KR20140006684A - Cycling exerciser - Google Patents

Abstract

The present invention relates to a cycle exercise device, which includes a display unit and a cycle movement unit, each of which has an adjustable inclination, on the left and right sides of a main support on which a canopy with a solar panel is mounted. In addition, the present invention relates to a cycle exercise device configured to monitor an exerciser's heart rate and end an exercise in an emergency.
Cycle exercise device of the present invention, the main support is mounted display unit;
Cycle movement unit support spaced apart from the main support; One end is mounted on the cycle movement unit support, the other end is inserted into the inclination adjustment hole located under the display portion of the main support, the pedal movement is provided with a roller, the roller movement unit equipped with a rotation detection sensor; And a calculation processor configured to calculate a rotation speed from the rotation signal received from the rotation detection sensor, calculate a user traveling distance according to the rotation speed, and generate a user progress indication image signal according to the travel distance to the display unit. It features.
The main support has an angle adjusting plate which is moved up and down by a linear motor, and the other end of the cycle moving part is positioned on the angle adjusting plate, and the angle of the cycle moving part is adjusted by the driving of the linear motor.

Description

Cycling exerciser

The present invention relates to a cycle exercise device, which includes a display unit and a cycle movement unit, each of which has an adjustable inclination, on the left and right sides of a main support on which a canopy with a solar panel is mounted. In addition, the present invention relates to a cycle exercise device configured to monitor an exerciser's heart rate and end an exercise in an emergency.

Modern people improve their health and enjoy leisure through exercise.

In particular, the elderly who enjoy leisure are not radical to combine play, and the lower extremity movement to inform the emergency situation is desired.

However, the current fitness clubs are equipped with exercise equipment such as cycles, but the use of such fitness clubs is expensive, and the exercise equipment is expensive.

 Therefore, there is a need for a lower extremity exercise device that can be installed outdoors, which can be easily contacted and not exercised radically.

In addition, among the exercise equipment to be installed outdoors, exercise equipment equipped with a shade screen that can avoid the sun and rain is desired.

And the exercise equipment which can induce the pleasure of exercise is desired.

Therefore, the present invention is installed outdoors, and provided with a canopy, and equipped with a cycle exercise unit with a display unit and an inclination, respectively, on the left and right sides of the main support, the game of the virtual space through the cycle exercise is possible, and monitor the heart rate of the athlete It proposes a cycle exercise device made to end the exercise in emergency.

In addition, the cycle exercise device of the present invention is made to display the number of times of exercise, the amount of heat consumed by the display unit after exercise to inspire interest in the exercise, equipped with a solar panel to self-produce power consumed in the display unit, etc. Is done.

The problem to be solved by the present invention, the left and right of the main support is provided with a cycle exercise unit and the display unit can be adjusted inclination, the virtual space game through the cycle exercise, and monitor the heart rate of the exerciser to exercise during an emergency It is to provide a cycle exercise device configured to terminate.

Another problem to be solved by the present invention, after the exercise, is made to display the number of exercise, the amount of heat consumed, the solar cell panel is mounted on the top of the canopy mounted on the top of the main support, the display unit, lighting, etc. It is to provide a cycle exercise device configured to be driven by.

In order to solve the above problems, the cycle exercise mechanism of the present invention, the main support is mounted display unit; Cycle movement unit support spaced apart from the main support; One end is mounted on the cycle movement unit support, the other end is inserted into the inclination adjustment hole located under the display portion of the main support, the pedal movement is provided with a roller, the roller movement unit equipped with a rotation detection sensor; And a calculation processor configured to calculate a rotation speed from the rotation signal received from the rotation detection sensor, calculate a user traveling distance according to the rotation speed, and generate a user progress indication image signal according to the travel distance to the display unit. It features.

In addition, the cycle exercise mechanism of the present invention, the main support having an angle adjusting plate which is moved up and down by a linear motor; Cycle movement unit support spaced apart from the main support; An angle sensor is mounted, one end of which is mounted on a cycle moving part support, the other end of which is located on an angle adjusting plate of the main support, and a cycle moving part having a pedal mounted roller; A rotation detection sensor mounted on the roller to detect a rotation signal; Calculate the rotational speed from the rotation signal received from the rotation detection sensor, count the number of revolutions by angle, multiply the number of revolutions by the angle, the calorie consumption according to one rotation by a predetermined angle to obtain the calorie consumption amount by angle, And a calculation processing unit for calculating a total calorie consumption amount as the sum of calorie consumption amounts for each angle.

