JP2001224569A - Bicycle speed meter with adipometrical function - Google Patents

Abstract

PROBLEM TO BE SOLVED: To grasp the change of muscle quantity of properly set a target of momentum by adding an adipometrical function to the speed meter of a bicycle. SOLUTION: The adipomatrical function comprises a human body impedance measuring means 110 for measuring a human body impedance; an individual data input means 120 for inputting individual data of sex, age, height, and weight; a body fat rate calculating means 130 for calculating body fat rate on the basis of the human body impedance and the individual data; a body type judgment means 140 for judging the body type on the basis of the individual data and body fat rate; a basal metabolism calculating means 150 for calculating the basal metabolism on the basis of the individual data and body fat rate; a target body fat rate setting means 160 for setting a target body fat rate; a body fat-to-be reduced calculated means 170 for calculating the body fat quantity to be reduced from the difference between the target body fat rate and the measurement body fat rate; and a reducing calorie calculating means 180 for calculating the calorific value for consuming the body fat to be reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bicycle speedometer for measuring the running speed of a bicycle by detecting the number of rotations of a wheel per unit time.

[0002]

[Problems to be solved by the invention]

[0003] Cycling exercises are characterized by little body movement, stable upper body, and light burden on lower limbs and lower back. In addition, because of local exercise of the legs, the oxygen intake at the same heart rate is lower than that of running. For this reason, it is particularly suitable for intensively dieting such as strengthening the leg strength and thinning the leg.

[0004] Muscles enlarge by applying a load according to physiological adaptation, activate the nervous system, and improve muscle function. As for the strength of resistance training, it is necessary to give the muscles resistance that is at least higher than the muscle strength used in daily life, and this is called the principle of overload. Muscles atrophy when not in use, and their function declines accordingly, so it is important to continue training afterwards to maintain the benefits obtained by training. The effect obtained by short-term resistance training largely depends on the adaptation of the nervous system, and it is necessary to repeatedly train for a long time until an effect brought about by morphological changes of muscles such as muscle hypertrophy appears. In this way, when performing cycling exercises for the purpose of dieting, such as strengthening leg strength or thinning legs, measuring body fat to understand changes in muscle mass and setting an appropriate exercise amount target will lead to more effective training. Can be.

SUMMARY OF THE INVENTION The present invention has been made to solve the problem of muscle mass by adding a body fat measuring function to a speedometer of a bicycle so that a target of an appropriate amount of exercise can be set. .

[0006]

In order to achieve the above object, the present invention is configured as follows.

