the spinning bike, and recommending and managing the optimal spinning exercise according to the user's health condition. This has the effect of maximizing user satisfaction, improving the penetration rate of spinning bikes, and promoting sales and export.

In addition, the spinning bicycle to which the Internet of Things according to the present invention is applied recommends and manages the optimal spinning exercise according to the user's health condition to promote the user's health, and to continuously and immediately and in real time through the Internet of Things It has the effect of preventing a user's safety accident in advance and increasing the interest and fun of the spinning bicycle by performing a spinning exercise according to one's own health.

Moreover, the spinning bicycle to which the Internet of Things according to the present invention is applied maintains robustness through an optimized arrangement and structure, and secures ease of movement and installation through miniaturization and weight reduction, thereby maximizing user convenience and improving user satisfaction, It is possible to reduce the manufacturing cost and sales cost, and secure the convenience of movement, thereby reducing the space constraint as much as possible and maximizing the space utilization.

In addition, the spinning bicycle to which the Internet of Things according to the present invention is applied maintains a clean state during use and storage, thereby reducing the cost and time due to the management of individual personal sports equipment, and improving the durability and rigidity to improve the safety and reliability of the spinning bicycle. There is an improvement effect.

1 is a perspective view of a spinning bicycle to which the Internet of Things is applied according to an embodiment of the present invention.
FIG. 2 is a perspective view of a spinning bicycle to which the Internet of Things is applied according to an embodiment of the present invention in a state in which the cover is removed in FIG. 1 .
3 is a block diagram of a control unit of a spinning bicycle to which the Internet of Things is applied according to an embodiment of the present invention.
4 shows an example of a state in which an OTT service is performed by using a display unit of a spinning bicycle to which the Internet of Things is applied according to an embodiment of the present invention.
5 shows an example of a state in which a user's health data is displayed on a display unit of a spinning bicycle to which the Internet of Things is applied according to an embodiment of the present invention.
6 shows an example of the daily exercise amount according to the user's health data displayed on the display unit of the spinning bicycle to which the Internet of Things is applied according to an embodiment of the present invention.
7 shows an example of an amount of weight change according to a user's health data displayed on a display unit of a spinning bicycle to which the Internet of Things is applied according to an embodiment of the present invention.

Hereinafter, it will be described in detail with reference to drawings of a spinning bicycle to which the Internet of Things is applied according to an embodiment of the present invention. The embodiments introduced below are provided as examples so that the spirit of the present invention can be sufficiently conveyed to those skilled in the art. Accordingly, the present invention is not limited to the embodiments described below and may be embodied in other forms. And, in the drawings, the size and thickness of the device may be exaggerated for convenience. Like reference numbers refer to like elements throughout.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be embodied in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and those of ordinary skill in the art to which the present invention pertains. It is provided to fully inform the person of the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout. The sizes and relative sizes of layers and regions in the drawings may be exaggerated for clarity of description.

The terminology used herein is for the purpose of describing the embodiments, and therefore is not intended to limit the present invention. In this specification, the singular also includes the plural, unless specifically stated otherwise in the phrase. As used herein, "comprise" and/or "comprising" refers to the presence of one or more other components, steps, operations and/or elements mentioned. or addition is not excluded.

1 is a perspective view of a spinning bicycle to which the Internet of Things is applied according to an embodiment of the present invention, and FIG. 2 is a perspective view of a spinning bicycle to which the Internet of Things is applied according to an embodiment of the present invention with the cover part removed in FIG. indicates 3 is a block diagram of a control unit of a spinning bicycle to which the Internet of Things is applied according to an embodiment of the present invention. 4 shows an example of a state in which an OTT service is performed by using a display unit of a spinning bicycle to which the Internet of Things is applied according to an embodiment of the present invention. 5 shows an example of a state in which a user's health data is displayed on a display unit of a spinning bicycle to which the Internet of Things is applied according to an embodiment of the present invention. 6 shows an example of the daily exercise amount according to the user's health data displayed on the display unit of the spinning bicycle to which the Internet of Things is applied according to an embodiment of the present invention. 7 shows an example of an amount of weight change according to a user's health data displayed on a display unit of a spinning bicycle to which the Internet of Things is applied according to an embodiment of the present invention.

Definitions of terms used below are as follows. "Horizontal direction" means the horizontal direction in the same member, that is, the X-axis direction in FIGS. 1 to 2, and "vertical direction" means the vertical direction in the same member while perpendicular to the horizontal direction, that is, Y in FIGS. It means an axial direction, and "height direction" means a vertical direction in the same member while orthogonal to a horizontal direction and a vertical direction, that is, the Z-axis direction in FIGS. 1 to 2 . In addition, "upward (upper) and elevating (rising)" means an upward direction in "height direction", that is, a direction toward the upper side of the Z axis in FIGS. 1 to 2, and "downward (lower) and descending" means "height" In "direction", it means a downward direction, that is, a direction toward the Z-axis downward in FIGS. 1 to 2 . In addition, "inside (inside)" means a side relatively close to the center of the same member, that is, relatively inside in FIGS. to the outside in FIG. 2 . "One side" and "the other side" mean either the tip of either side in the horizontal direction or the vertical direction in the same member. That is, "one side" means a horizontal left tip or a vertical left edge in FIGS. 1 to 2, and "the other side" means a horizontal right tip or a vertical right tip in FIGS. "One end" and "the other end" mean either end of both sides in the height direction in the same member. That is, "one end" means the upper end in the height direction in FIGS. 1 to 2, and "the other end" means the lower end in the height direction.

