KR102310440B1 - Apparatus for beam floor drawing - Google Patents

Abstract

Disclosed are a beam floor drawing apparatus and method for controlling an environment in a beam floor drawing box using biometric information of a user and determining and changing a guide line program. A beam floor drawing apparatus according to an embodiment includes: a user sensor unit for generating biometric information by measuring at least one of a user's body temperature and pulse; an environmental control unit including at least one of an air conditioner and a lighting controller; a beam output unit for outputting a fitness guide line using a beam; and a controller that receives biometric information from the user sensor unit and controls an environment controller and a beam output unit based on the biometric information.

Description

Beam floor drawing device {APPARATUS FOR BEAM FLOOR DRAWING}

As a technology for a beam floor drawing apparatus, in particular, it relates to a beam floor drawing apparatus and method for controlling an environment in a beam floor drawing box using biometric information of a user and determining and changing a guide line program.

Recently, users have many restrictions on exercise time and place due to environmental pollution and heavy work. Accordingly, a variety of home exercise equipment has been developed and distributed so that exercise can be easily performed at home.

However, these home exercise equipments provide exercise information to the user, determine whether the user performs exercise correctly according to the exercise information provided, and cannot change the exercise environment or exercise program in consideration of the user's biological state.

In order to solve this problem, the present invention proposes a method of controlling the environment of a place where a beam floor drawing apparatus that provides an exercise guideline to a user using a beam receives the user's biometric information to perform an exercise.

An object of the present invention is to provide a beam floor drawing apparatus and method for controlling an environment in a beam floor drawing box and determining and changing a guide line program by using a user's biometric information.

According to one aspect, the beam floor drawing apparatus includes: a user sensor unit for generating biometric information by measuring at least one of a user's body temperature and pulse; an environmental control unit including at least one of an air conditioner and a lighting controller; a beam output unit for outputting a fitness guide line using a beam; and a controller that receives biometric information from the user sensor unit and controls an environment controller and a beam output unit based on the biometric information.

The controller may generate an air control signal for controlling at least one of temperature and humidity based on the biometric information and transmit it to the environment controller.

When the user's body temperature is below a predetermined temperature or the user's pulse is below a predetermined speed, the control unit generates an air control signal for maintaining at least one of temperature and humidity in the first air conditioning state, and when the user's body temperature is above the predetermined temperature or the user When the pulse rate of is greater than or equal to a predetermined speed, an air control signal for setting at least one of temperature and humidity to the second air conditioning state is generated, and the second air conditioning state is a state in which at least one of temperature and humidity is lower than that of the first air conditioning state can

The control unit compares at least one of the user's body temperature and pulse at the time when the air control signal for setting the second air conditioning state is transmitted to the environment control unit and when a predetermined time has elapsed, and the user's body temperature when the predetermined time has elapsed and when at least one of the pulses rises from the transmitted time point, an air control signal for setting at least one of temperature and humidity to a third air conditioning state is generated, wherein the third air conditioning state is at least one of temperature and humidity than the second air conditioning state. One may be in a low state.

The controller may generate a lighting control signal for controlling at least one of brightness and color of lighting based on the biometric information and transmit it to the environment controller.

When the user's body temperature is below a predetermined temperature or the user's pulse is below a predetermined speed, the control unit controls the color of the lighting to increase in red, and when the user's body temperature is above a predetermined temperature or the user's pulse is above a predetermined speed, the light is illuminated You can control the color to increase the blue series.

The beam floor drawing apparatus may further include a storage unit for storing one or more guide line program data classified on the basis of at least one of purpose and difficulty level, and the control unit determines at least one of the user's physical condition, exercise purpose, and skill level. Accordingly, any one of the one or more guide line program data may be determined, and the beam output unit may be controlled to output a fitness guide line based on the determined guide line program data.

The control unit may generate guide information for guiding a user's motion that changes at a predetermined speed based on the determined guide line program data, and may control the beam output unit to output the guide information.

The control unit may change a predetermined speed at which the user's motion changes based on the biometric information, and may decrease the predetermined speed at which the user's motion changes when the user's body temperature is above a predetermined temperature or the user's pulse is above a predetermined speed.

