CN112569519B - Skipping rope and method for detecting energy consumption thereof - Google Patents

Abstract

The invention provides a skipping rope, comprising: a rope; a pair of handles connected to both ends of the rope, respectively; the sensor is arranged on the handle and used for measuring the distance between the handle and the ground; the data processing module is arranged on the handle, is electrically connected with the sensor, and is used for receiving and storing the data measured by the sensor and calculating an energy consumption value; and the transmission module is arranged on the handle, is electrically connected with the data processing module and sends the energy consumption value to the mobile terminal. According to the invention, the height from the handle to the ground in the rope skipping process is measured through the sensor, and the consumed energy value is calculated, so that the accuracy of measuring the consumed energy value in the rope skipping movement is improved. In addition, the invention also provides a method for detecting energy consumption by the skipping rope.

Description

Skipping rope and method for detecting energy consumption thereof

Technical Field

The invention relates to the field of sports equipment, in particular to a skipping rope and a method for detecting energy consumption by the skipping rope.

Background

The skipping rope is a very good sport item, can effectively exercise the coordination ability of limbs and the heart and lung functions, can exercise indoors or outdoors, and is not limited by the field.

In order to enable a sporter to know the energy consumed in rope skipping, the conventional rope skipping sports generally count the rope skipping times, and then calculate the energy consumed in the rope skipping through a mathematical formula. However, in the actual rope skipping process, the height of each jump is different, and the energy consumed by each take-off is different, so that the energy consumed in the motion is calculated by the number of rope skipping times, and the error is larger.

Patent publication CN111729240A discloses a skipping rope, which has a flexible rope body, and further includes a pair of handles, a rotating shaft and a detection circuit module. The handle has an interior cavity. One end of the rotating shaft is positioned in the inner cavity. The end of the rotating shaft in the inner cavity is an inner end, the rope body is rotatably arranged on the handle along the axial direction of the rotating shaft through the rotating shaft, and a magnet is arranged on the outer circumferential surface of the inner end. The detection circuit module is arranged in the inner cavity and comprises a first Hall sensor, a second Hall sensor and a processor, the acquisition ends of the first Hall sensor and the second Hall sensor are arranged towards the outer circumferential surface of the inner end and are arranged oppositely, so that the first Hall sensor and the second Hall sensor can respectively acquire sensing information when the magnet is close to each other, and the sensing output ends of the first Hall sensor and the second Hall sensor are respectively connected with the input end of the processor. The input end of the processor can acquire the sensing information of the first Hall sensor and the second Hall sensor. The processor can acquire the rope swinging cycle number information according to the sensing information of the first Hall sensor and the second Hall sensor and a set time. The set time is the time for shaking the rope once, and the patent only solves the problems of missing and mistakenly recording the rope skipping times in rope skipping, cannot count the energy consumed in rope skipping and cannot accurately obtain the energy consumed in rope skipping movement.

Therefore, how to accurately calculate the energy consumed by skipping ropes is a technical problem to be solved in the skipping rope sports.

Disclosure of Invention

The invention solves the technical problems in the prior art, and provides a skipping rope and a method for detecting energy consumption thereof, which can accurately calculate the energy consumed by a user in skipping rope.

The technical scheme provided by the invention is as follows:

a skipping rope, comprising:

a rope;

a pair of handles connected to both ends of the rope, respectively;

the sensor is arranged on the handle and used for measuring the distance between the handle and the ground;

the data processing module is arranged on the handle and electrically connected with the sensor, the data processing module comprises a calculating unit and a counting unit, the calculating unit is electrically connected with the counting unit, the counting unit is used for counting the rope skipping times, the calculating unit calculates the data measured by the sensor corresponding to the rope skipping times counted by the counting unit every time, and the energy consumption values calculated every time are accumulated and superposed.