A spinning bicycle 1 to which the Internet of Things according to the present invention is applied will be described with reference to FIGS. 1 to 7 . 1 to 2, the spinning bicycle 1 to which the Internet of Things according to the present invention is applied has a fixed unit 10, a boarding unit 20, a support unit 30, a driving unit 40, and a display unit. 50 , and a control unit 60 .

The fixing unit 10 is fixedly installed on the ground or floor indoors or outdoors so as to be adjustable in height. That is, the fixed unit forms the appearance of the spinning bicycle, provides a space in which a boarding unit, a support unit, a driving unit, and a display unit, which will be described later, are installed and performs a function of supporting them.

The boarding unit 20 is installed to be height-adjustably coupled to one side of the fixed unit to provide a space for a user to board. That is, the boarding unit is installed to be height-adjustably coupled to one side (left side in FIGS. 1 to 2) of the fixed unit, and performs a function of providing a space and a place for the user to sit when the user exercises with a spinning bicycle.

The support unit 30 is installed so as to be adjustable in height while facing the boarding unit in the vertical direction on the other side of the fixed unit to support the user's upper body load or arm. That is, the support unit is installed so as to be adjustable in height while facing each other in the vertical direction (Y-axis direction) with the boarding unit on the other side (right side in FIGS. Holds the support unit to maintain a stable posture, and supports the user's upper body load when the user stands up from the boarding unit and drives the driving unit or shakes the body left and right during spinning exercise in various postures through the spinning bicycle It performs the function that makes the spinning movement possible.

The driving unit 40 is rotatably drivably installed in the fixed unit so as to be located in the height direction lower of the boarding unit and the supporting unit in the fixed unit. That is, the driving unit is rotatably coupled to the lower portion of the fixed unit so as to be positioned lower in the height direction than the boarding unit and the support unit on the fixed unit, so that the user sits on the boarding unit, holds the support unit, and drives the drive unit in a comfortable position. It rotates and allows the user to control the amount of exercise.

The display unit 50 is coupled to the fixing unit so as to be adjacent to the support unit.

In addition, as shown in FIG. 4 , the display unit is an online streaming service using OTT (Over The Top) so that the user can sit on a spinning bike and perform various spinning exercises at home or alone without directly visiting the gym. You can perform home training while watching various spinning bike exercise training through recorded channels.

In addition, as shown in FIG. 5 , the display unit is an online streaming service using OTT (Over The Top) so that the user can perform various spinning exercises at home or alone without directly visiting the gym while sitting on the spinning bike. By taking an online course that is conducted online in real time through the Various biometric information such as consumption amount, exercise time, moving distance, and heart rate can be displayed.

In addition, as shown in FIGS. 6 to 7 , the display unit displays the user's health condition analysis data by the control unit in real time, or when the user exercises while sitting on the boarding unit of the spinning bicycle, the user's daily exercise amount is displayed. displayed, and analysis data such as information or graphs according to changes in health status can be displayed.

Such a display unit is a liquid crystal display (LCD), a thin film transistor-liquid crystal display (TFT LCD), an organic light-emitting diode (OLED), a flexible display (flexible display), It may include at least one of a three-dimensional display (3D display) and an electronic ink display (e-ink display).

In addition, the display unit includes a screen display program and a data input program according to screen display selection, displays a software switch on the display screen according to the output of the screen display program, and recognizes ON/OFF of the software switch Thus, it is possible to perform the function of issuing input/output commands for machine operation.

The control unit 60 controls the operation of the drive unit. In addition, the control unit analyzes the user's health condition according to the user's exercise information and biometric information, and additionally performs the user's health data management through the Internet of Things (IOT) according to the user's health condition analysis data, The user's health data may be displayed on the display unit.

The control unit includes NC (numerical control, NC) or CNC (computerized numerical control), and various numerical control programs are built-in. That is, the control unit has built-in operating programs and training programs of the driving unit and the sensing unit, and the corresponding programs are automatically loaded and operated according to the control of the control unit. In addition, the control unit communicates with the driving unit and the sensing unit according to a predetermined protocol.

In addition, the control unit may include a programmable logic controller (PLC), and may control the driving of the driving unit according to the user's health state analysis data or health data by the PLC.

These control units 60 are ASICs (application specific integrated circuits), DSPs (digital signal processors), DSPDs (digital signal processing devices), PLDs (programmable logic devices), FPGAs (field programmable gate arrays), controllers (controllers), It may be implemented using at least one of micro-controllers, microprocessors, and other electrical units for performing functions.