In addition, the cycle exercise mechanism of the present invention, the main support is mounted display unit; Cycle movement unit support spaced apart from the main support; An angle adjuster made of a rod or rod shape and the center portion is hinged to the cycle movement support; A first horizontal support having one end mounted on an upper portion of the angle adjuster; A second horizontal support having one end mounted to a lower portion of the angle adjuster; A pedal mounted at both ends of the rotating shaft, the roller being positioned between the first horizontal support and the second horizontal support and having a rotation detection sensor; An inclination adjustment support having one end connected to a center of the vertical support connecting the other end of the first horizontal support and the other end of the second horizontal support, the other end of which is inserted into an inclination adjusting hole located under the display portion of the main support; And counting the number of rotations from the rotation signal received from the rotation detection sensor, and calculating the total amount of calories consumed by multiplying the number of revolutions by the predetermined number of revolutions.

The solar panel is mounted on the main support.

The cycle driver includes a chair mounted on an upper portion of the chair, and the chair includes an armrest equipped with a pulse wave detection sensor, and the arithmetic processing unit detects a heart rate from the pulse wave detection sensor, and when the heart rate exceeds a preset reference range, A display signal or an audio signal indicating the excess is output.

The chair is mounted on the upper part of the angle adjuster, and the chair is made to move horizontally.

The main support has an angle adjusting plate which is moved up and down by a linear motor, and the other end of the cycle moving part is positioned on the angle adjusting plate, and the angle of the cycle moving part is adjusted by the driving of the linear motor.

In addition, the present invention, the display unit and the cycle movement unit is provided on each of the left and right of the main support, the display unit in the driving method of the cycle exercise mechanism provided with a game image indicating a map, the calculation processing unit rotation detection unit, inclination angle detection unit, A detection data receiving step of receiving a rotation signal, an angle signal, and a pulse wave signal from the pulse wave detector; A heart rate calculation step of calculating an R peak from the pulse wave signal received in the detection data receiving step and counting a heart rate; The calculation processing unit compares the heart rate calculated in the heart rate calculation step with a preset reference range and judges it as abnormal when the reference range is exceeded, and if abnormal, outputs a display signal or a voice signal indicating abnormality and whether the heart rate is normal Determination step; From the rotation signal received in the detection data receiving step, the calculation processing unit calculates the rotational speed, and using the calculated rotational speed calculating the travel distance; And a user display image signal generation step of generating a user progress display image signal indicating a user's position on the game image and outputting the generated display signal to the display unit from the progress distance calculated in the progress distance calculation step.

Further, in the driving method of the cycle exercise device of the present invention, in the angle signal received in the detection data receiving step, the calculation processing unit increases the first counter by 1 when the angle signal is less than 5 degrees, and the angle signal is 5 degrees. When the number is less than 10 degrees, the second counter is increased by one, and when the angle signal is 10 degrees or more, the third counter is increased by one; An angle data loading step of reading adjustment data of the angle control plate corresponding to the traveling distance calculated in the traveling distance calculating step from a memory; A motor control signal generation step of generating a motor control signal according to the adjustment data of the angle control plate read in the angle data loading step and outputting the motor control signal to the motor driver; If the exercise end key is on or if the processing unit does not detect the rotation signal during the preset exercise end reference time, it recognizes that the exercise is over, and if the exercise is not finished, returns to the detection data receiving step. Determination step; If it is determined that the exercise is finished at the end of the exercise determination step, the calorie consumed by each exercise is calculated by multiplying the value stored in the first to third counters, which are rotational values, and the calorie consumed according to the single exercise, and the consumed by angle. The method further includes calculating and outputting a calorie value by summing calories and transmitting the total calorie value to the display unit.

According to the cycle exercise device of the present invention, the display unit and the inclined angle of the cycle movement unit is provided on the left and right sides of the main support, the game of the virtual space through the cycle movement is possible, and exercise the emergency in emergency by monitoring the heart rate of the athlete To exit.

In addition, the cycle exercise device of the present invention, after the exercise, is made to display the number of exercise, the amount of heat consumed, the solar cell panel is mounted on the top of the canopy mounted on the upper part of the main support, the display unit, lighting, etc. It is made to be driven by.

