CN121041640A - The jogging mat with built-in beat interaction - Google Patents

Abstract

The invention relates to an in-situ jogging pad with beat interaction, which mainly provides an interactive jogging pad which is comfortable and soft and can protect feet, wherein a beat controller and a pressure sensing system are built in the jogging pad, the electronic beat generator and a built-in loudspeaker can automatically generate motion beats matched with user settings, the user is guided to perform in-situ running or stepping exercise at regular steps, the user can customize beat speed, volume and motion modes through buttons on the controller, the personalized motion requirement is met, the pressure sensing module can accurately monitor the force and frequency of the feet of the user, and the force and the frequency can be fed back to the beat controller in real time, so that the motion efficiency and the motion effect are ensured. In addition, the intelligent exercise device can be connected with intelligent equipment, and exercise data is recorded through the special APP, so that personalized exercise advice is provided, and exercise interactivity and interestingness are enhanced. The jogging pad has small volume, low cost and strong function, is suitable for being used anytime and anywhere, and provides a convenient, effective and high-interactivity in-situ jogging body-building solution for users.

Description

In-situ jogging pad with beat interaction

Technical Field

The invention belongs to the technical field of body-building equipment, and particularly relates to an intelligent body-building pad designed for in-situ jogging and stepping. The novel exercise mode is provided through a built-in beat interactive system, so that exercise experience of a user is enhanced and exercise effect is improved.

The invention utilizes advanced electronic and sensing technology to realize dynamic guidance and response to the movement rhythm of the user, and encourages the user to perform aerobic exercise with different intensities through adjustable beat setting, thereby meeting the personal fitness target and requirement. In addition, the technology of the invention considers space saving and user convenience, so that the technology is particularly suitable for a scene which can be used everywhere, and provides a convenient and efficient body-building solution for modern people.

Background

The prior art in the field of home exercise has focused mainly on providing various forms of aerobic exercise equipment, such as conventional treadmills, elliptical machines, stationary bicycles, etc., which are designed primarily to simulate the physical exercise trails of outdoor exercises to assist users in performing aerobic exercises at home, however, these conventional equipment tend to be bulky, require considerable living space, and are relatively limited in terms of interactivity and personalization settings, and lack sufficient flexibility to accommodate individual exercise needs and preferences.

In addition, although some simple running pads are already on the market, the running pads are only simple buffer pads or yoga pads, and the like, and synchronous beats or music can be obtained only by being matched with an external metronome or a mobile phone each time, so that the running pads are inconvenient in the process, and the use complexity is improved.

Thus, while the prior art has provided a variety of devices and applications for home fitness, there remains a need for a more integrated, interactive, and easy to use in-situ jogging solution that better accommodates everywhere practicable ultra-jogging exercises at low cost while providing a more personalized exercise experience to motivate and maintain the user's exercise interests and motivation. The invention provides an in-situ jogging pad with beat interaction, which aims to overcome the limitation of the prior art and provides an innovative in-situ ultra-jogging exercise scheme for a user through a built-in beat controller and a pressure sensing system.

Disclosure of Invention

In modern life with fast pace, people are increasingly demanding convenient and efficient fitness solutions. Recently, an ultra-jogging exercise mode performed in situ is developed around the world, and although the exercise is effective, the exercise injury is often caused by too hard ground or incorrect running posture. In order to protect the feet, many people choose to purchase auxiliary tools such as cushion pads or yoga mats special for running. However, these mats often lack built-in metronomes and other auxiliary functions, so that many users have to additionally use cell phones or smart devices to assist in ultra jogging training. The invention provides an in-situ jogging pad with beat interaction, which is designed for the requirement. The novel exercise platform not only combines advanced technology and ergonomics and provides a high-efficiency exercise platform, but also has innovative design so that a user can enjoy brand new exercise experience brought by science and technology everywhere at home or outdoors.

Firstly, the running pad is made of high-quality, durable and elastic materials, and the bottom is coated with special anti-skid textures so as to ensure the use safety. The size and thickness of the cushion body are designed carefully, so that not only can enough supporting force be provided, but also moderate buffering can be generated when the cushion body is trampled, and the impact on the knee and ankle joint is reduced.