The spinning bicycle to which the Internet of Things according to the present invention is applied analyzes the user's health condition according to the user's exercise information and biometric information, and additionally performs the user's health data management through the Internet of Things according to the user's health condition analysis data, and the user health data of the user is displayed on the display unit, and the user can freely watch spinning lectures using the display unit, enabling home training and individual exercise through the spinning bike, and recommending and managing the optimal spinning exercise according to the user's health condition. This can maximize user satisfaction, improve the penetration rate of spinning bikes, and promote sales and export.

1 to 2 , the fixing unit 10 of the spinning bicycle 1 to which the Internet of Things according to the present invention is applied has a first fixing part 11 , a second fixing part 12 , and a base part 13 . ), a guide part 14 , and a first adjustment part 15 .

The first fixing part 11 is fixedly arranged to extend in the horizontal direction on the ground or floor indoors or outdoors.

The second fixing part 12 is horizontally extended and fixedly disposed on the ground or floor of an indoor or outdoor area so as to face each other in a vertical direction and parallel to the first fixing part.

In addition, although not shown in the drawings, if necessary, a vertical portion is formed between the first fixing part and the second fixing part in a vertical direction, so that the first fixing part and the second fixing part can be firmly fixed and supported.

One end of the base portion 13 is coupled to the first fixing portion, and the other end is coupled to the second fixing portion to extend in an S-shape. That is, as for the base part 13, one end of the base part is fixedly coupled to the first fixing part, and the other end of the base part is fixedly coupled to the second fixing part, and thus, as a whole, it is formed in a S-shape. That is, the base part has one end and the other end fixedly coupled to the first fixing part and the second fixing part, respectively, and safely and accurately supports the user's load when the user sits on the boarding unit and drives the driving unit through a triangular shape as a whole, It is formed sturdy to prevent damage or breakage during storage, transportation, or use of the spinning bike.

Although not necessarily limited thereto, the first fixing part, the second fixing part, and the base part may be formed in the form of a hollow metal bar, preferably a square or circular hollow pipe made of aluminum or steel.

In addition, the first fixing part, the second fixing part, and the base part may be integrally formed to reduce manufacturing cost and manufacturing time, and to maintain durability and rigidity.

The guide portion 14 is installed to be detachably attached to the first fixing portion and rotatably coupled to guide the movement of the fixing unit. That is, the guide part is attached to the front or lower part of the first fixing part so as to be detachably coupled and rotationally driven, so that when the user does not exercise using the spinning bike, it rolls when moving to a secluded place or storage place to facilitate the movement of the spinning bike. can do it These guides may be formed in the form of wheels, wheels or roller bearings.

The first adjustment unit 15 is installed to be coupled to the first fixing unit and the second fixing unit, respectively, to adjust the height of the first fixing unit and the second fixing unit. That is, the first adjusting unit fixes the spinning bicycle and when the user performs a spinning exercise while sitting on the boarding unit, or when the user becomes different from the existing user, or when the spinning bicycle is mounted in a new place according to the mobility and portability of the spinning bicycle, the spinning bicycle is installed indoors. Alternatively, the first fixing part and the second fixing part are detachably fixed and installed so that the height can be adjusted according to the step and deviation of the ground so as to be firmly fixed and supported on the outdoor ground or floor. In addition, by using the ball screw method, the user can easily and quickly fix and support the spinning bicycle on the ground indoors or outdoors by manipulating the first adjustment unit.

1 to 2, the boarding unit 20 of the spinning bicycle 1 to which the Internet of Things according to the invention is applied includes a bridge unit 21, a seating unit 22, and a second adjustment unit 23. include

The bridge part 21 is formed to extend in the height direction from one side of the base part. That is, the bridge part 21 is formed to extend integrally or detachably with the base part in the height direction from one side of the base part (the left side of the base part in FIGS. 1 to 2 ). Preferably, the bridge part is formed of a hollow pipe made of a metal material in a circular or rectangular shape, and the bridge part is integrally formed with the base part in the same shape and material as the base part in order to reduce manufacturing cost and secure durability and rigidity.

The seating part 22 is coupled to one end of the bridge part so as to be able to move up and down. That is, the seating portion 22 is a place where a user sits when exercising using a spinning bicycle, and has a predetermined size and thickness and is formed in the form of a saddle.

The second adjusting unit 23 is coupled to the bridge unit to adjust the height of the seating unit. That is, when there are several people using the spinning bicycle, the second adjustment unit is formed so that the user can adjust the height of the seating part to fit his or her body condition by sitting on the seating part.

1 to 2 , the support unit 30 of the spinning bicycle 1 to which the Internet of Things according to the invention is applied includes a support part 31 , a handle part 32 , and a third adjustment part 33 . include

The support part 31 is formed to extend in the height direction from the other side of the base part. That is, the support part is formed to extend integrally or detachably with the base part in the height direction from the other side of the base part (the right side of the base part in FIGS. 1 to 2). Preferably, the support part is formed of a hollow pipe made of a metal material in a circular or rectangular shape, and the support part is integrally formed with the base part in the same shape and material as the base part in order to reduce manufacturing cost and secure durability and rigidity.