 Therefore, the cycle exercise device of the present invention is installed outdoors, can be easily contacted, can be exercised safely without radical, canopy is provided to avoid the sun, rain, the game of the virtual space can be made to cause the joy of exercise It is possible to produce the power in-house, thereby reducing the burden of electricity.

1 is a perspective view for explaining a cycle exercise mechanism according to an embodiment of the present invention.
2 is an explanatory diagram for explaining a chair tilt control unit in the cycle movement unit of FIG.
3 is an explanatory diagram for explaining a chair tilt control unit in a cycle exercise unit of a cycle exercise device according to an embodiment of the present invention.
4 is an explanatory diagram for explaining a chair horizontal control unit in the cycle exercise unit of the present invention.
Figure 5a is an explanatory diagram for explaining an example of the chair horizontal adjustment unit in the cycle movement unit of the present invention.
5B is an enlarged explanatory view of the chair horizontal adjustment unit of FIG. 5A.
Figure 6a is an explanatory diagram for explaining another example of the chair horizontal adjustment unit in the cycle movement unit of the present invention.
6B is an enlarged explanatory view of the chair horizontal adjustment unit of FIG. 6A.
7 is a block diagram illustrating a control unit of a cycle exercise device according to an embodiment of the present invention.
8 is an explanatory diagram for explaining a plurality of solar cell channels mounted to the roof of the cycle exercise device of the present invention.
9 is a flowchart schematically illustrating a method of driving a cycle exercise device according to an embodiment of the present invention.

Hereinafter, the configuration and operation of the cycle exercise device of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view illustrating a cycle exercise device according to an embodiment of the present invention, a roof part 310, a main support 350, a display part 330, a support part 390, and a solar cell panel 320. ), And comprises a cycle movement unit 200.

The roof 310 is mounted on an upper portion of the main support 350 to form a shade film, and the solar cell panel 320 is mounted on the roof 310. The roof part 310 may be made of a transparent or translucent material.

The main support 350 is provided with an inclination adjustment hole 295 on the left and right, the inclination adjustment support 290 of the cycle movement portion 200 is inserted into the inclination adjustment hole 295, the inclination adjustment hole 295 The display unit 330 is mounted, and a roof 310 is mounted on the display unit 330.

The display unit 330 is mounted on the main support 350, is mounted on the inclination adjusting hole 295, and displays the amount of exercise (exercise), the amount of heat consumed, and the like after the user's exercise. In addition, during a game, an image such as a virtual space is displayed.

The display unit 330 may be made of a touch screen or provided with a separate key input unit.

The supporting part 390 has an elliptical shape, and a main support 350 is mounted at the center thereof, and a cycle movement part 200 is mounted at left and right sides thereof. The supporting part 390 is a means that the user plays a role of scaffold when the user uses a cycle exercise device, and is made of synthetic resin such as urethane to prevent the user from slipping.

The cycle movement unit 200 is a means for performing a movement such as riding a cycle by stepping on a pedal, and includes a chair 210, a cycle movement unit support, a cycle driving unit 235, a pedal 280, and an inclination adjustment support 290. .

The cycle movement unit support 230 is installed on the support 390 spaced apart from the main support 350. The cycle driver 235 is mounted on an upper portion of the cycle moving part supporter. In more detail, the angle adjuster 243 of the cycle driver 235 is hinged to the upper portion of the cycle moving part supporter to be rotatable.

The cycle driving unit 235 is mounted so that the chair inclination adjustment unit 240 for adjusting the inclination of the chair and the pedal is rotatable on the cycle movement unit support 230, and the chair's horizontal position at the upper portion of the chair inclination control unit 240. Chair to adjust the leveling unit 250 is mounted. A cycle driver cover 241 is provided outside the cycle driver 235, and an inclination angle control switch 275 and a pedal 280 are mounted outside the cycle driver cover 241. The cycle driver 235 will be described later in more detail.

The chair 210 is mounted on one side of the cycle driver 235. In more detail, the chair support 215 of the chair 210 is inserted into the cycle driving unit 235 through the chair support through hole, and is mounted to the chair horizontal adjustment unit 250. Here, the chair horizontal adjuster 250 is fixed and mounted on the angle adjuster 243 of the cycle driver 235. The left and right sides of the chair 210 is equipped with a movable armrest 220. One end of the armrest 220 is equipped with a pulse wave detection sensor (not shown).