[0007] That is, the invention of claim 1 provides a housing having a display unit and attached to a bicycle, an electrode arranged on the surface of the housing to measure the impedance of a human body, a gender, age, height and weight. Personal data input means for inputting personal data, body fat percentage calculating means for calculating a body fat percentage based on the human body impedance and the personal data, and a basis for calculating a basal metabolic rate based on the personal data and the body fat percentage Metabolic rate calculation means, target body fat percentage setting means for setting a target body fat percentage, and a weight loss body fat calculation means for calculating the body fat amount to be reduced from the difference between the target body fat percentage and the measured body fat percentage Weight loss calorie calculating means for calculating the caloric amount for consuming the weight loss body fat, running speed measuring means for measuring the running speed of the bicycle, the measured running speed and basal metabolic rate Body calorie consumption calculating means for calculating the actual calorie consumption based on the body fat measurement, wherein the body fat percentage, the weight loss calories and the actual calorie consumption are displayed on the display unit in addition to the running speed. Bicycle speedometer with function. According to a second aspect of the present invention, a housing having a display unit and attached to a bicycle, an electrode disposed on the surface of the housing to measure human body impedance, and personal data of gender, age, height and weight are input. Personal data input means, body fat percentage calculating means for calculating body fat percentage based on the human body impedance and personal data, and basal metabolic rate calculating means for calculating basal metabolic rate based on the personal data and body fat percentage A target body fat percentage setting means for setting a target body fat percentage, a weight loss body fat calculation means for calculating a body fat amount to be reduced from a difference between the target body fat percentage and the measured body fat percentage, and the weight loss body fat Weight loss calorie calculation means for calculating the amount of calories to consume, running speed measurement means for measuring the running speed of the bicycle, actual calorie consumption based on the measured running speed and basal metabolism And a remaining calorie calculating means for calculating the remaining calorie consumption for consuming the weight loss fat by subtracting the actual calorie consumption from the weight loss calorie. And a body fat percentage and the remaining calorie consumption are displayed on the display unit. According to a third aspect of the present invention, a housing having a display unit and attached to a bicycle, an electrode arranged on the surface of the housing to measure human body impedance, and personal data of gender, age, height and weight are input. Personal data input means, body fat percentage calculating means for calculating body fat percentage based on the human body impedance and personal data, and basal metabolic rate calculating means for calculating basal metabolic rate based on the personal data and body fat percentage A target body fat percentage setting means for setting a target body fat percentage, a weight loss body fat calculation means for calculating a body fat amount to be reduced from a difference between the target body fat percentage and the measured body fat percentage, and the weight loss body fat Weight loss calorie calculating means for calculating the amount of calories to consume, and a target mileage setting for setting a target mileage for consuming the weight loss calories based on a target running speed and a basal metabolic rate. A bicycle with a body fat measurement function, comprising: a step and running speed measuring means for measuring a running speed of the bicycle, wherein the display unit displays a body fat percentage and the target running distance in addition to the running speed. It is a speedometer. The invention of claim 4 is
A housing having a display unit and attached to a bicycle, an electrode arranged on the surface of the housing to measure human body impedance,
Personal data input means for inputting personal data of gender, age, height and weight, body fat percentage calculating means for calculating body fat percentage based on the human body impedance and personal data, and based on the personal data and body fat percentage Basal metabolic rate calculating means for calculating basal metabolic rate, target body fat percentage setting means for setting a target body fat percentage, and a body fat amount to be reduced from a difference between the target body fat percentage and the measured body fat percentage. Weight loss body calculating means for calculating, weight loss calorie calculating means for calculating the amount of calories for consuming the weight loss body fat, and a target run for consuming the weight loss calories based on a target running speed and a basal metabolic rate Target traveling distance setting means for setting the distance, traveling speed measuring means for measuring the traveling speed of the bicycle, and actual calorie consumption based on the measured traveling speed and basal metabolism. Calculation means for calculating the calorie consumption, remaining calorie calculation means for calculating the remaining calorie consumption for consuming the weight loss fat by subtracting the actual calorie consumption from the weight loss calorie, target running speed and basal metabolic rate Remaining mileage calculating means for calculating the remaining mileage for consuming the remaining calories based on the, and displaying the body fat percentage and the remaining mileage on the display unit in addition to the running speed. The invention according to claim 5, which is a bicycle speedometer with a body fat measurement function, comprising: a housing having a display unit and attached to a bicycle; an electrode arranged on a surface of the housing to measure human body impedance; Personal data input means for inputting personal data of gender, age, height and weight, and a body fat percentage based on the human body impedance and the personal data A body fat percentage calculating means for calculating, a basal metabolic rate calculating means for calculating a basal metabolic rate based on the personal data and the body fat percentage, a target body fat percentage setting means for setting a target body fat percentage, and the target Weight loss body fat calculation means for calculating the body fat amount to be reduced from the difference between the body fat percentage and the measured body fat percentage; weight loss calorie calculation means for calculating the calorie amount for consuming the weight loss body fat; Running speed measuring means for measuring speed, heart rate measuring means for measuring heart rate during running,
Calorie expenditure calculating means for calculating actual calorie consumption based on the measured running speed, heart rate and basal metabolic rate, wherein the body fat percentage, the weight loss calories and the actual calorie consumption are displayed in addition to the running speed. This is a bicycle speedometer with a body fat measurement function, which is displayed on a part.

[0008]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a mounting diagram of a bicycle speedometer with a body fat measuring function according to the present invention. The bicycle speedometer 1 has a pedestal a on the handlebar H of the bicycle.
And is connected via a cord C to a magnetic sensor S fixed to a front fork F. The magnet M is attached to the spoke b of the front wheel.
Is clamped and screwed, and the position is adjusted so that the center of the magnet M comes to the magnetic field detecting portion of the magnetic sensor S.

FIG. 2 is a front view of a bicycle speedometer with a body fat measuring function according to the present invention. The bicycle speedometer 1 has a built-in human body impedance measurement circuit 2, a display D of an LCD provided on the front, and a power supply /
Select key K1, numeric down key K2 and up key K
3. Arrange the confirmation key K4 and the start / end key K5,
One of the power supply-side electrodes E1 and E1, which constitute a four-terminal electrode that is electrically insulated from each other, and the other detection-side electrodes E2 and E2 are fixed to the upper and lower side surfaces.