The handle part 32 is slidably coupled to one end of the support part. That is, the handle part holds the arm or part of the upper body when the user grips the handle part with his/her arm or performs various motions during the spinning exercise in a state in which the user is seated on the seating part when the user performs a spinning exercise using a spinning bicycle. the supporting part.

The third adjustment part 33 is installed to be coupled to the support part to adjust the height of the handle part. The third adjusting unit is formed so that, like the second adjusting unit, the height of the handle unit can be adjusted to suit the user's body condition by sitting on the seat when there are several people using the spinning bicycle.

Preferably, the second adjusting unit and the third adjusting unit may be formed in various forms such as a telescopic method and a sliding bolt assembly method.

1 to 2 , the driving unit 40 of the spinning bicycle 1 to which the IoT according to the invention is applied has a driving unit 41 , a rolling unit 42 , a connection unit 43 , and a cover unit 44 . , a fourth adjustment unit 45 , and a blocking unit 46 .

The driving unit 41 is rotatably coupled to a lower portion of one side of the base so as to be adjacent to the seating unit. That is, the driving unit is formed in the shape of a pedal and is rotatably coupled to the lower part of one side (left side in FIGS. 1 to 2) of the base so as to be adjacent to the seating part, so that when the user performs a spinning exercise using a spinning bicycle, the user can use the seating part on the seating part. In a seated state, the movement is performed while rotating the pedal of the driving unit.

The rolling part 42 is rotatably coupled to the lower part of the other side of the base part so as to be adjacent to the handle part. That is, the rolling part is formed in the shape of a flywheel or a bicycle wheel and rotates in association with the rotation of the connection part according to the driving of the driving part. The moving distance is measured and calculated by the number of rotations of the rolling part.

The connecting part 43 connects the driving part and the rolling part so that the rolling part rotates in association with the rotational driving of the driving part. That is, one side of the connection part is coupled to the driving part so that the rolling part rotates in association with the rotational driving of the driving part, and the other side is coupled to the rolling part and installed. Preferably, the connecting portion may be formed in various ways such as a chain or a belt. In addition, it can be safely and continuously used without inter-floor noise in apartments such as apartments or late movement through the ultra-low-noise belt drive method.

The cover part 44 is formed extending in the vertical direction from the driving part to the rolling part to protect the driving part, the rolling part, and the connecting part. That is, the cover part is detachably coupled to protect the driving part, the connecting part, and the rotationally driving part of the rolling part.

The fourth adjustment unit 45 is coupled to the upper portion of the other side of the base portion so as to be adjacent to the support portion to adjust the rotational force of the rolling portion. That is, the fourth adjusting unit performs a function of adjusting the intensity of the rotational driving of the rolling unit to adjust the amount of exercise according to the user's physical condition, health condition, condition, and the like. The fourth adjustment unit may use various methods such as a magnetic brake, a natural wool brake, a dual center full brake method, and the like.

The blocking part is formed in the driving part to prevent slipping. That is, the blocking part is formed on the surface of the driving part or the circumferential surface of the driving part to prevent the user's foot from coming off when the user drives the pedal of the driving part while seated on the seat, thereby preventing safety accidents in advance and improving stability and reliability. can be improved

As shown in FIG. 3 , the control unit 60 of the spinning bicycle 1 to which the Internet of Things according to the invention is applied has a sensing unit 61 , a data storage unit 62 , a confirmation unit 63 , and an analysis unit 64 . , a comparison unit 65 , and a processing unit 66 .

The sensing unit 61 is installed on the display unit and the handle unit to measure the user's heart rate and body temperature, the first sensing unit 61a, and the driving unit and the seating unit, the second sensing unit for measuring the user's exercise time and amount of exercise. (61b) is provided. That is, the sensing unit measures the user's exercise information and biometric information in real time, and transmits the measured information to the data storage unit, the analysis unit, the comparison unit, and the processing unit. In addition, the sensing unit may directly transmit the measured result to the display unit, and the transmitted heart rate, body temperature, calorie consumption, etc. may be displayed on the display unit as shown in FIG. 5 .

The data storage unit 62 stores data on heart rate, recommended exercise time, calorie consumption, and movement distance according to gender, age, height, and weight, and measurement data of the sensing unit. The data storage unit may be various storage devices such as ROM, RAM, EPROM, flash drive, hard drive, and the like, and may be web storage that performs a storage function of the data storage unit on the Internet.

The confirmation unit 63 confirms whether the user and the corresponding user start exercising through the data stored in the sensing unit and the data storage unit.

The analysis unit 64 analyzes the health state of the corresponding user according to the results of the detection unit, the data storage unit, and the confirmation unit.

The comparison unit 65 compares the analysis result of the analysis unit and the measurement data of the sensing unit with the existing data stored in the data storage unit to compare whether the user's health status has changed.