The skipping rope provided by the invention has the beneficial effects that: a sensor is arranged in a handle of the skipping rope and used for measuring the distance between the handle and the ground, and the sensor can detect the distance between the handle and the ground in each skipping rope in the skipping rope process. The counting unit is used for counting the times of rope skipping, and the calculating unit is used for calculating the distance data between the handle and the ground, which is measured by the sensor, and accumulating the superposed energy consumption value until the movement is finished. Since the energy consumption value calculated by the calculating unit at each time is calculated by the distance measured by the sensor at each time, the energy consumption value consumed by the user in the rope skipping process is accurately calculated.

Preferably, the method further comprises the following steps: and the transmission module is arranged on the handle, is electrically connected with the computing unit and sends the energy consumption value to the mobile terminal. The beneficial effects are that: the calculated energy consumption value of the calculating unit is sent to the mobile terminal through the transmission module, so that the user can observe the energy consumption value conveniently.

Preferably, the button is arranged on the handle, electrically connected with the sensor, and pressed, the sensor measures the height between the handle and the ground in advance, transmits the measured data to the computing unit to set the measured data as a reference height, and transmits the minimum height between the handle and the ground measured each time to the computing unit by the sensor in the process of rope skipping. The beneficial effects are as follows: through pressing the button, make the sensor measure the distance of handle and ground in advance to set up to reference height, thereby at the rope skipping in-process, transmit the minimum height on handle and ground that measures at every turn for the computational element, with reference height contrast calculation, further ensured the precision of calculation energy consumption value.

Preferably, the calculation unit calculates a difference between the reference height and the minimum height, and derives the energy consumption value.

Preferably, the data processing module further comprises a receiving unit for receiving parameter information, the receiving unit is electrically connected with the calculating unit and transmits the received parameter information to the calculating unit for calculation, wherein the parameter information includes weight, height and arm length. The beneficial effects are as follows: because the parameter information of everyone's weight, height and arm length is all different, so different people receive everyone's corresponding weight, height and arm length's parameter information through the receiving element when using to the energy consumption value that makes the computational element calculate is more accurate, has increased the suitability of product simultaneously.

Preferably, the transmission module is bluetooth and is in wireless connection with the mobile terminal. The beneficial effects are as follows: the Bluetooth is transmitted to the computing unit, so that the connection mode is simple.

Preferably, the sensor, the data processing module and the transmission module are arranged in each of the pair of handles. The beneficial effects are as follows: all set up sensor, data processing module and transmission module through in a pair of handles to data processing module in a pair of handles all can be used to calculate the energy consumption value, can take the average value between the two, avoids the great error that probably exists, simultaneously, has also ensured when damage appears in a handle and can't calculate the energy consumption value, another handle still can continue to use.

Preferably, the power supply module is arranged in the handle, electrically connected with the transmission module and used for supplying power to the transmission module.

Preferably, the power supply module is a chargeable and dischargeable source;

a charging port is formed in one end face, far away from the rope, of the handle, and a charging connector of the chargeable and dischargeable power source is exposed through the charging port.

The skipping rope provided by the invention has the beneficial effects that: the power module is for chargeable and dischargeable power supply, and the handle is kept away from a terminal surface of rope and is seted up a mouth that charges, and the joint that charges in chargeable and dischargeable power supply shows through the mouth that charges, through the terminal surface setting of keeping away from the rope with the mouth that charges, the hand touch joint that charges when having avoided the use has improved the security performance that uses greatly. Simultaneously, avoided the mouth that charges to influence the comfort of holding when the handle side sets up.

A method of detecting energy consumption comprising skipping a rope as in any of the above; also comprises the following steps:

s01, the receiving unit receives the parameter information and transmits the parameter information to the calculating unit;

s02: the handle is held by hand, and the posture of the arm swinging to the lowest end in the skipping rope is simulated;

s03, pressing the button, measuring the distance between the handle and the ground by the sensor, and transmitting the measurement result to the calculation unit as a reference height;

s04: the counting unit is used for counting the times of rope skipping, the sensor measures the minimum height between the handle and the ground in each take-off and transmits the measured result to the calculating unit for calculation;

s05: the calculation unit accumulatively overlaps the calculated results and transmits the accumulatively overlapped results to the mobile terminal in real time through the transmission module;

and SO6, repeating the steps S04 and S05 until the movement is finished.