The power / selection key K1 is used to turn on / off the power by a long on of about 2 seconds, switch the input contents such as initial setting of a speedometer, input of personal data, the result of running condition measurement, and the amount of body fat. The display contents such as measurement results and diet target values are switched.

The initial setting of the speedometer sets a speed unit of kilometers and miles, a wheel size, and the like. For input of personal data, data such as gender, age, height, and weight are input. The measurement result of the running condition displays the running speed, the running distance, the maximum speed, the total running distance, the calorie consumption, and the like. The measurement result of the body fat indicates a body fat percentage, a basal metabolic rate, a body type, and the like. The diet goal is
The weight loss body fat percentage (%), the weight loss fat amount (kg), the weight loss calories, the target mileage, and the like for achieving the target body fat percentage are displayed. In addition, the remaining running distance, the remaining calorie consumption, and the like for achieving the target body fat percentage are displayed according to the measurement result of the running situation.

The down key K2 inputs a number by decrementing the number by one each time the key is pressed. Up key K3 is
Each time the key is pressed, the number is increased by one and the number is input. When personal data such as gender, age, height, and weight are input, respective default values are displayed, and data input is performed while correcting those numerical values with the down key K2 and the up key K3. The confirmation key K4 confirms the input data, and when the confirmation key 4 is pressed, the flow shifts to the next input. The start / end key K5 starts measurement of body fat and measurement of running conditions.

The display unit D displays initial data of the speedometer, input data such as gender, age, height, weight, etc., measurement results of running conditions, measurement results of body fat, target values of diet, and the like.

FIG. 3 shows a circuit diagram of a human body impedance measuring circuit. The human body impedance measurement circuit 2 supplies a 50 kHz sine wave AC voltage generated by the oscillator 21 to the power supply side electrodes E1 and E1 of the case 1 via the drive circuit 22 and the changeover switch 23A.

When measuring the human body impedance, the bicycle speedometer 1 is detached from the pedestal a, gripped with both hands, and both arms are straightened at the height of the shoulder, and as shown in FIG. Power supply side electrodes E1, E
1 and the detection side electrodes E2, E2 are sandwiched between the left and right forefinger and thumb. Thus, an AC voltage is generated between the left and right detection electrodes E2, E2, and the human body impedance between both hands is measured.

The AC voltage generated at the detection-side electrodes E2, E2 is applied to a changeover switch 23A, a bandpass filter 24, and a rectifier circuit 2.
5. Convert to DC voltage via amplifier 26, waveform shaping,
After level adjustment and offset adjustment, A / D converter 2
7. Input to the CPU 14 via the I / O interface 16.

Before measuring the human body impedance, the output characteristics of the detection-side circuit are calibrated in advance in order to correct a measurement error due to a change over time or a temperature characteristic of the elements constituting the human body impedance measuring circuit 2. That is, the relationship between the human body impedance Z, which is two variables, and the AC voltage V detected by the detection-side circuit is applied to the regression line Z = kV + C0. Then, the same predetermined AC voltage as when measuring the human body impedance Z is applied to both ends of the two resistors R1 and R2 whose resistance values are known, and the AC voltage V generated at both ends of the resistors R1 and R2 is detected. The proportional constant k and the fixed constant C0 of the regression line are obtained.

Therefore, a control signal is output from the CPU 14 to switch the changeover switch 23A through the I / O interface 16, the changeover unit 28, and the changeover control circuit 29A. The resistors R1 and R2 are connected. Next, a control signal is output from the CPU 14 to switch the switch 23B through the I / O interface 16, the switch unit 28, and the switch control circuit 29B.
Is switched, and the measurement object is switched to the resistor R1 or the resistor R2.

