CN218338443U - Human state monitoring clothes - Google Patents

Abstract

The application discloses a human body state monitoring garment which comprises a coat, a pair of trousers, a first acquisition module arranged on the coat and a second acquisition module arranged on the trousers; the first acquisition module comprises a first control unit and a first acquisition assembly, the first acquisition assembly is electrically connected with the first control unit, and the first acquisition assembly is used for acquiring a first functional signal of the upper body of a human body and transmitting the acquired first functional signal to the first control unit; the second acquisition module comprises a second control unit and a second acquisition assembly, the second acquisition assembly is electrically connected with the second control unit, and the second acquisition assembly is used for acquiring a second function signal of the lower body of the human body and transmitting the acquired second function signal to the second control unit. The function signals of a plurality of regions of the human body can be collected, and the judgment of the human body state is more accurate.

Description

Human state monitoring clothes

Technical Field

The application relates to the technical field of monitoring equipment, in particular to a human body state monitoring garment.

Background

People generally measure body function parameters in the exercise process through exercise monitoring products in the exercise process, however, the exercise monitoring products in the related art can only collect function signals of a single area of a human body, and the judgment of the human body state is not accurate enough.

SUMMERY OF THE UTILITY MODEL

The application provides a human state monitoring clothes, can gather the functional signal in a plurality of regions of human body, and is more accurate to human state's judgement.

A human condition monitoring garment comprising: a coat; putting trousers; the first acquisition module is arranged on the coat and comprises a first control unit and a first acquisition assembly, the first acquisition assembly is electrically connected with the first control unit and is used for acquiring at least one first functional signal of the upper body of a human body and transmitting the acquired first functional signal to the first control unit; the second acquisition module is arranged in the trousers, the second acquisition module comprises a second control unit and a second acquisition assembly, the second acquisition assembly is electrically connected with the second control unit, and the second acquisition assembly is used for acquiring at least one second function signal of the lower part of the human body and transmitting the acquired second function signal to the second control unit.

In some embodiments of the present application, the first collecting assembly is configured to collect a plurality of first functional signals of an upper body of a human body, and the first functional signal is one of a respiratory electrical signal, a pectoral muscle electromyographic signal, an electrocardiograph signal, a left brachial biceps electromyographic signal, a right brachial biceps electromyographic signal, and an abdominal muscle electromyographic signal. A plurality of first function signals are collected through the first collecting assembly, and the judgment on the state of the human body can be more accurate.

In some embodiments of the present application, the top garment includes a left sleeve and a right sleeve, and the first collection assembly includes: the first acceleration collector is arranged on the left sleeve and is electrically connected with the first control unit, and the first acceleration collector is used for collecting the left-hand acceleration of a human body; and the second acceleration collector is arranged on the right sleeve and is electrically connected with the first control unit, and the second acceleration collector is used for collecting the acceleration of the right hand of the human body. The left-hand acceleration and the right-hand acceleration of the human body can be respectively collected through the first acceleration collector and the second acceleration collector, and the motion type of the user in motion can be judged by combining collected various function signals of the human body.

In some embodiments of the present application, the second collecting assembly is configured to collect a plurality of second functional signals of the lower body of the human body, and the second functional signal is one of a left leg muscle electrical signal and a right leg muscle electrical signal. Multiple second function signals are collected through the second collecting assembly, and judgment of the human body state can be more accurate.

In some embodiments of the present application, the bottom pants comprise a left leg pant and a right leg pant, and the second acquisition assembly comprises: the third acceleration collector is arranged on the left leg trousers and is electrically connected with the second control unit, and the third acceleration collector is used for collecting the acceleration of the left leg of the human body; and the fourth acceleration collector is arranged on the right leg trousers and is electrically connected with the second control unit, and the fourth acceleration collector is used for collecting the acceleration of the right leg of the human body. The left leg acceleration and the right leg acceleration of the human body can be collected through the third acceleration collector and the fourth acceleration collector respectively, and the motion type and the standard degree of motion actions of the user during motion can be judged more accurately by combining the information of the upper body of the human body collected by the first collection module.