The method for detecting energy consumption by skipping rope provided by the invention has the beneficial effects that: the parameter information of the user is transmitted to the calculating unit through the receiving unit in advance, the applicability of rope skipping is improved, and the accuracy of calculating the energy consumption value is guaranteed for different users. The distance between the handle and the ground is measured in advance by the sensor by pressing the button and is set as the reference height, so that the minimum height between the handle and the ground measured each time is transmitted to the calculating unit in the rope skipping process, the minimum height is compared with the reference height for calculation, and the accuracy of calculating the energy consumption value is further guaranteed. Since the energy consumption value calculated by the calculation unit each time is calculated from the distance measured by the sensor each time, the energy consumption value of the user during rope skipping is accurately calculated.

Drawings

The above-mentioned characteristics, technical features, advantages and realisations of a skipping rope and a method for detecting energy consumption will be further explained in a clearly understandable way with reference to the following description of preferred embodiments in connection with the accompanying drawings.

FIG. 1 is a schematic diagram of the construction of one embodiment of the skipping rope of this invention;

fig. 2 is a schematic flow chart of the method for detecting energy consumption by skipping rope according to the invention.

The reference numbers illustrate:

rope 1, handle 2, sensor 3, data processing module 4, transmission module 5, button 6, power module 7.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the following description will be made with reference to the accompanying drawings. It is obvious that the drawings in the following description are only some examples of the invention, and that for a person skilled in the art, without inventive effort, other drawings and embodiments can be derived from them.

For the sake of simplicity, the drawings only schematically show the parts relevant to the present invention, and they do not represent the actual structure as a product. In addition, in order to make the drawings concise and understandable, components having the same structure or function in some of the drawings are only schematically illustrated or only labeled. In this document, "one" means not only "only one" but also a case of "more than one".

In one embodiment of the present disclosure, as shown in fig. 1, a skipping rope includes: rope 1, a pair of handle 2, sensor 3, data processing module 4 and transmission module 5, wherein, a pair of handle 2 respectively with the both ends of rope 1 are connected, sensor 3 locates handle 2 is used for measuring the interval of handle 2 and ground, still be equipped with in the handle 2 data processing module 4, data processing module 4 with sensor 3 electricity is connected, data processing module 4 is including calculation unit and counting unit, just calculation unit with the counting unit electricity is connected, counting unit is used for counting the number of times of skipping at every turn, calculation unit will be every time counting unit statistics number of times of skipping corresponds sensor 3 measured data calculates, and the accumulative total stack of the energy consumption value that will calculate calculates energy consumption value in skipping.

The actual measured heights of the handle 2 and the ground during rope skipping are measured by arranging the sensor 3, and the sensor 3 can detect the distance between the handle 2 and the ground during each rope skipping. The counting unit is used for counting the times of rope skipping, and the calculating unit is used for calculating the distance data between the handle and the ground, which is measured by the sensor, and accumulating the superposed energy consumption value until the movement is finished. Since the energy consumption value calculated by the calculation unit each time is calculated from the distance measured by the sensor 3 each time, the energy consumption value of the user during rope skipping is accurately calculated.

It should be noted that an inner cavity is arranged in the handle 2 and is used for arranging the sensor 3, the data processing module 4 and the transmission module 5. It is conceivable that the sensor 3 is a distance measuring sensor, and a commercially available distance measuring sensor with superior performance may be selected, which is not described in detail herein. In addition, in practical production application, the connection mode of the rope 1 and the handle 2 can be set according to practical requirements, for example, the rope 1 and the handle 2 are connected through a rotating shaft, so that friction between the rope 1 and the handle 2 is avoided, the service life is prolonged, and the like.