FIG. 5 is a functional block diagram of a bicycle speedometer with a body fat measurement function according to the present invention. The bicycle speedometer is a human body impedance measuring means 110 for measuring human body impedance via four terminal electrodes.
Personal data input means 120 for inputting personal data of gender, age, height, and weight by operating keys; body fat percentage calculating means 130 for calculating body fat percentage based on human body impedance and personal data; Body type determining means 140 for determining a body type based on data and body fat percentage, basal metabolic rate calculating means 150 for calculating basal metabolic rate based on personal data and body fat percentage, and a target for setting a target body fat percentage Body fat percentage setting means 160, weight loss body fat calculating means 170 for calculating the amount of body fat to be reduced from the difference between the target body fat percentage and the measured body fat percentage, and calculating the caloric amount for consuming the weight loss fat Weight loss calorie calculation means 180 and target mileage setting means 1 for setting a target mileage for consuming weight loss calories based on the target running speed and basal metabolic rate
90, running speed measuring means 200 for detecting the number of rotations of the wheel to measure the running speed, calorie consumption calculating means 210 for calculating the actual calorie consumption based on the measured running speed and basal metabolism, weight loss calories Subtracting the actual calorie consumption from the remaining calorie consumption calculating means 220 for calculating the remaining calorie consumption, and the remaining mileage calculation for calculating the remaining mileage for consuming the remaining calorie based on the target running speed and the basal metabolic rate. It is constituted by means 230.

As shown in FIG. 6, the body type discriminating means 140 classifies the matrix by dividing the body weight and the body fat percentage constituting the vertical axis and the horizontal axis into three stages of a healthy range, a healthy range and a healthy range, respectively. Height, weight and body fat percentage calculating means 130 divided into nine areas and input by personal data input means 120
The area to which the calculated body fat percentage corresponds corresponds to is displayed by dots. The healthy range of body weight is ideal body weight × 0.9 to ideal body weight × 1.1, and the healthy range of body fat percentage is 17 to 24% for women and 14 to 20% for men. The nine zones are supersportsman type, sportsman type, obesity type, sportsman ideal type, healthy ideal type, and superordinate type, from left to right on the vertical axis (body weight) and from left to right on the horizontal axis (body fat percentage). Categorized as fat type, super thin type, thin type, excess fat type, etc. Here, ideal weight = (height−100) × 0.9 ×
0.91.

The basal metabolic rate calculating means 150 calculates the basal metabolic rate based on the following formula. Basal metabolic rate = C0 x body weight x (100-body fat percentage) / 10
0 + C1 C0 = 24.0349 Women under 40 21.951 Women 40 and over 27.717 Men under 40 25.333 Men 40 and over C1 = 427.64 Women under 40 424.38 Women 40 and over 188.21 Males under 40 243.28 Males over 40

The target body fat percentage setting means 160 compares the current body fat percentage with, for example, 17 to 24% for women,
The target body fat percentage is set from among the healthy body fat percentages of 14 to 20% for men.

The weight loss body calculating means 170 obtains the body fat weight to be reduced from the difference between the target body fat percentage and the measured body fat percentage. Weight loss fat mass (kg) = (measured body fat ratio−target body fat ratio) / 100 × body weight (kg) If the measured body fat ratio is lower than the target body fat ratio, the weight loss body fat amount is set to 0. .

The weight loss calorie calculating means 180 calculates the body fat 1
Since kg is equivalent to about 7000 kcal, the calorie amount necessary for consuming the weight loss fat calculated by the weight loss fat calculating means 170 is calculated by the following formula. Weight loss calories (kcal) = Weight loss body fat (kg) x
7000 (kcal / kg)

The target travel distance setting means 190 replaces the reduced calorie calculated by the weight loss calorie calculation means 180 with the travel distance, calculates the travel distance from the travel distance, and sets the target travel distance. The travel amount is represented by the product of the travel intensity and the travel time as follows. Traveling amount (kcal) = Running intensity (kcal / min) x
Running time (minutes) The running intensity indicates the calorie consumption per minute consumed during running and is calculated by the following formula. Running intensity (kcal / min) = (energy metabolic rate x basal metabolic rate + metabolic rate at rest) (kcal) / 1440
(Minutes) The energy metabolic rate indicates how many calories the basal metabolic rate consumes depending on the running speed, for example, 2.0 at 10 km / h, 3.0 at 20 km / h, 3.0,
It is determined by actual measurement, such as 5.0 for 30 km and 7.0 for 40 km. The metabolic rate at rest is 1.2 times the basal metabolic rate. As described above, for example, the traveling strength when the traveling speed is 20 km / h is obtained as follows. Running intensity at 20 km / h (kcal / min) = (3.0 ×
Basal metabolic rate + metabolic rate at rest) (kcal) / 1440
(Minutes) Next, the travel time required to digest the reduced calories is determined, and the target travel distance is calculated from the travel time. Traveling time (min) = Calorie reduction (kcal) / Running intensity at 20 km / h (kcal / min) Target traveling distance (km) = Running time (min) x 20/60
(Km / min) The running time is set to a time of 12 minutes or more, which is said to be the minimum required before the body fat starts burning.