The beam floor drawing apparatus may further include a sound output unit for generating a sound, and the controller controls the sound output unit to output a sound for guiding the user's operation based on the determined guide line program data, and the user's body temperature is at a predetermined temperature. When it is abnormal or when the user's pulse is equal to or higher than a predetermined speed, a sound for guiding the user's motion may be controlled so that the speed of the user's motion is reduced.

According to another aspect, the beam floor drawing apparatus may include: a communication unit configured to communicate with at least one of a wearable device, an air conditioning device, and a lighting device; a storage unit for storing one or more guide line program data classified on the basis of at least one of purpose and difficulty; a beam output unit for outputting a fitness guide line using a beam; and a control unit that communicates with at least one of a wearable device, an air conditioning device, and a lighting device through a communication unit, wherein the control unit receives the user's biometric information from the wearable device through the communication unit, and the biometric information and guideline stored in the storage unit At least one of the air conditioner, the lighting device, and the beam output unit may be controlled based on at least one of the program data.

By controlling the environment in the beam floor drawing box using the user's biometric information, the user can exercise in a more comfortable environment. In addition, it can help to stably maintain the user's physical condition through environmental control.

By using the user's biometric information to determine and change the guideline program, it is possible to present the appropriate exercise type and difficulty according to the user's physical condition.

1 is a configuration diagram of a beam floor drawing apparatus according to an embodiment.
2 is an exemplary view for explaining the operation of the beam floor drawing apparatus according to an example.
3 is a block diagram of a beam floor drawing apparatus according to another embodiment.
4 is a configuration diagram of a beam floor drawing apparatus according to another embodiment.
5 is a flowchart illustrating a method of a beam floor drawing apparatus according to an embodiment.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Advantages and features of the present invention, and a method for 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 published below, but may be implemented in various different forms, and only these embodiments allow the publication of the present invention to be complete, and common knowledge in the art to which the present invention pertains. It is provided to fully inform the possessor 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.

Unless otherwise defined, all terms (including technical and scientific terms) used herein may be used with the meaning commonly understood by those of ordinary skill in the art to which the present invention belongs. In addition, terms defined in a commonly used dictionary are not to be interpreted ideally or excessively unless clearly defined in particular. The terminology used herein is for the purpose of describing the embodiments and is not intended to limit the present invention. As used herein, the singular also includes the plural unless specifically stated otherwise in the phrase.

1 is a configuration diagram of a beam floor drawing apparatus according to an embodiment.

Referring to FIG. 1 , the beam floor drawing apparatus 100 may include a user sensor unit 110 , an environment control unit 120 , a beam output unit 130 , and a control unit 140 .

According to an example, the user sensor unit 110 may generate biometric information by measuring at least one of the user's body temperature and pulse. For example, the user sensor unit 110 may be a wearable device. For example, the user sensor unit 110 may include at least one of a temperature sensor for measuring body temperature and a pressure sensor or a pulse wave sensor for measuring a pulse. For example, the user sensor unit 110 may be connected to the control unit 140 through wireless communication. For example, the user sensor unit 110 may transmit biometric information measured at a predetermined period to the control unit 140 .

According to an example, the environment controller 120 may include at least one of an air conditioner and a lighting controller. For example, the air conditioner may control the temperature and humidity of the air. For example, the lighting controller may include one or more lights and control brightness and color of the lights.

According to an example, the beam output unit 130 may output a fitness guideline using a beam. For example, the beam output unit 130 may include one or more beam projectors. The beam output unit 130 may output a fitness guideline based on a signal received from the control unit 140 .

As an example, the fitness guideline may be standard motion information that helps the user exercise. For example, the fitness guideline may include at least one of a position where the user should step on or put on his/her hand while exercising, and an order on which the user should step on or put his/her hand on.