The processing unit 66 transmits the measurement data of the sensing unit, the stored data of the data storage unit, the confirmation result of the confirmation unit, the analysis result of the analysis unit, and the comparison result of the comparison unit to the display unit or to the smart phone of the corresponding user.

Therefore, the spinning bicycle to which the Internet of Things according to the present invention is applied recommends and manages the optimal spinning exercise according to the user's health condition to promote the user's health, and to continuously and immediately and in real time through the Internet of Things to prevent a user's safety accident in advance by performing a spinning exercise according to one's own health, increase the interest and fun of the spinning bike, and move through miniaturization and light weight while maintaining robustness through optimized arrangement and structure Maximize user convenience by securing and ease of installation to improve user satisfaction, reduce manufacturing costs and sales costs, and secure convenience of movement to minimize space restrictions and maximize space utilization. By maintaining a clean state during storage, it is possible to reduce the cost and time of managing individual personal sports equipment, and improve the durability and rigidity of the spinning bike, thereby improving the safety and reliability of the spinning bike.

In the spinning bicycle 1 to which the Internet of Things is applied according to an embodiment of the present invention, the spinning bicycle is installed indoors or outdoors to perform a spinning exercise, or in the process of moving to a storage place and storing it, various foreign substances such as air, sweat, and beverages, etc. exposed directly or indirectly. As such, the spinning bicycle to which the IoT is applied is used only for spinning exercise with a spinning bicycle, and when not performing a spinning exercise, it is moved to an installed place or storage place by using the guide unit to maintain the stored state for a long time. During the use of the bicycle, the user is directly exposed to the sweat discharged from the user's body during exercise, beverages the user consumes during the spinning exercise, etc. As the user's arm, upper body, or hand grips the handle part with the user's arm, upper body, or hand while seated on the part, and the part of the user's body and various components of the spinning bicycle are always in contact, hygiene and cleanliness are very important factors in maintaining the spinning bike. .

In addition, in the spinning bicycle 1 to which the Internet of Things is applied, damage or damage may occur due to collision, coupling, etc. due to the user's carelessness while the user is exercising, moving or storing the spinning bicycle.

Therefore, the antibacterial coating composition coating is applied to the spinning bicycle 1 to which the Internet of Things is applied to prevent contamination by food or sweat due to the user's carelessness when the user is using the spinning bicycle while exercising or storing the spinning bicycle without exercise. By improving the antibacterial properties of the spinning bicycle (1) to which the IoT is applied, and improving the durability of the spinning bicycle (1) to which the IoT is applied, the spinning bicycle to which the Internet of Things is applied due to a collision or impact during storage or movement It is necessary to minimize the damage or breakage of (1).

Accordingly, the spinning bicycle 1 to which the Internet of Things is applied has a fixed unit ( 10), the boarding unit 20, and the entire outer surface of the support unit 30 may be coated with an antibacterial coating composition harmless to the human body.

Anti-bacterial of the present invention includes cases described as antibacterial, and refers to blocking and inhibiting the growth of microorganisms such as bacteria, bacteria, and mites that cause asthma, eczema, and rhinitis.

Antibacterial coating composition according to an embodiment of the present invention is a carbazole-based compound represented by the following formula (1); Binder resin: organic solvent; inorganic particles and natural oils. :

[Formula 1]

(Wherein, n is an integer of 2 to 100, R ₁ is selected from the group consisting of an alkyl group having 1 to 5 carbon atoms, an alkenyl group having 2 to 5 carbon atoms, and an alkynyl group having 2 to 5 carbon atoms, R ₂ is hydrogen, - It is selected from the group consisting of OH, a halogen group and -NH ₂ .)

Preferably, the carbazole-based compound represented by Formula 1 is specifically a compound represented by Formula 2 or Formula 3 below:

[Formula 2]

[Formula 3]

(Here, n and R ₁ are the same as in Formula 1.)

Wherein R ₁ is selected from the group consisting of an alkyl group having 1 to 5 carbon atoms, an alkenyl group having 2 to 5 carbon atoms, and an alkynyl group having 2 to 5 carbon atoms, preferably selected from the group consisting of an ethylene group or a propylene group.

The carbazole-based compound represented by Formula 1 preferably has a number average molecular weight (Mn) of 2,000 to 5,000, but is not limited thereto.

The antibacterial coating composition of the spinning bicycle (1) to which the Internet of Things is applied is a fixed unit to prevent the user from sitting on a seating part and directly contacting the user's skin during the spinning exercise and from being contaminated or damaged by food or other foreign substances during storage. (10), for forming a coating layer on the entire outer surface of the boarding unit 20, and the support unit 30, 100 parts by weight of a binder resin relative to the total weight of the composition; 10 to 15 parts by weight of a carbazole-based compound; 15 to 40 parts by weight of an organic solvent; 2 to 5 parts by weight of inorganic particles; and 1 to 3 parts by weight of natural oil. Preferably, 100 parts by weight of the binder resin relative to the total weight of the composition; 12 parts by weight of a carbazole-based compound; 24 parts by weight of an organic solvent; 5 parts by weight of inorganic particles; and 2.5 parts by weight of natural oil.