The key feature of the present invention is that a built-in beat controller is composed of a microprocessor unit, electronic beat generator, speaker and user interaction interfaces such as buttons and touch screen. The beat controller is capable of generating various beat patterns that guide the user through running or stepping exercises of varying intensity. In addition, a plurality of preset movement modes are also designed in the beat controller, and a user can quickly select according to personal fitness targets and favorites. The beat generator generates a series of regular beat signals by using a digital signal processing technology through a built-in oscillator, and a user can adjust the speed (BPM) of the beat through a setting button on the beat controller, so that the beat can be freely set from a slow walking rhythm to a fast running rhythm. These digital signals are converted into analog signals by a digital-to-analog converter, and finally output in the form of sound by a horn.

The user interaction interface design not only comprises the adjustment of beat speed and volume, but also enables a user to select different movement modes, such as endurance training, intermittent training and the like of an elastic belt. This customizable functionality enables the present jogging pad to meet the needs of different users.

Another innovation of the present invention is that a pressure sensing system is provided in the running pad sandwich layer, which can be used to detect the pedaling force and frequency of the user through a plurality of pressure sensors arranged in the pad surface. These data are transmitted to the beat controller for analysis in real time, and the system can adjust the beat speed or inform the user according to the analysis result, so as to ensure that the user trains with correct intensity. In addition, the pressure data may also be used to estimate the energy consumption of the movement, helping the user to better monitor his or her amount of movement.

The invention combines the pressure sensing system and the beat controller to provide dynamic exercise response, for example, when a user steps on the running pad, even if the sound of the beat controller is not started, the interesting effect of stepping can be automatically emitted, so that the user can feel like an instrument on the running pad, and can be led to actively step on or run, in addition, when the stepping frequency of the user is lower than the set beat, the beat controller can also adjust the played beat sound or give a visual prompt through a display to guide the user to adjust the exercise rhythm.

The jogging pad also has the interconnection function with intelligent equipment, a user can connect the jogging pad to a mobile phone or a tablet computer through Bluetooth or a wireless network, and can check own motion data in an application program (APP) through the APP, set a personalized training plan and even perform virtual competition with friends, so that the fun and interactivity of motion are greatly increased.

The self-beat interactive in-situ jogging pad provided by the invention provides a brand new solution for home body building by integrating advanced digital technology and a plurality of effective designs, has small volume, low cost and powerful functions, and is suitable for use at any time and any place. The jogging pad can help a user to scientifically exercise and train, and can excite exercise enthusiasm of the user through an interaction function, so that body building becomes more efficient and interesting, and the jogging pad can effectively improve healthy life quality for new sports hands or senior body building lovers.

In summary, the invention has wide application prospect under the framework, is suitable for families, offices and various occasions, and the in-situ jogging pad with beat interaction has the technical characteristics of innovation and progress, not only caters to the rapid life style of modern people, but also satisfies the pursuit of people on high-quality life, and is expected to promote the development of related industries in the markets of fitness culture and smart home, thereby providing more intelligent and rich fitness experience.

Drawings

FIG. 1 is a schematic view of the main structure of the present invention;

FIG. 2 is a diagram of an embodiment of the present invention having a pressure sensing module;

FIG. 3 is a schematic view of the lamp light assembly and the piezoelectric element of the present invention;

FIG. 4 is a diagram of an embodiment of the present invention having a composite layer;

FIG. 5 is an internal architecture diagram of the internal circuitry and circuit module of the present invention;

FIG. 6 is a schematic diagram of the structure of the weighing scale and weighing sensor of the present invention;

FIG. 7 is a schematic diagram of the connection of the present invention to a cell phone and cloud network;

fig. 8 is a diagram of an embodiment of the present invention provided with elastic tension bands.