For example, referring to FIG. 2 , the beam output unit 130 may output one or more predetermined images 201 , 202 , 203 , 204 , 205 indicating the position and order in which the user should step while exercising. can

As an example, the beam output unit 130 may display the image 202 so that the user can know the location where the user should step on his/her foot or place his/her hand at a specific point in time. For example, as shown in FIG. 2 , when the order in which the user should step on his/her foot at the present time is the second position, the image 202 to be stepped on is selected as the other images 201 , 203 , 204 , and 205 . It can be displayed using a different color so that it can be distinguished from it. For another example, if the order in which the user must step on the current position is the second position, the beam output unit 130 may be distinguished from other images by adding other characters, symbols, or images to the image to be stepped on. can be displayed so that For example, the beam output unit 130 may display a square on the image 202 to be stepped on so that the user can distinguish it from other images.

According to an embodiment, the controller 140 may receive biometric information from the user sensor unit 110 and control the environment controller 120 and the beam output unit 130 based on the biometric information.

For example, the biometric information may be information on at least one of a user's body temperature and pulse.

For example, the controller 130 may generate an air control signal for controlling at least one of temperature and humidity based on the biometric information and transmit it to the environment controller 120 .

For example, when the user's body temperature is below a predetermined temperature or the user's pulse is below a predetermined speed, the controller 140 may generate an air control signal for maintaining at least one of temperature and humidity in the first air conditioning state. . For example, when the user's body temperature is below a predetermined temperature or the user's pulse is below a predetermined speed, the controller 140 may determine that the user's physical condition is within an appropriate range. Accordingly, the controller 140 may control the environment controller 120 by using preset first air conditioning state information in order to control the temperature and humidity in a state suitable for the user to exercise.

As another example, the controller 140 may generate an air control signal for setting at least one of temperature and humidity to the second air conditioning state when the user's body temperature is greater than or equal to a predetermined temperature or the user's pulse is greater than or equal to a predetermined speed. . For example, when the user's body temperature is greater than or equal to a predetermined temperature or the user's pulse is greater than or equal to a predetermined speed, the controller 140 may determine that the user's physical condition is out of an appropriate range. Accordingly, the controller 140 may control the environment controller 120 by using preset second air conditioning state information to lower the user's body temperature or slow the pulse. In this case, the second air conditioning state may be a state in which at least one of temperature and humidity is lower than that of the first air conditioning state.

According to an example, the control unit 140 may compare at least one of the user's body temperature and pulse at a time point when an air control signal for setting the second air conditioning state is transmitted to the environment control unit and a time point when a predetermined time elapses. For example, even when the controller 140 transmits an air control signal, a certain time is required for the temperature or humidity to change to the second air conditioning state, and the user's body temperature or humidity is affected by the temperature or humidity of the second air conditioning state. Additional time may be required for the pulse to change. Accordingly, the controller 140 may transmit an air control signal and monitor the user's body temperature or pulse after a predetermined time or for a predetermined time, and may generate an additional control signal according to a change in the user's body temperature or pulse.

According to an example, when at least one of the user's body temperature and pulse is higher than the transmitted time point when a predetermined time elapses, the controller 140 controls the air to set at least one of temperature and humidity to the third air conditioning state. signal can be generated. For example, in the second air conditioning state, if the user's body temperature or pulse is continuously greater than or equal to a predetermined value, or if the user's body temperature or pulse is higher than before, additional measures may be required. Accordingly, the controller 140 may generate an air control signal for additionally controlling the air conditioning state and transmit it to the environment controller 120 . In this case, the third air conditioning state may be a state in which at least one of temperature and humidity is lower than that of the second air conditioning state.

According to an embodiment, the controller 140 may generate a lighting control signal for controlling at least one of brightness and color of lighting based on biometric information and transmit it to the environment controller 120 .

As an example, when the user's body temperature is below a predetermined temperature or the user's pulse is below a predetermined speed, the controller 140 may generate a lighting control signal for controlling the color of lighting to increase in red. For example, when the user's body temperature is below a predetermined temperature or the user's pulse is below a predetermined speed, the controller 140 may determine that the user's physical condition is within an appropriate range. Accordingly, the controller 140 may generate a lighting control signal to increase the red light in order to increase the user's exercise activity.

For another example, when the user's body temperature exceeds a predetermined temperature or the user's pulse exceeds a predetermined speed, the controller 140 may generate a lighting control signal for controlling the color of the lighting to increase in blue. . For example, when the user's body temperature is greater than or equal to a predetermined temperature or the user's pulse is greater than or equal to a predetermined speed, the controller 140 may determine that the user's physical condition is out of an appropriate range. Accordingly, the controller 140 may generate a lighting control signal to increase the blue light in order to lower the user's body temperature or slow the pulse.