Since the energy metabolic rate has a high correlation with the heart rate, the accuracy of calculation can be improved by obtaining the energy metabolic rate from both regression equations. Although the energy metabolism rate is proportional to the running speed, the energy metabolic rate is determined based on the heart rate since the load such as climbing a hill is not reflected. Also,
Since the exercise intensity for efficiently burning body fat is preferably about 60 to 90% of the maximum heart rate, calculating the calorie consumption when the heart rate is within this range further improves the calculation accuracy. The maximum heart rate is determined by the following formula. Maximum heart rate = 220-age for males Maximum heart rate = 210-age for females Note that the maximum heart rate is calculated as 20 years old for all children under 20 years old.

Since the correlation between the energy metabolic rate and the heart rate differs depending on the running speed, the regression equation is set for each running speed in order to increase the calculation accuracy. For this reason,
The necessary regression equation is selected according to the running speed, and the energy metabolic rate is obtained from the correlation with the heart rate. These regression equations can be obtained by actually measuring the running speed and oxygen intake of the cycling exercise.

The heart rate is measured by utilizing the fact that hemoglobin in the blood flowing through the capillaries at the fingertips absorbs infrared rays, and that the density changes with the pulse. For this reason, the contact surface of the heart rate sensor is pressed against the fingertip and fixed by the supporter, the change in the infrared light emitted by the light emitting unit is continuously detected by the light receiving unit, and the change is converted into an electric signal to measure the heart rate . The heart rate sensor may detect hemoglobin in blood flowing through the capillaries of the earlobe in contact with the earlobe. Alternatively, a transmitter with electrodes attached to the chest is used to detect the potential difference by utilizing the potential difference generated around the heart every time the heart beats once, amplify the potential difference and measure the heart rate, May be transferred to a receiver built in the bicycle speedometer 1.

The traveling speed measuring means 200 detects the passage of the magnet M attached to the spoke b of the front wheel by a magnetic sensor S such as a hall sensor, a magnetoresistive element or a reed switch, and measures the number of rotations of the wheel per unit time. To calculate the running distance and running speed.

The calorie consumption calculating means 210 calculates the running intensity from the running speed measured by the running speed measuring means 200, and multiplies this by the running time to calculate the actual calorie consumption. Calorie consumption (kcal) = {running intensity by running speed (kcal / min) x running time (min)} The running intensity is measured by attaching a torque sensor to the pedal of the bicycle and measuring the strength of pedaling the bicycle. You may ask.

The remaining calorie consumption calculating means 220 obtains the remaining calorie consumption by subtracting the actual calorie consumption calculated by the calorie consumption calculating means 210 from the reduced calorie calculated by the weight loss calorie calculating means 180. Calorie consumption (kcal) = calorie loss (kc)
al) -calorie consumption (kcal) When the measurement of the body fat percentage is restarted, a new calorie reduction is set each time, and the remaining calorie consumption becomes equal to the calorie loss.

The remaining mileage calculating means 230 calculates the remaining mileage from the remaining mileage when, for example, running at a running intensity of 20 km / h to consume the remaining calories calculated by the remaining calorie consumption calculating means 220. . Remaining running time (minutes) = Remaining calorie consumption (kcal) /
Running intensity at 20 km / h (kcal / min) Remaining running distance (km) = Remaining running time (min) × 20/6
0 (km / min)

The bicycle speedometer with a body fat measuring function according to the present invention has the above-described configuration. When measuring body fat, first, the power / select key K1 and the down key K
2. Operate the up key K3 and the confirmation key 4 to determine gender.
Enter personal data of age, height and weight. At this time, if the input data is the same as the previous data, the input can be omitted.
Next, after pressing the start / end key K5, measurement of body fat is started by sandwiching the electrodes provided on the upper and lower side surfaces of the bicycle speedometer between the left and right index fingers and the thumb. Some time after starting the measurement, the body fat percentage is displayed on the display unit D,
The body type division is displayed as a dot in the corresponding area of the matrix together with the body fat percentage. When the power / selection key K1 is pressed here, the basal metabolism is displayed on the display unit D. When the measured body fat percentage exceeds the healthy body fat percentage, the screen is switched every time the power / selection key K1 is pressed, Diet target values such as weight loss fat percentage, weight loss fat, weight loss calories, and target mileage are displayed in order. These diet target values are updated each time body fat is measured.