Reference numerals illustrate:

1. Running pad

2. Pedal part

3. Beat controller

4. Loudspeaker

5. Setting button

6. Pedal key

7. Beat generator

8. Display device

9. Pressure sensing module

20. Lamplight group

21. Piezoelectric element

22. Film pressure sensor

30. Surface layer

31. Buffer anti-slip layer

32. Circuit arrangement

33. Circuit board

34. Horn with horn body

35. Battery cell

36 USB interface

40. Wireless module

41. Mobile phone

42. Cloud network

43 APP application

50. Elastic tension belt

60. Weight meter

61. Weighing sensor

Detailed Description

Referring to fig. 1, the present invention is an in-situ jogging pad with a beat interaction, which mainly comprises a running pad (1) and a beat controller (3), wherein the surface of the running pad (1) is provided with a pedal part (2) for providing in-situ running or stepping for use, a shell of the beat controller (3) can be tightly connected with the running pad (1) by an up-down nailing mode or a screw locking mode, so as to be convenient for storage, an electronic beat generator (7), a loudspeaker (4) and a plurality of setting buttons (5) are arranged in the beat controller (3), beats with different speeds can be set on the beat generator (7) through the setting buttons (5), and beat sounds can be regularly emitted through the loudspeaker (4), and repeated playing is performed for a long time, so that a user can perform in-situ running or stepping motion according to the beat sounds emitted by the loudspeaker (4), and the in-situ jogging pad with the beat interaction can provide a mobile phone with a characteristic that the user does not need to be integrated or need to be introduced into the beat generator, and the in-situ jogging pad is convenient for the user to build the beat.

Wherein the electronic beat generator (7) operates on the basis of Digital Signal Processing (DSP) technology, which generates a series of regular beat sounds by means of hardware circuits or software programs. The main operation principle and elements thereof comprise the following parts 1. An Oscillator (Oscillator) is the core of a beat generator (7) which can generate stable repeated signals (such as sine waves, square waves, etc.). In the beat generator (7), the frequency of these signals is set to correspond to different beat speeds, for example 120 Beats Per Minute (BPM) or faster and slower. 2. And a micro control unit (Microcontroller Unit, MCU) which is a small computer and is responsible for controlling the functions of the beat generator 3. It can read the inputs (such as tempo, volume, play time, etc.) made by the user through the setting button (5) and adjust the output of the oscillator according to these inputs. 3. When the oscillator generates Digital signals, a Digital-to-Analog Converter (DAC) converts the Digital signals into Analog signals so that the signals can be sent to a speaker (4) for playback. Therefore, the in-situ jogging pad with beat interaction provides a convenient, practical, innovative and more advanced exercise mode for users by utilizing the technological capability, and is particularly suitable for being used in older or smaller exercise space fields.

Referring to fig. 2, the running pad (1) or the pedal (2) can be provided with a pressure sensing module (9) on the contact surface of the left and right feet respectively, so that the pressure value of single or multiple points of each foot pedal can be detected and transmitted to the beat controller (3) for internal operation, besides recording the actual pedal times and the accurate time points and pressure values of each foot pedal position, the energy actually consumed by the exercise or whether the pedal force of the left and right feet is average or whether the foot pedal falls normally can be calculated by the total pressure value of each foot pedal, or whether the pedal force is normal or not, and the like, and the pressure value is connected to the display (8) through the beat controller (3) and responded in a dynamic graph, audio-visual or color or strip graph mode, the beat controller (3) can also calculate the accumulated pressure value of each pedal and convert the accumulated calculation into the units of total heat consumption, metabolic Equivalent (MET), calories (Kcal) and the like, or even convert the analog unit of each pedal into the analog unit of the total heat consumption, or metabolism equivalent (Kcal) and the like, or even the average distance (KM) can be converted into the analog unit of the pressure value of each pedal force, and the average distance is very low, and the running cost is very accurate, and the running cost is very low, and the running cost is very high because the running cost is sensed by the module is very low.

The invention is embedded with a plurality of pressure sensing modules (9) in the running cushion (1) or the pedal part (2), so that the pressure of the left foot and the right foot can be distinguished, and the pressure distribution of different areas in the sole can be detected. Such a configuration helps to evaluate running patterns and ball drop patterns, providing a more personalized athletic response. These pressure sensing modules (9) use high sensitivity sensors, thus enabling accurate measurement of small pressure changes, capturing the details of each step, including the force of the step and the exact time the sole of the foot contacts the ground. The beat controller (3) receives data from the pressure sensing module (9) and performs analysis on the fly. The important indexes such as energy consumption, trampling times, gait balance and the like of each exercise can be calculated through an algorithm of contact time points of all positions of the sole. After analysis, the motion data are presented on a display (8) in various forms such as dynamic image-text video, color change or strip chart, and the user can intuitively see the motion performance and progress of the user. For example, a color change of the display (8) may be used to indicate pressure magnitude or pedaling equalization, while a bar graph or pulse waveform graph may show an immediate and dynamic energy trend. Based on the collected data, the beat controller (3) can also provide health and training advice based on the athletic performance of the user, such as adjusting athletic strength, improving gait, or ball landing pattern, etc.