3 is a block diagram of a beam floor drawing apparatus according to an embodiment.

Referring to FIG. 3 , the beam floor drawing apparatus 300 includes a user sensor unit 310 , an environment control unit 320 , a beam output unit 330 , a control unit 140 , a storage unit 350 , and a sound output unit 360 . ) may be included.

According to an example, the user sensor unit 310 may measure at least one of the user's body temperature and pulse to generate biometric information. For example, the user sensor unit 110 may be a wearable device.

According to an example, the environment controller 320 may include at least one of an air conditioner and a lighting controller. For example, the air conditioner may control the temperature and humidity of the air.

According to an example, the beam output unit 330 may output a fitness guideline using a beam. For example, the beam output unit 330 may include one or more beam projectors.

According to an example, the storage unit 350 may store one or more guide line program data classified based on at least one of purpose and difficulty level. For example, the guide line program may be a guide line program classified by purpose, such as a line for basic exercise, a line for rehabilitation exercise, and a line for cognitive exercise. As another example, the guideline program may be a guideline program classified by difficulty so as to be utilized according to the user's age, physical condition, exercise purpose, and exercise skill level.

According to an example, the controller 340 may determine any one of one or more guideline program data according to at least one of the user's physical condition, exercise purpose, and proficiency level. For example, when a user exercises to heal an injury, the controller 340 may select a guideline program for rehabilitation exercise. As another example, when the user uses the guideline program for the first time, a guideline program having a low difficulty may be selected. For example, the controller 340 may change the difficulty level of the guideline program in consideration of the user's state during exercise. Thereafter, the controller 340 may control the beam output unit 330 to output a fitness guideline based on the determined guideline program data.

According to an example, the controller 340 may generate guide information for guiding a user's motion changing at a predetermined speed based on the determined guide line program data.

Referring to FIG. 2 , the controller 340 may control the beam output unit 130 to output a guide line including one or more images 201 , 202 , 203 , 204 , and 205 . In this case, the controller 340 may generate guide information for guiding which image the user should step on among one or more images at a specific point in time and inform the user. For example, an operation may be guided to the user by expressing it in a color different from other images, such as the second image 202 .

For example, the controller 340 may generate guide information so that the user can exercise at a predetermined speed. For example, when the guide line program is set to repeat steps 1 to 5 in sequence, the controller 340 sequentially controls the first image 201 to the fifth image at a first speed according to the guide line program. Up to (205) colors can be changed. For example, the controller 340 may change the image to be stepped on every 2 seconds.

According to an example, the controller 340 may change a predetermined speed at which the user's motion changes based on the biometric information. For example, when the user's body temperature is less than a predetermined temperature or the user's pulse is less than a predetermined speed, the controller 340 may increase the predetermined speed at which the user's motion changes in order to increase the user's exercise effect. For example, the controller 340 may increase the user's exercise speed by changing the period of changing the image to be stepped from 2 seconds to 1 second.

As another example, when the user's body temperature is greater than or equal to a predetermined temperature or the user's pulse is greater than or equal to a predetermined speed, the controller 340 may decrease the predetermined speed at which the motion changes in order to stabilize the user's body. For example, the controller 340 may reduce the user's exercise speed by changing the period in which the image to be stepped on is changed from 2 seconds to 3 seconds.

According to an example, the sound output unit 360 may include one or more speakers for generating sound.

According to an example, the control unit 340 may control the sound output unit 360 to output a sound for guiding a user's operation based on the guide line program data. For example, when the guide line program is a program for allowing the user to step on images 1 to 5 as shown in FIG. 2 , the controller 340 provides guide information for guiding which image to step on at a specific time. can create For example, in the case of stepping on the second image 202 , the controller 340 may control the sound output unit 360 to generate a sound called 'No.2'.