FIG. 2 is an explanatory diagram for explaining the chair tilt control unit 240 in the cycle exercise unit 200 of FIG.

Chair tilt adjustment unit 240 is the angle adjuster 243, the first horizontal support 245, the second horizontal support 247, the vertical support 249, the tilt adjustment support 290, the pedal 280, roller 270 is made.

The angle adjuster 243 is formed in a rod or rod shape and the center portion is hingedly coupled to the cycle movement support 230 to mount the angle adjustable. A first horizontal support 245 and a second horizontal support 247 are mounted on the upper and lower portions of the angle adjuster 243, respectively, and vertical supports at the ends of the first horizontal support 245 and the second horizontal support 247. 249 is mounted, and the tilt adjustment support 290 is mounted at the center of the vertical support 249.

One end of each of the first horizontal support 245 and the second horizontal support 247 is mounted to the angle adjuster 243, and the other end is mounted to the vertical support 249. The roller 270 is positioned between the first horizontal support 245 and the second horizontal support 247 by the first spaced support 272 and the second spaced support 274.

The first spaced support 272 is one end is mounted to the first horizontal support 245 and the other end is formed through the hole is inserted into the rotation axis of the roller 270, the second spaced support 274 is the second horizontal support 247 One end is mounted in the) and the other end is made of a through hole is inserted into the rotating shaft of the roller 270.

The roller 270 is spaced apart between the first horizontal support 245 and the second horizontal support 247 by the first spaced support 272 and the second spaced support 274. A pedal 280 is mounted at both ends of the rotation shaft of the roller 270.

Both ends of the vertical support 249 are mounted at the other ends of the first horizontal support 245 and the second horizontal support 247, and the tilt support 290 is mounted at the center thereof.

One end of the inclination adjustment support 290 is mounted in the center of the vertical support 249, the other end is located above the angle adjusting plate 380 in the main support (350). Here, the inclination adjustment support 290 is positioned above the angle adjustment plate 380 through the inclination adjustment hole 295 of the cycle movement part inclination adjustment hole 285 and the main support 350 of the cycle driving unit cover 241. The angle adjusting plate 380 is mounted on the axis of the linear motor 370 installed in the main support 350.

3 is an explanatory diagram for explaining a chair tilt control unit in a cycle exercise unit of a cycle exercise device according to an embodiment of the present invention.

In FIG. 2, when the inclination angle adjustment switch 275 is operated, the inclination angle adjustment signal is transmitted to the calculation processing unit, and the calculation processing unit generates a motor control signal and transmits the motor control signal to the motor driving unit, and the motor driving unit linear motor according to the motor control signal. By driving 370, the inclination angle is adjusted by adjusting the position of the angle adjustment plate 380.

In FIG. 2, the chair inclination adjustment unit 240 is automatically adjusted, which is not intended to limit the present invention. In some cases, manual adjustment may be made.

For example, in the chair inclination adjustment unit 240 of FIG. 3, the inclination angle adjustment switch 275 is fixed and mounted on one side of the angle adjustment unit 243 to rotate the inclination angle adjustment switch 275 ( 243 is rotated, in this case, the inclination adjustment support 290 is placed on the angle support plate (not shown) installed in a plurality according to the angle in the main support 350, it is possible to adjust the angle.

Figure 4 is an explanatory diagram for explaining the chair horizontal adjustment unit in the cycle movement unit of the present invention, Figure 5a is an explanatory diagram for explaining an example of the chair horizontal adjustment unit in the cycle movement unit of the present invention, Figure 5b is a horizontal chair of Figure 5a It is an explanatory explanatory drawing of an adjustment part.

As shown in FIG. 4, the chair 210 may move from side to side through the chair support hole 255 positioned at the top of the cycle driver cover 241. Chair horizontal adjustment unit 250 is mounted on the angle adjuster (243). In addition, the chair 210 is configured to be vertically movable by pulling the lever 267, which is the same structure as a general chair, and a detailed description thereof will be omitted.

5A and 5B, the chair horizontal adjustment unit 250 has the chair support 215 horizontally moved from side to side through the horizontal movement main 254, but has a horizontal movement fixing groove 252 in the horizontal movement main 254. Thus, the moved chair support 215 is fixed. The chair detachment prevention part 256 is attached to the bottom of the chair support 215.

Figure 6a is an explanatory diagram for explaining another example of the chair horizontal adjustment unit in the cycle movement unit of the present invention, Figure 6b is an enlarged explanatory view of the chair horizontal adjustment unit of Figure 6a.