When the natural oil is included in an amount of less than 1 part by weight, there is a problem that the antibacterial effect is lowered. The entire outer surface and coating layer of the fixing unit 10, the boarding unit 20, and the support unit 30 to prevent direct contact with the user's skin during exercise and to prevent contamination or damage by food or other foreign substances during storage There is a problem that the adhesion between the liver is reduced.

The carbazole-based compound and the organic solvent may be included in a weight ratio of 1:1 to 1:4. More specifically, when the carbazole-based compound is contained in an amount exceeding 1:1 in contrast to the organic solvent, the spinning bicycle 1 to which the Internet of Things is applied allows the user to sit on a seating part and apply it to the user's skin during the spinning exercise. Yellowing phenomenon when a coating layer is formed on the entire outer surface of the fixing unit 10, the boarding unit 20, and the support unit 30 to prevent direct contact and contamination or damage by food or other foreign substances during storage This may occur, and when the carbazole-based compound is included in an amount of less than 1:4 compared to the organic solvent, a problem in which the antibacterial effect is lowered occurs.

The organic solvent is selected from the group consisting of alcohol solvents, halogen-containing hydrocarbon solvents, ketone solvents, cellosolves solvents and amide solvents, and specifically, tetrahydrofurfuryl alcohol, furfuryl alcohol ( Furfuryl alcohol) and may be selected from the group consisting of isopropylideneglycerol.

More specifically, the organic solvent is for dissolving the carbazole-based compound and helping to dissolve the binder resin, the inorganic particles, and the natural oil. It may be selected from the group consisting of Tetrahydrofurfuryl alcohol, Furfuryl alcohol, and Isopropylideneglycerol.

The binder resin uses an antibacterial coating composition to apply the Internet of Things (IoT) to the spinning bicycle (1), in which the user sits on a seating part and comes in direct contact with the user's skin during the spinning exercise, and is contaminated or damaged by food or other foreign substances during storage. When forming a coating layer on the entire outer surface of the fixing unit 10, the boarding unit 20, and the support unit 30 in order to prevent It is selected from the group consisting of urethane, polysulfone and polyacrylate, specifically polyacrylate, but is not limited to the above example.

The inorganic particles are selected from the group consisting of silica particles, alumina particles, zirconium oxide particles, titanium oxide particles, antimony oxide particles, and combinations thereof, and specifically, silica particles or alumina particles, but the examples are not limited thereto.

As the inorganic particles are coated with a binder resin to give the function of suppressing the shrinkage of the coating layer, the spinning bicycle 1 to which the Internet of Things is applied is applied to the user's skin during the spinning exercise while the user is seated on the seating part. When forming a coating layer on the entire outer surface of the fixing unit 10, the boarding unit 20, and the support unit 30 to prevent direct contact and contamination or damage by food or other foreign substances during storage, the physical properties can play a role in improving it. Therefore, in order to maximize the effect of improving the physical properties, the average particle size of the inorganic particles is 100 to 200 μm, specifically, 130 to 150 μm, but is not limited to the above example. The inorganic particles are added to suppress the shrinkage of the coating layer, and when the average particle size is less than 100 μm, the effect of suppressing the shrinkage is insignificant, and when it exceeds 200 μm, the formation of the transparent coating layer may be hindered.

The natural oil is a composition for further improving the antibacterial function of the antimicrobial coating composition, and specifically, ally isothiocyanate, cinnamaldehyde, garlic oil, rosemary oil, It is selected from the group consisting of jojoba oil and carrot seed oil, preferably jojoba oil or carrot seed oil, but is not limited to the above examples.

The spinning bicycle 1 to which the Internet of Things is applied according to another embodiment of the present invention prevents the user from being directly contacted with the user's skin during the spinning exercise while seated on the seat and being contaminated or damaged by food or other foreign substances during storage. It includes an antimicrobial coating layer formed on the entire outer surface of the fixing unit 10, the boarding unit 20, and the support unit 30 to prevent the antibacterial coating layer from the antimicrobial coating composition according to the above to a thickness of 10 to 20mm. is formed

More specifically, the spinning bicycle 1 to which the Internet of Things is applied through self-correction without photoshop is that the user is seated on a seating part and comes in direct contact with the user's skin during the spinning exercise, and is contaminated or damaged by food or other foreign substances during storage. It includes an antibacterial coating layer formed on the entire outer surface of the fixing unit 10, the boarding unit 20, and the support unit 30 to prevent it, the antibacterial coating layer comprising: a carbazole-based compound represented by the following Chemical Formula 1; binder resin; Organic solvent: can be formed into an antimicrobial coating composition comprising inorganic particles and a natural oil:

[Formula 1]

(Wherein, n is an integer of 2 to 100, R1 is selected from the group consisting of an alkyl group having 1 to 5 carbon atoms, an alkenyl group having 2 to 5 carbon atoms, and an alkynyl group having 2 to 5 carbon atoms, R2 is hydrogen, -OH, It is selected from the group consisting of a halogen group and -NH2.)