For example, the controller 340 may generate guide information so that the user can exercise at a predetermined speed. For example, when the guide line program is set to repeat steps 1 to 5 in sequence, the controller 340 sequentially controls the first image 201 to the fifth image at a first speed according to the guide line program. The sound output unit 360 may be controlled to generate a sound indicating up to 205 . For example, the controller 340 may control the sound output unit 360 to generate a sound indicating an image to be stepped on every 2 seconds.

According to an example, the controller 340 may change a predetermined speed at which the user's motion changes based on the biometric information. For example, when the user's body temperature is below a predetermined temperature or the user's pulse is below a predetermined speed, the controller 340 may increase the predetermined speed at which the user's motion changes in order to increase the user's exercise effect. For example, the controller 340 may increase the user's exercise speed by changing the period of changing the image to be stepped from 2 seconds to 1 second.

As another example, when the user's body temperature is greater than or equal to a predetermined temperature or the user's pulse is greater than or equal to a predetermined speed, the controller 340 may decrease the predetermined speed at which the motion changes in order to stabilize the user's body. For example, the controller 340 may reduce the user's exercise speed by changing the period in which the image to be stepped on is changed from 2 seconds to 3 seconds.

4 is a block diagram of a beam floor drawing apparatus according to an embodiment.

Referring to FIG. 4 , the beam floor drawing apparatus 400 may include a communication unit 410 , a storage unit 420 , a beam output unit 430 , and a control unit 440 .

According to an example, the communication unit 410 may communicate with at least one of the wearable device 450 , the air conditioning device 460 , and the lighting device 470 . For example, the communication unit 410 may perform communication using different communication methods when communicating with each device. For example, the communication unit 410 may communicate with the wearable device 450 using a Wi-Fi or Bluetooth communication method. For another example, the communication unit 410 may communicate with the air conditioner 460 using Wi-Fi or infrared communication method. For another example, the communication unit 410 may be connected to the lighting device by wire to transmit an on/off signal of the lighting.

According to an example, the beam output unit 430 may output a fitness guideline using a beam. For example, the beam output unit 430 may include one or more beam projectors.

According to an example, the storage unit 420 may store one or more guide line program data classified based on at least one of a purpose and a difficulty level.

According to an example, the control unit 440 may receive the user's biometric information from the wearable device through the communication unit 410 . For example, the wearable device 450 may include at least one of a temperature sensor for measuring body temperature and a pressure sensor or a pulse wave sensor for measuring a pulse. For example, the wearable device 450 may transmit biometric information measured at a predetermined period to the controller 440 through the communication unit 410 .

According to an example, the controller 440 may be configured to control at least one of the air conditioner 460 , the lighting device 470 , and the beam output unit 430 based on at least one of biometric information and guide line program data stored in the storage unit 420 . You can control one.

For example, the air conditioner 460 may control the temperature and humidity of air. For example, the lighting device 470 may include one or more lights, and may control brightness and color of the lights.

According to an example, the beam output unit 430 may output a fitness guideline using a beam. For example, the beam output unit 430 may include one or more beam projectors. The beam output unit 430 may output a fitness guideline based on a signal received from the control unit 440 .

According to an example, the controller 440 may generate an air control signal for controlling at least one of temperature and humidity based on the biometric information and transmit it to the air conditioner 460 . For example, when the user's body temperature is below a predetermined temperature or the user's pulse is below a predetermined speed, the control unit 440 generates an air control signal for maintaining at least one of temperature and humidity in the first air conditioning state to generate the air conditioning device 460 . ) can be sent to As another example, when the user's body temperature is greater than or equal to a predetermined temperature or the user's pulse is greater than or equal to a predetermined speed, the controller 440 generates an air control signal for setting at least one of temperature and humidity to the second air conditioning state to generate the air conditioning device 460 . ) can be sent to

According to an example, the controller 440 may generate a lighting control signal for controlling at least one of brightness and color of lighting based on biometric information and transmit it to the lighting device 470 . For example, when the user's body temperature is below a predetermined temperature or the user's pulse is below a predetermined speed, the controller 440 controls the color of the lighting to increase in a red color, and the user's body temperature is above a predetermined temperature or the user's pulse is When the speed is greater than or equal to a predetermined speed, the lighting device 470 may be controlled to increase the blue color of the lighting.