Preferably, the mobile terminal further comprises a transmission module 5, which is also arranged on the handle 2, is electrically connected with the computing unit and transmits the energy consumption value to the mobile terminal.

It should be noted that, in the process of skipping the rope, the user can know the amount of exercise in the process of exercise conveniently by sending the energy consumption value to the mobile terminal, and if the display screen is installed on the handle 2, the user cannot know the specific energy consumption value in the process of exercise conveniently.

Further, the data processing module 4 further includes a receiving unit for receiving parameter information, wherein the receiving unit is electrically connected to the calculating unit and transmits the received parameter information to the calculating unit for calculation, and the parameter information includes weight, height and arm length.

Because the parameter information of everyone's weight, height and arm length is all different, different people when using, through receiving unit receives the parameter information that everyone corresponds, makes the energy consumption value that the computational element calculated is more accurate.

In another embodiment disclosed in the present invention, referring to fig. 1, on the basis of the above embodiment, the present invention further includes a button 6, the button 6 is disposed on the handle 2, preferably, when a user holds the handle 2, a through hole is disposed on a side surface of the handle 2 corresponding to a thumb, the button 6 is electrically connected to the sensor 3 through the through hole, in an initial state, the button 6 is pressed, the sensor 3 measures a height between the handle 2 and the ground, and transmits measurement data to the computing unit to set the measurement data as a reference height, in a motion state, each time the user takes off, the sensor 3 transmits a minimum height measured between the handle 2 and the ground to the computing unit. The actual jump height in the skipping rope can be obtained by setting the reference height and the minimum height between the handle 2 and the ground during each jump.

Furthermore, the difference between the reference height and the minimum height is calculated through the calculating unit, and the energy consumption value is calculated by using the difference, so that the accuracy of measuring the energy consumption value is further improved, and possible errors are avoided.

Preferably, the transmission module 5 is a bluetooth, is wirelessly connected with the mobile terminal, inputs parameter information at the mobile terminal, and transmits the parameter information to the computing unit through the bluetooth, so that the operation is simple and convenient. The mobile terminal may be a smart phone or other smart product.

Further preferably, the sensor 3, the data processing module 4 and the transmission module 5 are arranged in the pair of handles 2, and the sensor, the data processing module and the transmission module are arranged in the pair of handles, so that the data processing modules in the pair of handles can be used for calculating energy consumption values, and an average value between the sensor and the data processing module can be taken, thereby avoiding possible large errors, and simultaneously ensuring that when one handle is damaged and cannot calculate the energy consumption value, the other handle can still be used continuously.

Preferably, the portable electronic device further comprises a power supply module 7, wherein the power supply module 7 is arranged in the handle 2, is electrically connected with the transmission module 5, and is used for supplying power to the transmission module 5. Specifically, the power supply module is a rechargeable power source, and it should be noted that a charging port is formed in one end surface of the handle 2, which is far away from the rope 1, and a charging connector of the rechargeable power source is exposed through the charging port. It is worth to say that, through with charge mouthful keep away from one end setting of rope 1, avoided the hand to touch when using charge the joint, improved the security performance that uses greatly. Simultaneously, avoided the mouth that charges is in influence the comfort of holding when 2 sides of handle set up.

A method of detecting energy consumption, comprising skipping a rope as in any of the embodiments above, further comprising the steps of:

s01, the receiving unit receives the parameter information and transmits the parameter information to the calculating unit;

s02: the handle is held by hand, and the posture of the arm swinging to the lowest end in the skipping rope is simulated;

s03, pressing the button, measuring the distance between the handle and the ground by the sensor, and transmitting the measurement result to the calculation unit as a reference height;

s04: the counting unit is used for counting the times of rope skipping, the sensor measures the minimum height between the handle and the ground in each take-off and transmits the measured result to the calculating unit for calculation;

s05: the calculation unit accumulatively overlaps the calculated results and transmits the accumulatively overlapped results to the mobile terminal in real time through the transmission module;

and SO6, repeating the steps S04 and S05 until the movement is finished.