In the chair horizontal adjustment unit 250 of FIGS. 6A and 6B, the bottom of the chair support 215 is provided with a mover 259 formed of rollers or gears on both left and right sides of the chair detachment prevention unit 256, respectively. On the angle adjuster 243 is provided with horizontal moving rods 257 and 258 having horizontal moving rods. The chair 210 horizontally moves from side to side by the mover 259 moving the horizontal movement path located on the horizontal movement path bars 257 and 258.

7 is a block diagram illustrating a controller of a cycle exercise device according to an embodiment of the present invention. The rotation detector 410, the inclination angle detector 420, the pulse wave detector 430, the A / D converter 440, and the calculation processor 450, the display unit 330, the key input unit 460, the speaker unit 470, the linear motor 370, the motor driving unit 480, and the memory 490.

The rotation detector 410 is a means for detecting rotation of the roller 270, and includes a rotation detection sensor unit 412 and a rotation signal preprocessor 415.

The rotation detection sensor unit 412 mounts a light emitting diode (not shown) at predetermined intervals to the roller cap 278, the first spaced support 272, and the second spaced support 274, and the roller 270. A light receiving sensor (not shown) is mounted on one portion (one side) to detect the rotation signal.

In some cases, without using the above-described method using a light emitting sensor and a light receiving sensor, the rotation detection sensor unit 412 may mount a gyro sensor on one part (one side) of the roller 270 to detect a rotation signal. .

The rotation signal preprocessor 415 amplifies the signal received from the rotation detection sensor unit 412, removes noise, and transmits the noise to the A / D converter 440.

The inclination angle detector 420 is a means for detecting the angle of the inclination adjustment support 290, and comprises an angle detection sensor unit 422, the angle signal preprocessor 425.

 The angle detecting sensor unit 422 may mount an gyro sensor on one portion (one side) of the tilt adjusting support 290 to detect an angle signal.

The angle signal preprocessor 425 amplifies the signal received from the angle detection sensor unit 422, removes noise, and transmits the noise to the A / D converter 440.

The pulse wave detection unit 430 is a means for detecting the optical volume pulse wave (hereinafter referred to as pulse wave) mounted on the armrest unit 220 and includes a pulse wave detection sensor unit 432 and a pulse wave signal preprocessing unit 435.

The pulse wave detection sensor unit 432 is a means for detecting the pulse wave is mounted to the end of the armrest portion 220, in some cases may be provided with a finger insertion unit separately. The pulse wave detection sensor unit 432 detects the amount of light coming from the light receiving unit and converts it into a current. The pulse wave detection sensor unit 432 is provided with a light emitting unit (not shown) and a light detector (not shown). It detects the amount of light coming in and converts it to current, which is output as two output (+,-) signals with opposite directions.

The pulse wave signal preprocessor 435 is for amplifying the output signal of the pulse wave detection sensor 432 and removing noise. The pulse wave signal preprocessor 435 is a current-voltage converter (not shown), an amplifier (not shown), and a filter (not shown). It is provided.

The current-voltage converter (not shown) converts the output signal of the pulse wave detection sensor unit 432 into a voltage signal.

The amplifier (not shown) is for amplifying the output signal of the current-voltage converter (not shown) with a predetermined gain, and is configured as a differential amplifier.

The filter unit (not shown) is for removing noise from the output signal of the amplifier (not shown) and removes power noise.

The A / D converter 440 converts the rotation signal, the angle signal, and the pulse wave signal received from the rotation detector 410, the tilt angle detector 420, and the pulse wave detector 430 into a digital signal, and transmits the digital signal to the calculation processor 450. .

The operation processor 450 receives a rotation signal, an angle signal, and a pulse wave signal from the A / D converter 440, receives a game mode setting signal from the key input unit 460, and performs angle-by-angle according to the angle signal and the rotation signal. Count the total number of revolutions (exercises), determine the angle of the current tilt control support 290 from the angle signal, and generates a motor control signal to vary the angle in accordance with a preset game image motor drive unit 480 To send. At the end of the exercise, the calorie consumption amount at the time of one rotation for each inclination angle previously stored in the memory 490 is read out, the calorie consumption amount is calculated, and output to the display unit 330.

In addition, the operation processor 450 reads game program image data from a memory and outputs the game program image data to the display unit, and calculates the distance from the rotational speed and time of the user and displays the image on the image on the display.