Hereinafter, content that overlaps with the content described with reference to FIGS. 1 to 3 during the operation of the controller 440 will be omitted.

5 is a flowchart illustrating a method of a beam floor drawing apparatus according to an embodiment.

Referring to FIG. 5 , the beam floor drawing apparatus may receive the user's biometric information from the wearable device ( 510 ). For example, the biometric information may be information on at least one of a user's body temperature and pulse. For example, the biometric information may be received at a predetermined period.

According to an example, the beam floor drawing apparatus may generate an environment control signal based on the biometric information ( 520 ).

For example, the beam floor drawing apparatus may generate an air control signal for controlling at least one of temperature and humidity based on biometric information. For example, the beam floor drawing apparatus may generate an air control signal for maintaining at least one of temperature and humidity in the first air conditioning state when the user's body temperature is below a predetermined temperature or the user's pulse is below a predetermined speed. . For another example, the beam floor drawing apparatus may generate an air control signal for setting at least one of temperature and humidity to the second air conditioning state when the user's body temperature is greater than or equal to a predetermined temperature or the user's pulse is greater than or equal to a predetermined speed .

According to an example, the beam floor drawing apparatus may compare at least one of the user's body temperature and pulse at a time point when an air control signal for setting the second air conditioning state is transmitted to the environment control unit and a time point when a predetermined time elapses. Thereafter, the beam floor drawing apparatus may transmit an air control signal and monitor the user's body temperature or pulse after a predetermined time or for a predetermined time, and may generate an additional control signal according to a change in the user's body temperature or pulse.

According to an example, the beam floor drawing apparatus may generate a lighting control signal for controlling at least one of brightness and color of lighting based on biometric information. For example, when the user's body temperature is below a predetermined temperature or the user's pulse is below a predetermined speed, the beam floor drawing apparatus may generate a lighting control signal for controlling the color of lighting to increase in red. For another example, the beam floor drawing apparatus may generate a lighting control signal for controlling the color of lighting to increase in blue when the user's body temperature is greater than or equal to a predetermined temperature or the user's pulse is greater than or equal to a predetermined speed.

According to an example, the beam floor drawing apparatus may generate a beam control signal ( 530 ). For example, the beam floor drawing apparatus may determine any one of one or more guideline program data according to at least one of the user's physical condition, exercise purpose, and proficiency level, and may determine a fitness guideline based on the determined guideline program data. A beam control signal may be generated to output.

For example, the beam floor drawing apparatus may generate guide information for guiding a user's motion changing at a predetermined speed based on the determined guide line program data. Also, the beam floor drawing apparatus may change a predetermined speed at which the user's motion changes based on the biometric information.

Although embodiments of the present invention have been described with reference to the accompanying drawings, those of ordinary skill in the art to which the present invention pertains can realize that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. you will be able to understand Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive.

Although terms such as first and second are used in this specification to describe various areas and concepts, these areas and concepts should not be limited by these terms. These terms are only used to distinguish one realm or concept from another. Accordingly, a part referred to as the first part in one embodiment may be referred to as the second part in another embodiment.

100: beam floor drawing device 110: user sensor unit
120: environmental control unit 130: beam output unit
140: control unit 300: beam floor drawing device
310: user sensor unit 320: environment control unit
330: beam output unit 340: control unit
350: storage unit 360: sound output unit
400: beam floor drawing device 410: communication unit
420: storage unit 430: beam output unit
440: control unit 450: wearable device
460: air conditioning device 470: lighting device

Claims (11)