Next, when the start / end key K5 is pressed, the measurement of the running condition starts. After the measurement of the running condition starts, the screen switches each time the power / select key K1 is pressed, and the running speed, the running distance, the maximum speed, the total running distance, the calorie consumption, the remaining calorie consumption, the remaining running distance, etc. are in order. Will be displayed.

[0036]

As described above, the bicycle speedometer with a body fat measurement function of the present invention sets the target body fat percentage and achieves the target body fat percentage by reducing the calorie required and the actual calorie consumption. And the remaining calorie consumption is displayed on the display unit. Therefore, according to the present invention, not only can the running speed of the bicycle be known, but also the goals and results of the cycling can be specifically visible by the calorie consumption, so that the cycling interest can be maintained for a long time, Therefore, the motivation of the activity increases the concentration, and the effect of the sufficient cycling exercise can be improved in a short period of time.

Further, the bicycle speedometer with a body fat measuring function of the present invention displays a running distance and a remaining running distance required for setting a target body fat percentage and achieving the target body fat percentage on a display unit. Therefore, according to the present invention, since it is possible to see at a glance how far it is effective to run,
The mileage of cycling for diet can be made appropriate.

[Brief description of the drawings]

FIG. 1 is a mounting view of a bicycle speedometer embodying the present invention.

FIG. 2 is a front view of a bicycle speedometer embodying the present invention.

FIG. 3 is a circuit diagram of a human body impedance measuring circuit embodying the present invention.

FIG. 4 is an explanatory view of use of a bicycle speedometer embodying the present invention when measuring body fat.

FIG. 5 is a functional block diagram of a bicycle speedometer embodying the present invention.

FIG. 6 is a figure showing a body type according to the present invention.

[Explanation of symbols]

 1 Bicycle speedometer 110 Human body impedance measuring means 120 Personal data input means 130 Body fat percentage calculating means 140 Body type discriminating means 150 Basal metabolic rate calculating means 160 Target body fat percentage setting means 170 Weight loss body fat calculating means 180 Weight loss calorie calculating means 190 Target Running distance setting means 200 running speed measuring means 210 calorie consumption calculating means 220 remaining calorie consumption calculating means 230 remaining running distance calculating means 14 CPU 15 memory 16 I / O interface 2 human body impedance measuring circuit 21 oscillator 22 drive circuit 23 changeover switch 24 band Filter 25 Rectifier circuit 26 Amplifier 27 A / D converter 28 Switching unit 28 29 Switching control circuit C code D Display E1 Power supply side electrode E2 Detection side electrode F Front fork H Hand Bar K1 power / selection key K2 down key K3 up key K4 enter key K5 starting / end key M magnet R1, R2 dummy resistor S magnetic sensors a pedestal b spokes

Claims (5)