Specifically, the carbazole-based compound represented by Formula 1 has a number average molecular weight (Mn) of 2,000 to 5,000, but is not limited thereto.

The antibacterial coating layer is formed by the antibacterial coating composition, a transparent coating layer, is formed to a thickness of 10 to 20mm, specifically, it may be formed to a thickness of 13 to 15mm. When the thickness of the coating layer is less than 10mm, there is a problem that the antibacterial function is lowered, and when it exceeds 20mm, there is a problem in that economical efficiency is lowered.

The antibacterial coating composition according to the present invention prevents the user from being in direct contact with the user's skin during the spinning exercise by sitting on the seating part of the spinning bicycle 1 to which the Internet of Things is applied, and from being contaminated or damaged by food or other foreign substances during storage. In order to do this, by forming a coating layer on the entire outer surface of the fixing unit 10, the boarding unit 20, and the support unit 30, it is possible to block and inhibit the propagation of microorganisms such as bacteria, bacteria, mites, etc., and for 1 month It can block and inhibit the growth of microorganisms continuously for 3 months.

In addition, the antibacterial coating composition according to the present invention is a spinning bicycle (1) to which the Internet of Things is applied, in which the user is seated on a seating portion and directly in contact with the user's skin during the spinning exercise, and is contaminated or damaged by food or other foreign substances during storage. In order to prevent this, the physical properties of the entire outer surface of the fixing unit 10 , the boarding unit 20 , and the support unit 30 may be improved.

[Preparation Example 1: Preparation of antibacterial coating composition]

Example 1 Example 2 Example 3 Example 4 Example 5 Carbazole compounds 12 15 10 12 12 polyacrylate 100 100 100 100 100 tetrahydroperuryl alcohol 24 15 40 - 24 furfuryl alcohol - - - 24 - silica particles 5 5 5 5 5 carrot seed oil 2.5 2.5 2.5 2.5 - jojoba oil - - - - 2.5

Comparative Example 1 Comparative Example 2 Comparative Example 3 Comparative Example 4 Carbazole compounds 20 12 12 12 polyacrylate 100 100 100 100 tetrahydroperuryl alcohol 10 - 24 24 methanol - 24 - - silica particles 5 5 5 - Silica particles (average particle size 50 μm) - - - 5 carrot seed oil 2.5 2.5 - 2.5 castor oil - - 2.5 -

(Unit: parts by weight) The carbazole-based compounds of Tables 1 and 2 are compounds represented by the following Chemical Formula 4, and the average particle size of the silica particles is 135 μm: [Formula 4]

(Here, n is an integer from 2 to 100.)

[Preparation Example 2: Preparation of a cooking vessel having a double structure with a coating layer formed]

A coating layer was formed on one surface of a polyethylene (PE) substrate to a thickness of 13 mm using the coating compositions of Examples 1 to 5 and Comparative Examples 1 to 4

[Experimental Example 1: Antibacterial experiments of Examples and Comparative Examples]

E. coli was inoculated into the packaging material on which the coating layer was formed with the coating composition of Example 1 and Comparative Examples 1 to 3, and the concentration of the bacteria was measured after 24 hours.

Initial concentration (CFU/mL) Concentration after 24 hours (CFU/mL) Antibacterial activity (log) Bacterial reduction rate (%) Example 1 1.00× ^{10 5} <2 5.82 99.99 Comparative Example 1 1.00× ^{10 5} 3.32×10 ³ - - Comparative Example 2 1.00× ^{10 5} 8.10×10 ² - - Comparative Example 3 1.00× ^{10 5} 5.62×10 ² - -

(CFU is a conceptual representation of the number of bacteria) As shown in Table 3 above, Example 1 showed a 99.99% reduction in bacteria by decreasing the concentration of E. coli after 24 hours, whereas Comparative Examples 1 to 3 were E. coli Although the concentration of was partially decreased, it was confirmed that the antibacterial effect fell compared to the Example.

[Experimental Example 2: Experiments on physical properties of Examples and Comparative Examples]

1) Pencil hardness

According to the measurement standard J IS K5400 using a pencil hardness tester, the maximum hardness without grooves was confirmed after reciprocating three times at a load of 750 g at an angle of 45 degrees.

2) Transmittance and Haze

Transmittance and haze were measured using a spectrophotometer (device name: COH-400).

3) Flexural test

After each inner body part, outer body part or heat preservation part on which the coating layer was formed was wrapped around a cylindrical mandrel of various diameters, the minimum diameter at which cracks do not occur was measured.

Pencil hardness (750 gf) Transmittance (%) Haze (%) Flexural test (Φ, mm) Example 1 3H 93.2 0.4 6 Example 2 3H 90.2 0.6 6 Example 3 3H 91 0.7 6 Example 4 3H 91.4 0.5 6 Example 5 3H 92.3 0.5 6 Comparative Example 4 H 92.3 0.4 3

According to Table 4, it was confirmed that Examples 1 to 5 according to an embodiment of the present invention had excellent physical property evaluation results, but in Comparative Example 4, it was confirmed that they were inferior to Examples 1 to 5 in hardness and flexural tests. did.