The display unit 330 outputs a signal received from the operation processor 450, and outputs a video signal during a game and a calorie consumption amount after the exercise.

The key input unit 460 includes an exercise start / end key and the like, and inputs a game mode setting.

The game mode setting sets whether or not the single player mode or the dual player mode is used.

The one-person game mode is made to automatically vary the angle of the inclination adjustment support 290 at the same time as the image, at this time is made to step on the pedal to exercise.

 The two-player game mode is made to automatically change the angle of the tilt adjustment support 290 at the same time as the image, two people are made to exercise from the cycle movement unit 200 on both sides of the main support 350, depending on each The score is printed so that you can compete.

The speaker unit 470 is configured to output sound simultaneously with the output of the game image.

The motor driver 480 drives the linear motor 370 according to the motor control signal received from the operation processor.

The memory 490 stores a calorie consumption amount in one rotation for each inclination angle, and temporarily stores the rotation speed for each angle in the exercise. The rotation speed for each angle may store, for example, the rotation speed when the angle is 5 degrees or less, the rotation speed when the angle is 5 degrees or more and less than 10 degrees, and the rotation speed when the angle is 10 degrees or more. The memory 490 stores a game program having video, sound, and angle data.

8 is an explanatory diagram for explaining a plurality of solar cell channels mounted to the roof of the cycle exercise device of the present invention.

As shown in FIG. 8, a plurality of solar cell channels may be mounted on the roof 310.

9 is a flowchart schematically illustrating a method of driving a cycle exercise device according to an embodiment of the present invention.

9 is a flowchart illustrating a method of driving a cycle exercise device provided with a display unit and a cycle exercise unit on each of the left and right sides of the main support, and a game image representing a map is provided on the display unit.

In the initialization step, the rotation speed counter, rotation speed register, total distance register, and the like for each angle are cleared (S110).

Counter for revolutions when the angle is less than 5 degrees, 1st counter, counter for revolutions when more than 5 degrees and less than 10 degrees, counter counter for revolutions when more than 5 degrees and less than 10 degrees. can do.

If the exercise start key is turned on, or if the operation processor detects a continuous rotation signal for an initial predetermined time, i. Recognize that it has started, if the exercise has not started, wait until it starts (S120).

In the detection data receiving step, the rotation signal, the angle signal, and the pulse wave signal are read from the rotation detector 410, the tilt angle detector 420, and the pulse wave detector 430 (S130).

In the heart rate calculation step, the R peak is calculated from the pulse wave signal (S140).

In the determination of whether the heart rate is normal, the heart rate is compared with the preset reference range, and when it exceeds the reference range, it is determined to be abnormal. If abnormal, the display signal or voice signal indicating abnormality is output and the exercise is terminated (S145). .

In the advancing distance calculation step, the rotational speed is calculated from the rotational signal and stored in the rotational speed register, the advancing distance is calculated from the calculated rotational speed, and stored in the total distance register in addition to the total distance register value (S150).

In the generating of the user display image signal, the user progress display image signal is generated from the progress distance obtained in the progress distance calculation step and output to the display unit (S160).

In the rotational speed counting step for each angle, the rotational speed according to the speed is counted by the rotational speed counter for each angle (S170). That is, it is determined to which category the read angle data belongs, and the counter corresponding to the first to third counters is incremented. For example, in the angle signal received in the detection data receiving step, the first counter is increased by 1 when the angle signal is less than 5 degrees, and the second counter is increased by 1 when the angle signal is 5 degrees or more and less than 10 degrees. When the angle signal is 10 degrees or more, the third counter is increased by one.

In the angle data loading step, the set angle data according to the progress distance calculated in the progress distance calculation step is read from the memory (S180). That is, the adjustment data of the angle control plate corresponding to the travel distance calculated in the travel distance calculation step is read from the memory.

In the motor control signal generating step, the motor control signal is generated according to the angle data read in the set angle data loading step and output to the motor driving unit (S190). As a result, the linear motor is driven so that the tilt support is at the set angle.

If the exercise end key is on, or if the operation processing unit does not detect the rotation signal continuously for a predetermined time, that is, the exercise end reference time (set by factory default), the exercise is performed. If it is recognized that the end (S200), if the exercise is not finished returns to the detection data receiving step.