[Claims] 1. A housing having a display unit and attached to a bicycle, an electrode arranged on the surface of the housing to measure human body impedance, and personal data for inputting personal data of gender, age, height and weight. Input means; body fat percentage calculating means for calculating a body fat percentage based on the human body impedance and personal data; basal metabolic rate calculating means for calculating a basal metabolic rate based on the personal data and body fat percentage; Target body fat percentage setting means for setting the body fat percentage, weight loss body fat calculation means for calculating a body fat amount to be reduced from the difference between the target body fat percentage and the measured body fat percentage, and consuming the weight loss body fat. Calorie reduction means for calculating the amount of calories required for running, running speed measuring means for measuring the running speed of the bicycle, and actual calorie consumption based on the measured running speed and basal metabolism. A bicycle speedometer with a body fat measurement function, comprising: a calorie consumption calculating means for calculating lea, wherein the display unit displays the body fat percentage, the weight loss calories, and the actual calorie consumption in addition to the running speed. . 2. A housing having a display unit and attached to a bicycle, an electrode arranged on the surface of the housing to measure human body impedance, and personal data for inputting personal data of gender, age, height and weight. Input means; body fat percentage calculating means for calculating a body fat percentage based on the human body impedance and personal data; basal metabolic rate calculating means for calculating a basal metabolic rate based on the personal data and body fat percentage; Target body fat percentage setting means for setting the body fat percentage, weight loss body fat calculation means for calculating a body fat amount to be reduced from the difference between the target body fat percentage and the measured body fat percentage, and consuming the weight loss body fat. Calorie reduction means for calculating the amount of calories required for running, running speed measuring means for measuring the running speed of the bicycle, and actual calorie consumption based on the measured running speed and basal metabolism. Calorie consumption calculating means for calculating the number of calories, and remaining calorie consumption calculating means for calculating the remaining calorie consumption for consuming the weight loss fat by subtracting the actual calorie consumption from the weight loss calorie. And a body fat percentage and the remaining calorie consumption are displayed on the display unit. 3. A housing having a display unit and attached to a bicycle, an electrode provided on the surface of the housing to measure human body impedance, and personal data for inputting personal data of gender, age, height and weight. Input means; body fat percentage calculating means for calculating a body fat percentage based on the human body impedance and personal data; basal metabolic rate calculating means for calculating a basal metabolic rate based on the personal data and body fat percentage; Target body fat percentage setting means for setting the body fat percentage, weight loss body fat calculation means for calculating a body fat amount to be reduced from the difference between the target body fat percentage and the measured body fat percentage, and consuming the weight loss body fat. Calorie calculation means for calculating a calorie amount for performing, a target mileage setting for setting a target mileage for consuming the reduced calorie based on a target running speed and a basal metabolic rate A bicycle with a body fat measurement function, comprising: a step; and a traveling speed measuring means for measuring a traveling speed of the bicycle, wherein the display unit displays the body fat percentage and the target traveling distance in addition to the traveling speed. Speedometer. 4. A housing having a display unit and attached to a bicycle, an electrode arranged on the surface of the housing to measure human body impedance, and personal data for inputting personal data of gender, age, height and weight. Input means; body fat percentage calculating means for calculating a body fat percentage based on the human body impedance and personal data; basal metabolic rate calculating means for calculating a basal metabolic rate based on the personal data and body fat percentage; Target body fat percentage setting means for setting the body fat percentage, weight loss body fat calculation means for calculating a body fat amount to be reduced from the difference between the target body fat percentage and the measured body fat percentage, and consuming the weight loss body fat. Calorie calculation means for calculating a calorie amount for performing, a target mileage setting for setting a target mileage for consuming the reduced calorie based on a target running speed and a basal metabolic rate Steps, running speed measuring means for measuring the running speed of the bicycle, calorie consumption calculating means for calculating actual calorie consumption based on the measured running speed and basal metabolic rate, and subtracting the actual calorie consumption from the reduced calorie. A remaining calorie consumption calculating means for calculating the remaining calorie consumption for consuming the weight loss fat, and a remaining running for calculating a remaining mileage for consuming the remaining calorie based on a target running speed and a basal metabolic rate. A bicycle speedometer with a body fat measurement function, comprising: distance calculation means; and displaying the body fat percentage and the remaining running distance in addition to the running speed on the display unit. 5. A housing having a display unit and attached to a bicycle, an electrode arranged on the surface of the housing to measure human body impedance, and personal data for inputting personal data of gender, age, height and weight. Input means; body fat percentage calculating means for calculating a body fat percentage based on the human body impedance and personal data; basal metabolic rate calculating means for calculating a basal metabolic rate based on the personal data and body fat percentage; Target body fat percentage setting means for setting the body fat percentage, weight loss body fat calculation means for calculating a body fat amount to be reduced from the difference between the target body fat percentage and the measured body fat percentage, and consuming the weight loss body fat Calorie calculation means for calculating the amount of calories required for running, running speed measuring means for measuring the running speed of the bicycle, heart rate measuring means for measuring the heart rate during running, and the measured running A calorie consumption calculating means for calculating actual calorie consumption based on a speed, a heart rate, and a basal metabolic rate.In addition to a running speed, the body fat percentage, the weight loss calorie and the actual calorie consumption are displayed on the display section. A bicycle speedometer with a body fat measurement function.