The energy consumed for the activity was calculated as energy consumed (kcal) =body weight (kg) ×mets/60×activity time (min). For example, a 50 kg person sitting on television for one half hour consumes about 50 x 1/60 x 90=75 (kcal), about as much as 1/4 bowl of white rice. Furthermore, using metabolic equivalents to distinguish between physical activity intensities, caloric expenditure can be estimated from the following table:

Therefore, the amount of heat consumed by exercise can be calculated by using the metabolic equivalent, as shown in the following table, to convert the exercise into jogging exercise time, running distance simulation, or the like. For example, a person weighing 70 kg can consume 406 large cards by walking (at a speed of 4 km/h) for 2 hours per day, with a calculation of 70 x 2.9/60 x 120=406 (large cards).

Kind of activity	MET
		Mild activity	<3
Sleeping device	0.9
		Television watching	1.0
Writing, sitting in front of desk, typing	1.8
		Walk, 4 km/h	2.9
Moderate activity	3-6
		Mild soft gymnastics	3.5
Walk, 5.5 km/h	3.6
		Riding a bicycle, 16 km/h	4.0
Heavy activities	>6
		Jogging with a slow speed	7.0
Fierce soft gymnastics	8.0
		Jogging	8.0
Rope skipping	10

Referring to fig. 3, in one embodiment, at least one pair of light groups (20) are provided on the running pad (1) and distributed above and around the pedal (2), and the beat controller (3) can instruct the user to perform running or stepping exercise in situ by synchronously flashing the light groups (20) according to the set beat. The function of the light set (20) is mainly to take into account the situation that sound is not suitable to be played in late night or the specific requirement situation of people with hearing impairment. In addition, the beat controller (3) can calculate the actual tread time point detected by the pressure sensing module (9) according to the set beat rate, so that the running speed of the user can be instantly compared and reminded to be adjusted at any time when running or stepping. The instant feedback can be realized by various modes such as dynamic graphics, light signals or audio-visual prompts, and the like, thereby helping a user to improve the exercise mode.

In one embodiment, the pressure sensing module (9) is composed of at least one piezoelectric element (21), or a film pressure sensor (22), or a combination thereof, wherein the piezoelectric element (21) can be made of a piezoelectric ceramic plate, so that the cost is very low and the implementation is very easy, the film pressure sensor (22) can use a capacitive or resistive film pressure sensor (22) to obtain a very good effect, wherein the setting button (5) is not necessarily completely composed of a button type button on a shell, or can be made of a pedal type, for example, a treading key (6) or a pedal part (2) can be provided to input signals to the beat controller (3), the treading key (6) can be made of a film button or a simple contact switch, and can be matched with the built-in lamp signal response of the lamplight group (20) or the treading key (6), so that the beat controller (3) can be started or shut down in a treading mode, or a volume control function can be provided to the accumulator (3), or a volume control function can be provided to the accumulator (21) simply by storing the electricity after the functions.

As shown in FIGS. 4 and 5, in one embodiment, the running pad (1) is composed of at least a surface layer (30) and a buffer anti-slip layer (31), and the required internal circuit (32) can be arranged between the two layers or at the upper and lower surfaces, and the required circuits and components, such as a circuit board (33), a loudspeaker (34), a battery (35) and a USB interface (36), are arranged inside the beat controller (3) or at the inner and outer positions of the running pad (1), and the running pad (1) can also be composed of a single layer or multiple layers, and the material of the running pad can be composed of at least one of PU, PVC, TPE, NR (natural rubber), silica gel, PER, EVA, CORK (CORK), POE, EPDM, NBR, hemp, ultrafine fiber or the like.