In the step of calculating and outputting the consumed calories, if it is determined that the exercise is finished in the determination of whether the exercise is finished, the rotation speed value for each angle (the value stored in the first to third counters) is multiplied by the calorie consumption for each exercise for each angle. Calculate the amount of heat consumed by each, calculate the total heat consumed by summing the heat consumed by each angle, and transmits the calculated total heat consumed to the display (S210).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modification is possible. Accordingly, it is intended that the scope of the invention be defined by the claims appended hereto, and that all equivalent or equivalent variations thereof fall within the scope of the present invention.

200: cycle exercise unit 210: chair
215: chair support 220: armrest
230: cycle movement unit support 235: cycle drive unit
240: chair inclination adjustment unit 241: cycle driving unit cover
243: angle adjuster 245: first horizontal support
247: second horizontal support 249: vertical support
250: chair horizontal adjustment unit 252: horizontal movement fixed groove
254: horizontal movement mainly 255: through the chair support
256: chair separation prevention unit 257, 258: horizontal movement mainly rod
259: mover 267: lever
270: roller 272: first spaced support
274: second spaced support 275: inclination angle control switch
278: roller cap 280: pedal
285 cycle inclination adjustment hole 290: tilt adjustment support
295: inclined adjustment hole 310: roof portion
320: solar panel 330: display unit
350: main support 370: linear motor
380: angle adjusting plate 390: support portion
410: rotation detection unit 412: rotation detection sensor unit
415: rotation signal preprocessor 420: inclination angle detector
422: angle detection sensor unit 423: pulse wave detection sensor unit
425: angle signal preprocessor 430: pulse wave detector
432: pulse wave detection sensor unit 435: pulse wave signal preprocessing unit
440: A / D converter 450: Operation processing unit
460: key input unit 470: speaker unit
480: motor drive unit 490: memory

Claims (14)