In this embodiment, the parameter information is first sent to the receiving unit, and it should be noted that the transmission module 5 is configured to transmit the parameter information input to the mobile terminal to the receiving unit, and the receiving unit transmits the information to the computing unit for backup. And when the button 6 is pressed, the sensor 3 measures the height between the handle 2 and the ground, transmits the measured data to the calculating unit to be set as the reference height, and transmits the minimum height measured by the handle 2 and the ground to the calculating unit by the sensor 3 every time the rope is taken off during the motion process of the skipping rope. By setting a reference height and the minimum height between the handle 2 and the ground during each take-off, calculating the difference between the reference height and the minimum height through the calculating unit, calculating an energy consumption value by using the difference, accumulating and overlapping the calculated results through the calculating unit, and transmitting the accumulated results to the mobile terminal through the transmission module 5 in real time, the accuracy of measuring the energy consumption value is further improved, and possible errors are avoided.

It should be noted that the above embodiments can be freely combined as necessary. The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (6)

1. A skipping rope, comprising:

a rope;

a pair of handles connected to both ends of the rope, respectively;

the sensor is arranged on the handle and used for measuring the distance between the handle and the ground;

the data processing module is arranged on the handle and is electrically connected with the sensor, the data processing module comprises a calculating unit and a counting unit, the calculating unit is electrically connected with the counting unit, the counting unit is used for counting the rope skipping times, the calculating unit calculates the rope skipping times counted by the counting unit each time and the corresponding data measured by the sensor, and cumulatively superposes the energy consumption value calculated each time;

the transmission module is arranged on the handle, is electrically connected with the computing unit and sends the energy consumption value to the mobile terminal;

the button is arranged on the handle, is electrically connected with the sensor and is pressed, the sensor measures the height between the handle and the ground in advance and transmits measurement data to the computing unit to set the height as a reference height, and in the process of rope skipping, the sensor transmits the minimum height between the handle and the ground measured each time to the computing unit;

the calculation unit calculates a difference between the reference height and the minimum height, and obtains the energy consumption value;

the data processing module further comprises a receiving unit used for receiving parameter information, the receiving unit is electrically connected with the calculating unit and transmits the received parameter information to the calculating unit for calculation, wherein the parameter information comprises weight, height and arm length.

2. The skipping rope of claim 1, wherein:

the transmission module is Bluetooth and is in wireless connection with the mobile terminal.

3. The skipping rope of claim 1, wherein:

the sensor, the data processing module and the transmission module are arranged in the pair of handles.

4. The skipping rope of claim 1, further comprising:

and the power supply module is arranged in the handle, is electrically connected with the transmission module and is used for supplying power to the transmission module.

5. The skipping rope of claim 4, wherein:

the power supply module is a chargeable and dischargeable source;

a charging port is formed in one end face, far away from the rope, of the handle, and a charging connector of the chargeable and dischargeable power source is exposed through the charging port.

6. A method of detecting energy consumption, characterized by: comprising a skipping rope as claimed in any one of claims 1 to 5; also comprises the following steps:

s01, the receiving unit receives the parameter information and transmits the parameter information to the calculating unit;

s02: the handle is held by hand, and the posture of the arm swinging to the lowest end in the skipping rope is simulated;

s03, pressing the button, measuring the distance between the handle and the ground by the sensor, and transmitting the measurement result to the calculation unit as a reference height;

s04: the counting unit is used for counting the times of rope skipping, the sensor measures the minimum height between the handle and the ground in each take-off and transmits the measured result to the calculating unit for calculation;

s05: the calculation unit accumulatively overlaps the calculated results and transmits the accumulatively overlapped results to the mobile terminal in real time through the transmission module;

and SO6, repeating the steps S04 and S05 until the movement is finished.

Images