Wherein, the display (8) can display the current exercise time or the accumulated exercise time, or the setting button (5) can set the exercise time required each time or change the exercise time into kilometers, and the settings and records can be recorded in the beat controller (3), and the last record can be continued when the user uses the device next time, so that the total running time can be continuously calculated after the user stands back to the running pad (1) when the user temporarily stops jogging. The beat controller (3) can be connected to a computer, a television or a mobile device through the USB interface (36), so that the user can watch programs and jog or jog synchronously with characters in films conveniently.

The beat controller (3) can set different beat numbers of each bar, each beat can set to emit different sound effects, and can guide a user to perform running or stepping in situ in a rhythmic manner by matching with beats with different speeds, and the beat controller (3) can provide a plurality of built-in common modes for the user to rapidly select, for example, a mode one, 200BPM, a mode 2 and a wooden fish sound, a mode two, 160BPM, a mode 4 and a water drop sound, a mode three, generating dynamic music with different beat speeds, or a mode four, wherein the rhythmic sound effects are actively generated by the stepping force. The design of the beat controller (3) mainly provides a full rhythm and diversified exercise experience for users through highly customizable and interactive functions, so that the users can also create a personalized exercise rhythm for the needs or favors of the users by setting different beat numbers of each bar and assigning different sound effects to each beat, for example, the users can freely set the beat numbers of each bar from the traditional 2 beats, 3 beats to more complex rhythms such as 5 beats or 7 beats and the like to adapt to different exercise intensity and rhythm feel requirements, and in addition, the beat controller (3) can also assign different sound effects to each beat, from traditional musical instrument sounds such as wooden fish and drum sounds, to natural sounds such as water drops, bird sounds, even electronic sound effects and the like, so as to provide rich auditory stimulus to increase the interestingness during exercise.

Thus, the built-in exercise mode of the beat controller (3) will bring benefits, such as mode one being suitable for high intensity intermittent exercises, and mode two being suitable for stable endurance exercises, each mode having its specific BPM, number of beats and audio settings, allowing the user to quickly start a mode suitable for his current mood or exercise needs. In order to meet the preferences of different users, the beat controller (3) can also automatically generate or select adaptive dynamic music according to the set beat speed, for example, in a mode III, the music aims to promote the power and immersion feeling during exercise, so that the in-situ jogging exercise is not monotonous.

Referring to fig. 6, an integral weight meter (60) may be connected to the bottom of the running pad (1), the weight meter (60) may obtain the weight information of the user through a strain, piezoresistance or piezoelectric weighing sensor (61) and transmit the weight information to the beat controller (3), and these techniques have the characteristics, such as high sensitivity of the strain sensor, suitable for large-scale weight measurement in piezoresistance, and accurate capture of rapidly changing force in piezoelectric mode. The weighing sensor 61 can not only measure static weight, but also capture the weight waveform of each treading, namely the change of weight with time, so that additional information such as gait analysis, stepping force and the like can be provided. In addition, by analyzing the weight value and frequency of treading and combining the weight information of a user, the beat controller (3) can accurately calculate the actual energy consumption in the movement process, and the process can be obtained by carrying out big data operation on factors such as treading force, speed, duration and the like through a built-in algorithm.

Therefore, under the innovation of the invention, the exercise data of a user and the weight change of the user can be combined, the system can provide personalized exercise and health advice to help the user to achieve the body building aim, the running pad (1) combined with the function of the weight scale (60) not only provides convenience for the user to monitor the weight for a long time, but also provides deep exercise and health analysis for the user by precisely analyzing the treading force and weight waveform in the exercise process by using the same weighing sensor (61), thereby realizing higher scientific body building effect.