A main support on which the display unit is mounted;
Cycle movement unit support spaced apart from the main support;
One end is mounted on the cycle movement unit support, the other end is inserted into the inclination adjustment hole located under the display portion of the main support, the pedal movement is provided with a roller, the roller movement unit equipped with a rotation detection sensor;
A calculation processor configured to calculate a rotation speed from the rotation signal received from the rotation detection sensor, calculate a user travel distance according to the rotation speed, and generate a user progress display image signal according to the travel distance to the display;
Cycle exercise equipment, characterized in that consisting of. A main support having an angle adjusting plate which is moved up and down by a linear motor;
Cycle movement unit support spaced apart from the main support;
An angle sensor is mounted, one end of which is mounted on a cycle moving part support, the other end of which is located on an angle adjusting plate of the main support, and a cycle moving part having a pedal mounted roller;
A rotation detection sensor mounted on the roller to detect a rotation signal;
Calculate the rotational speed from the rotation signal received from the rotation detection sensor, count the number of revolutions by angle, multiply the number of revolutions by the angle, the calorie consumption according to one rotation by a predetermined angle to obtain the calorie consumption amount by angle, A calculation processing unit for calculating total calorie consumption as a sum of calorie consumption values for each angle;
Cycle exercise equipment, characterized in that consisting of. A main support on which the display unit is mounted;
Cycle movement unit support spaced apart from the main support;
An angle adjuster made of a rod or rod shape and the center portion is hinged to the cycle movement support;
A first horizontal support having one end mounted on an upper portion of the angle adjuster;
A second horizontal support having one end mounted to a lower portion of the angle adjuster;
A pedal mounted at both ends of the rotating shaft, the roller being positioned between the first horizontal support and the second horizontal support and having a rotation detection sensor;
An inclination adjustment support having one end connected to a center of the vertical support connecting the other end of the first horizontal support and the other end of the second horizontal support, the other end of which is inserted into an inclination adjusting hole located under the display portion of the main support;
An arithmetic processing unit for counting the number of revolutions from the rotation signal received from the rotation detection sensor and multiplying the number of revolutions with the amount of heat consumed according to a predetermined rotation to obtain a total calorie consumption amount;
Cycle exercise equipment, characterized in that consisting of. 4. The method according to any one of claims 1 to 3,
Cycling equipment, characterized in that the solar panel is mounted on the upper portion of the main support. 3. The method according to any one of claims 1 to 3,
Cycle exercise part,
An angle adjuster made of a rod or rod shape and the center portion is hinged to the cycle movement support;
A first horizontal support having one end mounted on an upper portion of the angle adjuster;
A second horizontal support having one end mounted to a lower portion of the angle adjuster;
A pedal mounted at both ends of the rotating shaft, the roller being positioned between the first horizontal support and the second horizontal support and having a rotation detection sensor;
An inclination adjustment support having one end connected to the center of the vertical support connecting the other end of the first horizontal support to the other end of the second horizontal support, the other end of which is inserted into the inclination adjustment hole of the main support;
Cycle exercise equipment, characterized in that consisting of. 4. The method according to any one of claims 2 to 3,
The arithmetic processing unit,
A cycle exercise device, comprising: calculating a rotation speed from a rotation signal received from a rotation detection sensor, calculating a user traveling distance according to the rotation speed, and generating and outputting a user progress indication image signal according to the traveling distance to the display unit. 3. The method according to any one of claims 1 to 3,
The cycle driver mounts the chair on the upper part,
The chair has an armrest equipped with a pulse wave detection sensor,
And the calculation processing unit detects a heart rate from the pulse wave detection sensor, and outputs a display signal or an audio signal indicating that the reference range is exceeded when the heart rate exceeds a predetermined reference range. The method of claim 3,
The chair is mounted on the top of the angle adjuster
The chair has an armrest equipped with a pulse wave detection sensor,
And the calculation processing unit detects a heart rate from the pulse wave detection sensor, and outputs a display signal or an audio signal indicating that the reference range is exceeded when the heart rate exceeds a predetermined reference range. 3. The method according to any one of claims 1 to 3,
The cycle drive unit is mounted on the chair,
The chair is a cycle exercise device characterized in that the horizontal movement is made possible. The method of claim 1,
The main support has an angle adjusting plate which is moved up and down by a linear motor,
The other end of the cycle movement portion is positioned on the angle adjustment plate, the cycle exercise mechanism, characterized in that the angle of the cycle movement portion is adjusted by the drive of the linear motor. In each of the left and right of the main support is provided with a display unit and a cycle movement unit, the display unit driving method of the cycle exercise mechanism provided with a game image representing a map,
The calculation processing unit includes: a detection data receiving step of receiving a rotation signal, an angle signal, and a pulse wave signal from a rotation detector, an inclination angle detector, and a pulse wave detector;
A heart rate calculation step of calculating an R peak from the pulse wave signal received in the detection data receiving step and counting a heart rate;
The calculation processing unit compares the heart rate calculated in the heart rate calculation step with a preset reference range and judges it as abnormal when the reference range is exceeded, and if abnormal, outputs a display signal or a voice signal indicating abnormality and whether the heart rate is normal Determination step;
From the rotation signal received in the detection data receiving step, the calculation processing unit calculates the rotational speed, and using the calculated rotational speed calculating the travel distance;
A user display image signal generation step of generating a user progress display image signal indicating a user's position on the game image and outputting the result to the display unit from the progress distance calculated in the progress distance calculation step;
Method of driving a cycle exercise device comprising a. 12. The method of claim 11,
In the angle signal received in the detection data receiving step, the arithmetic processing unit increases the first counter by 1 when the angle signal is less than 5 degrees, and increases the second counter by 1 when the angle signal is 5 degrees or more and less than 10 degrees. An angle counting step of increasing the third counter by one when the angle signal is 10 degrees or more;
Method for driving a cycle exercise device, characterized in that further comprises. The method of claim 12,
An angle data loading step of reading adjustment data of the angle control plate corresponding to the traveling distance calculated in the traveling distance calculating step from a memory;
A motor control signal generation step of generating a motor control signal according to the adjustment data of the angle control plate read in the angle data loading step and outputting the motor control signal to the motor driver;
Method for driving a cycle exercise device, characterized in that further comprises. The method of claim 13,
If the exercise end key is on or if the processing unit does not detect the rotation signal during the preset exercise end reference time, it recognizes that the exercise is over, and if the exercise is not finished, returns to the detection data receiving step. Determination step;
If it is determined that the exercise is finished at the end of the exercise determination step, the calorie consumed by each exercise is calculated by multiplying the value stored in the first to third counters, which are rotational values, and the calorie consumed according to the single exercise, and the consumed by angle. Calculating and outputting the amount of heat consumed by calculating the total amount of heat consumed by the amount of heat to be transmitted to the display;
Method for driving a cycle exercise device, characterized in that further comprises.

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