In the detailed description of the present invention described above, although it has been described with reference to preferred embodiments of the present invention, those skilled in the art or those having ordinary skill in the art will It will be understood that various modifications and variations of the present invention can be made without departing from the spirit and scope of the present invention. Accordingly, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

1: Spinning Bike
10: fixed unit
11: first fixing part
12: second fixing part
13: base part
14: guide part
15: first adjustment unit
20: boarding unit
21: bridge part
22: seating part
23: second adjustment unit
30: support unit
31: support part
32: handle part
33: third control unit
40: drive unit
41: drive unit
42: rolling part
43: connection
44: cover part
45: fourth adjustment unit
46: blocking part
50: display unit
60: control unit
61: sensing unit
62: data storage unit
63: confirmation unit
64: analysis unit
65: comparison unit
66: processing unit

Claims (5)

a fixing unit that is fixedly installed on the ground or floor indoors or outdoors;
a boarding unit that is coupled and installed to one side of the fixed unit so as to allow a user to board;
a support unit installed on the other side of the fixing unit to be vertically adjustable while facing the boarding unit to support a user's upper body load or arm;
a driving unit rotatably coupled and installed to the fixing unit so as to be positioned below the boarding unit and the support unit in the fixing unit;
a display unit coupled and installed to the fixing unit so as to be adjacent to the support unit; and
Including; a control unit for controlling the operation of the drive unit;
The control unit analyzes the user's health status according to the user's exercise information and biometric information, further performs the user's health data management through the Internet of Things according to the user's health condition analysis data, and displays the user's health data to the display unit A spinning bike equipped with IoT, characterized in that it is displayed on.
According to claim 1,
The fixed unit is
a first fixing part extending in a horizontal direction and fixedly disposed on the ground or floor indoors or outdoors;
a second fixing part extending in a horizontal direction and fixedly disposed on the ground or floor indoors or outdoors so as to face each other in a vertical direction and parallel to the first fixing part;
a base portion having one end coupled to the first fixing portion and the other end coupled to the second fixing portion to extend in a U-shape;
a guide part installed to be detachably attached to the first fixing part and rotatably coupled to guide the movement of the fixing unit; and
The spinning bicycle to which the Internet of Things is applied, comprising: a first adjusting unit coupled to the first fixing part and the second fixing part, respectively, to adjust the height of the first fixing part and the second fixing part; .
3. The method of claim 2,
The boarding unit is
a bridge portion extending in a height direction from one side of the base portion;
a seating part coupled to one end of the bridge part so as to be able to move up and down; and
A second adjustment unit coupled to the bridge unit to adjust the height of the seating unit; includes,
The support unit is
a support portion extending in the height direction from the other side of the base portion;
a handle part that is slidably coupled to one end of the support part; and
A spinning bicycle to which the Internet of Things is applied, characterized in that it includes a; a third adjustment unit coupled to the support unit and configured to adjust the height of the handle unit.
4. The method of claim 3,
The driving unit is
a driving unit rotatably coupled to a lower portion of one side of the base unit so as to be adjacent to the seating unit;
a rolling part rotatably coupled to the lower part of the other side of the base part so as to be adjacent to the handle part;
a connection part connecting the driving part and the rolling part so that the rolling part rotates in association with the rotational driving of the driving part;
a cover part extending vertically from the driving part to the rolling part to protect the driving part, the rolling part, and the connecting part;
a fourth adjustment unit coupled to the upper portion of the other side of the base unit to adjust the rotational force of the rolling unit so as to be adjacent to the support unit; and
A spinning bicycle to which the Internet of Things is applied, characterized in that it comprises; a blocking unit formed in the driving unit to prevent slipping.
5. The method of claim 4,
The control unit is
a sensing unit having a first sensing unit installed on the display unit and the handle unit to measure a user's heart rate and body temperature, and a second sensing unit installed on the driving unit and the seating unit to measure a user's exercise time and exercise amount;
a data storage unit for storing data on heart rate, recommended exercise time, calorie consumption, and moving distance according to gender, age, height, and weight, and measurement data of the sensing unit;
a check unit for confirming whether the user and the corresponding user start exercising through the sensing unit and the data stored in the data storage unit;
an analysis unit that analyzes the health state of the user according to the detection result of the sensing unit, the data storage unit, and the verification unit;
a comparison unit that compares the analysis result of the analysis unit and the measurement data of the sensing unit with existing data stored in the data storage unit to compare whether the user's health status has changed; and
A processing unit for transmitting the measurement data of the sensing unit, the stored data of the data storage unit, the confirmation result of the confirmation unit, the analysis result of the analysis unit, and the comparison result of the comparison unit to the display unit or to the smart phone of the user. A spinning bike equipped with the Internet of Things, characterized in that

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