In one embodiment, as shown in fig. 7, the beat controller (3) provides a wireless module (40) to directly interact with the mobile phone (41), or interact with the mobile phone (41) through a cloud network (42), and perform exercise or health management functions through an APP application (43), by being connected to an intelligent device or application, a user can intuitively check own exercise performance and progress, and can choose to share social media or compare with friends, increasing the interest and motivation of exercise. Furthermore, through the setting button (5) or the stepping key (6), the APP (43) can be directly and reversely started to use various interaction functions through a wireless network or a Bluetooth connection, the design improves the convenience of a user, and the running pad (1) can be quickly matched with devices such as a smart phone (41) or a tablet computer of the user by utilizing the Bluetooth technology. Bluetooth is characterized by low power consumption and high reliability, is suitable for wireless communication in a short distance, is very suitable for a family or gymnasium environment, can access to a cloud network (42) through wireless network connection, realizes wider data synchronization and cloud service, enables a user to directly start an APP application program (43) paired with the running pad (1) through a set button (5) or a stepping key (6) on the running pad (1), does not need to manually operate a mobile phone (41) or other devices, and can be used for controlling functions in the APP application program (43), such as changing a sport mode, adjusting a music play list, viewing sport data and the like. During exercise, the running pad (1) is connected through the wireless module (40) to synchronize exercise data (such as step number, speed, energy consumption and the like) into the APP (43) in real time, so that a user can check exercise performance and progress of the user in real time. In combination with the analytical capabilities of the APP (43), the APP (43) can provide personalized exercise programs and advice to help the user achieve better fitness results based on the user's exercise data and historical performance. Virtual training courses or online contests can be designed in the APP (43), and users can participate in the activities through the running pad, so that the exercise power can be improved, and interaction and comparison can be performed with other users. The APP application (43) may also support sharing sports achievements to social media, or fitness challenges with friends, increasing social nature and enjoyment of sports. By such an embodiment, the tight coupling of the running pad (1) with the APP application (43) through the beat controller (3) will provide the user with a highly interactive and personalized exercise experience and encourage the user to use the exercise apparatus more actively.

In one embodiment, as shown in fig. 8, the running pad (1) may be provided with at least one elastic tension band (50) capable of setting tension of different intensity, and the tension band is sleeved on the foot of the user, so that the resistance of the foot movement can be increased when running or stepping in situ, and the exercise effect can be improved. The design of the running pad (1) incorporates an elastic tension band (50), which is an innovative design that can primarily enhance the exercise effect by increasing the resistance to foot exercise. The design not only enables in-situ running or stepping exercise to be more diversified, but also can adjust resistance strength according to different training requirements. The elastic tension band (50) is designed to be adjustable in strength, and a user can select an appropriate resistance level according to the training level and the target, namely, the elastic tension band can be realized by using bands with different elastic coefficients or adjusting the tightening degree of the bands.

The elastic tension belt (50) is easy to install and detach on the running pad (1), one end of the elastic tension belt is provided with an ankle belt or a fixing device which can be sleeved on the foot, so that the tension belt is stable and is not easy to slip in the exercise process, the resistance of foot exercise is increased when running or stepping in situ by using the elastic tension belt (50), the working strength of lower limb muscles can be effectively improved, and the muscle strength, endurance and explosive force can be improved. In addition, training can be performed for specific muscle groups or motor skills by changing the use mode of the tension belt, such as changing the position or the direction of a fixed point, so that the flexibility and the diversity of training are increased. The setting of different intensity makes elasticity pulling force area can be fit for the crowd of different physical stamina levels and uses, from beginner to professional sportsman can all select suitable resistance according to self demand and train. In addition, the elastic tension band (50) can be combined with the pressure sensing module (9) and the beat controller (3) on the running pad (1) to provide instant response about the exercise intensity, frequency, etc. of the user, thereby further improving the training program. The elastic tension band (50) can also apply resistance from different directions, so that a user can use the muscle groups with less activities at ordinary times during exercise, and the purpose of fully training the muscles of the lower limbs is achieved.

Therefore, it can be understood from the above description of the embodiments that the present invention not only provides an innovative in-situ jogging or stepping exercise mode, but also makes the exercise process more diversified and efficient by integrating the high-precision pressure sensing technology and the intelligent beat control system. The exercise effect is further improved by adding various auxiliary functions, so that the exercise device is not only a common running pad with a buffering function, but also a highly innovative exercise device combining intelligent technology and exercise science, and the novel structure and the advancement of the exercise device completely accord with the application requirements of the invention patent, therefore, the inventor can look forward for the principal early-day subject to the invention, if the principal has any doubt, the inventor decides to coordinate with each other by going against the indication of the principal, and the inventor feels real and convenient.

Claims (10)

1. An in-situ jogging pad with beat-up interaction comprising:

The running pad is provided with a pedal part on the surface for providing in-situ running or stepping, the running pad is connected with a beat controller, the beat controller is provided with at least one beat generator, a loudspeaker and a plurality of setting buttons, beats with different speeds can be set through the setting buttons, beat sounds are emitted through the loudspeaker, and a user is guided to perform in-situ running or stepping exercise according to the beat sounds emitted by the loudspeaker.