a user sensor unit for generating biometric information by measuring at least one of a user's body temperature and pulse;
an environmental control unit including at least one of an air conditioner and a lighting controller;
a beam output unit for outputting a fitness guide line using a beam;
a storage unit for storing one or more guide line program data classified on the basis of an exercise purpose; and
a control unit receiving the biometric information from the user sensor unit and controlling the environment control unit, the beam output unit, and the storage unit based on the biometric information; including,
The control unit is
When the user's body temperature is below the first predetermined temperature or the user's pulse is below the first predetermined speed, the color of the lighting is controlled to increase in red, or the user's body temperature exceeds the first predetermined temperature or the user When the pulse rate of is greater than the first predetermined speed, a light control signal for controlling the color of the light to increase in a blue series is generated and transmitted to the environment control unit,
Determining any one of the one or more guideline program data according to at least one of the user's physical condition, exercise purpose, and skill level,
generating guide information for guiding a user's motion changing at a predetermined speed based on the determined guide line program data, and controlling the beam output unit to output the guide information;
When the user's body temperature is greater than or equal to a second predetermined temperature or the user's pulse is greater than or equal to a second predetermined speed, the beam is configured to output the guide information obtained by reducing only the predetermined speed while maintaining the guideline program data as the basis. control the output,
When the user's body temperature is less than the second predetermined temperature or the user's pulse is less than the second predetermined speed, the guide line program data as the basis is maintained and the guide information increased only by the predetermined speed is output. A beam floor drawing device for controlling the beam output unit. The method of claim 1,
the control unit
A beam floor drawing apparatus for generating an air control signal for controlling at least one of temperature and humidity based on the biometric information and transmitting the generated air control signal to the environment control unit. 3. The method of claim 2,
the control unit
When the user's body temperature is less than or equal to a third predetermined temperature or the user's pulse is less than or equal to a third predetermined speed, generating an air control signal for maintaining at least one of the temperature and humidity in a first air conditioning state,
When the user's body temperature is equal to or greater than the third predetermined temperature or the user's pulse is greater than or equal to the third predetermined speed, an air control signal is generated for setting at least one of the temperature and the humidity to the second air conditioning state,
The second air conditioning state is a state in which at least one of the temperature and the humidity is lower than that of the first air conditioning state, the beam floor drawing apparatus. 4. The method of claim 3,
the control unit
At least one of the user's body temperature and pulse is compared at the time when the air control signal for setting the second air conditioning state is transmitted to the environment control unit and when a predetermined time has elapsed, and when the predetermined time has elapsed, the generating an air control signal for setting at least one of the temperature and humidity to a third air-conditioning state when at least one of the user's body temperature and pulse rises from the transmitted time point;
The third air-conditioning state is a state in which at least one of the temperature and the humidity is lower than that of the second air-conditioning state, the beam floor drawing apparatus. delete delete delete delete delete The method of claim 1,
a sound output unit for generating sound; further comprising,
the control unit
Controls the sound output unit to output a sound for guiding the user's operation based on the determined guide line program data,
When the user's body temperature is greater than or equal to a fourth predetermined temperature or the user's pulse is greater than or equal to a fourth predetermined speed, controlling a sound for guiding the user's movement so that the speed of the user's operation is reduced. a communication unit configured to communicate with at least one of a wearable device, an air conditioning device, and a lighting device;
a storage unit for storing one or more guide line program data classified on the basis of an exercise purpose;
a beam output unit for outputting a fitness guide line using a beam; and
The user's biometric information is received from the wearable device through the communication unit, and based on at least one of the biometric information and guide line program data stored in the storage unit, at least one of the air conditioner, the lighting device, and the beam output unit to control, a control unit; including,
The control unit is
When the user's body temperature is below the first predetermined temperature or the user's pulse is below the first predetermined speed, the color of the lighting is controlled to increase in red, or the user's body temperature exceeds the first predetermined temperature or the user When the pulse rate of is greater than the first predetermined speed, a lighting control signal is generated and transmitted to the lighting device to control the color of the lighting so that the blue series increases,
Determining any one of the one or more guideline program data according to at least one of the user's physical condition, exercise purpose, and skill level,
generating guide information for guiding a user's motion changing at a predetermined speed based on the determined guide line program data, and controlling the beam output unit to output the guide information;
When the user's body temperature is greater than or equal to a second predetermined temperature or the user's pulse is greater than or equal to a second predetermined speed, the beam is configured to output the guide information obtained by reducing only the predetermined speed while maintaining the guideline program data as the basis. control the output,
When the user's body temperature is less than the second predetermined temperature or the user's pulse is less than the second predetermined speed, the guide line program data as the basis is maintained and the guide information increased only by the predetermined speed is output. A beam floor drawing device for controlling the beam output unit.

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