2. The in-situ jogging pad with beat interaction according to claim 1, wherein at least one pressure sensing module is arranged on the surface or inside of the jogging pad, and can detect the distribution pressure value of single point or multiple points of each foot sole treading, and transmit the distribution pressure value to the beat controller for operation, besides the actual treading times and time points, the energy actually consumed by the exercise, or whether the treading force of the left foot and the right foot is average or not, or whether the foot sole landing mode is normal or not can be calculated by recording the size of each treading pressure value, and the pressure value is connected to a display through the beat controller and responds in a dynamic graph, or color or strip graph mode, and the beat controller can also convert the accumulated pressure value calculation into units of heat consumption, or metabolic equivalent, calories, or running distance.

3. The in-situ jogging mat with beat interaction of claim 2 wherein the running mat is provided with at least one light set, the beat controller can send out synchronous flashing lights according to the set beat to guide the user to perform in-situ running or stepping exercise, and further, the beat controller can calculate the actual stepping time point detected by the pressure sensing module according to the set beat, and instantly compare or correct the beat speed of the user when running or stepping and remind the user in a dynamic picture, a light or an audio-visual mode.

4. The in-situ jogging pad with beat interaction according to claim 2, wherein the pressure sensing module is composed of at least one piezoelectric element, or a film pressure sensor, or a combination thereof, such as a piezoelectric ceramic plate, or a capacitive or resistive film pressure sensor, the setting button is also composed of a stepping key or the pedal part, the stepping key is composed of a film key or a contact switch, the beat controller can be started or closed in a stepping manner through the stepping key or the pedal part, or each setting function such as a volume control function is performed, and the piezoelectric element can have a power generation function and can provide power for the beat controller.

5. The in-situ jogging pad with beat-up interaction according to claim 2, wherein the running pad is composed of at least a surface layer and a buffer anti-slip layer, necessary circuits are arranged between the two layers or at the upper and lower surfaces, necessary circuits and components such as a circuit board, a loudspeaker, a battery and a USB interface are arranged inside and outside the beat controller or the running pad, the running pad can also be composed of a single layer or a composite multiple layer, and the running pad is composed of at least one of PU, PVC, TPE, NR, silica gel, PER, EVA, CORK, POE, EPDM, NBR, hemp or superfine fiber.

6. The self-contained beat-interactive in-place jogging pad of claim 5 wherein the current or accumulated motion time can be displayed by the display or the desired motion time per time can be set by the set button and the beat controller can be connected to a computer, television or mobile device via the USB interface.

7. The self-contained beat-interactive in-place jogging pad of claim 2, wherein the beat controller can set different beat numbers per bar, each beat can set to emit different sound effects, the beat with different speed is matched, the user is guided to perform in-place running or stepping exercise, and the beat controller can provide a plurality of built-in common modes for the user to quickly select, for example, a mode one, 180BPM, a beat 2, a wooden fish sound, a mode two, 160BPM, a beat 4 and a water drop sound, or a mode three, dynamic music with different beat speeds is generated, or a mode four, the rhythm sound effects are actively generated by the stepping force.

8. The self-beat interactive in-situ jogging pad according to claim 2, wherein the bottom of the jogging pad can be connected with a weight scale, the weight scale obtains the weight information of a user through a plurality of weighing sensors in a strain type, a piezoresistance type or a piezoelectric type, the weighing sensors can measure the weight waveform of each treading and transmit the weight waveform back to the beat controller, and besides the actual treading times and time points, the energy actually consumed by the exercise can be calculated through the weight value of each treading.

9. The in-situ jogging pad with beat interaction of claim 4 wherein the beat controller provides wireless module to interact with the mobile phone directly or through cloud network and exercise or health management functions via APP, and further wherein the APP can be directly started to use various interaction functions via wireless network or Bluetooth connection by the set button or the step key.

10. The self-contained beat-interactive in-situ jogging pad of claim 2 wherein the running pad can be provided with at least one elastic tension band capable of setting tension of different intensities, and the resistance of foot movement can be increased after the running pad is put on the foot of a user during in-situ running or stepping, so as to improve the exercise effect.