In some embodiments of the present application, the first acquisition assembly comprises: the first acquisition electrode groups are arranged on the coat and electrically connected with the first control unit, a plurality of groups of the first acquisition electrode groups are arranged, and each group of the first acquisition electrode groups is used for correspondingly acquiring one type of the first function signals; the first control unit is electrically connected with the first reference electrode and is used for providing a first reference voltage for the first reference electrode; the second acquisition assembly further comprises: the second acquisition electrode groups are arranged in the trousers and are electrically connected with the second control unit, the second acquisition electrode groups are provided with a plurality of groups, and each group of the second acquisition electrode groups is used for correspondingly acquiring one type of the second function signals; the second reference electrode is electrically connected with the second control unit, and the second control unit is also used for providing a second reference voltage for the second reference electrode; the first acquisition electrode group comprises a first electrode and a second electrode, the first electrode and the second electrode are electrically connected with the first control unit, the first electrode is used for forming an electric loop with the first reference electrode, and the second electrode is used for forming an electric loop with the first reference electrode; the second collection electrode group comprises a third electrode and a fourth electrode, the third electrode and the fourth electrode are electrically connected with the second control unit, the third electrode is used for forming an electric loop with the second reference electrode, and the fourth electrode is used for forming an electric loop with the second reference electrode. Can acquire a first functional signal such as a chest muscle electromyographic signal and a second functional signal such as a left leg muscle electromyographic signal.

In some embodiments of the present application, the first acquisition module further comprises: the first conductive sewing thread is sewn on the upper garment, and the first electrode and the second electrode are electrically connected with the first control unit through the first conductive sewing thread; the second acquisition module further comprises: the second conductive sewing thread is sewn on the lower trousers, and the third electrode and the fourth electrode are electrically connected with the second control unit through the second conductive sewing thread. Can strengthen the joint strength of first electrically conductive sewing thread and jacket and the joint strength of the electrically conductive sewing thread of second and trousers down, prevent that first electrically conductive sewing thread and the electrically conductive sewing thread of second from droing, the electrically conductive sewing thread of first electrically conductive sewing thread and second also can wash simultaneously to need not tie up extra conductor wire on the user body, can improve user's convenience.

In some embodiments of the present application, the first control unit and the second control unit each comprise: a circuit board; the filtering and amplifying unit is arranged on the circuit board and is used for receiving functional signals of a human body and amplifying and filtering the functional signals to output amplified signals; the analog-to-digital conversion unit is arranged on the circuit board and is electrically connected with the filtering amplification unit, and the analog-to-digital conversion unit is used for performing analog-to-digital conversion on the amplified signal so as to output a digital signal; the control chip is electrically connected with the analog-to-digital conversion unit and is used for receiving the digital signal and processing the digital signal; the power supply unit is arranged on the circuit board and electrically connected with the filtering amplification unit, the analog-to-digital conversion unit and the control chip, and the power supply unit is used for supplying power to the filtering amplification unit, the analog-to-digital conversion unit and the control chip; the filtering and amplifying unit of the first control unit is electrically connected with the first acquisition assembly, and the function signal of the human body received by the filtering and amplifying unit of the first control unit is the first function signal; the filtering and amplifying unit of the second control unit is electrically connected with the second acquisition assembly, and the function signal of the human body received by the filtering and amplifying unit of the second control unit is the second function signal.

In some embodiments of the present application, the first control unit further includes a first wireless module, the second control unit further includes a second wireless module, the first control chip is electrically connected to the first wireless module, the second control chip is electrically connected to the second wireless module, the first wireless module is communicatively connected to the second wireless module, and one of the first wireless module and the second wireless module is communicatively connected to a terminal. The terminal processes and calculates various data corresponding to the first function signal and various data corresponding to the second function signal, and can judge whether the user is in exercise, the type of exercise performed during exercise, the standard degree of exercise action, the intensity of exercise and the like.

In some embodiments of the present application, the first control unit is detachably connected to the upper garment, and the second control unit is detachably connected to the lower pants. The first control unit and the second control unit can be taken out independently, the first control unit and the second control unit can be charged, and the first control unit and the second control unit can be prevented from being damaged when the upper garment and the lower garment are washed.

The beneficial effect of this application does: set up first collection module and second collection module in jacket and trousers respectively, first collection module can gather the first function signal of human upper part of the body, second collection module can gather the second function signal of human lower part of the body, thereby can gather the function signal in a plurality of regions of human body, judge more accurate to human state, the user only need be like wearing the clothes usually simultaneously, just can realize the long-term dynamic monitoring to human state, human state monitoring clothes can be dressed for a long time, user's convenience and travelling comfort have been improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments or related technologies of the present application, the drawings needed to be used in the description of the embodiments or related technologies are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a human body state monitoring garment according to an embodiment of the present application;

FIG. 2 is a schematic structural view of the upper garment and the first collection module according to an embodiment of the present application;

FIG. 3 is a schematic structural view of the pants and the second acquisition module according to an embodiment of the present disclosure;

FIG. 4 is a schematic structural diagram of a first electrode, a second electrode, a first reference electrode, a third electrode, a fourth electrode and a second reference electrode according to an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of a first control unit and a second control unit in an embodiment of the present application.

Reference numerals:

10. a coat; 11. a left sleeve; 12. a right sleeve; 20. putting trousers; 21. left leg pants; 22. right leg pants; 30. a first acquisition module; 31. a first control unit; 311. a first circuit board; 312. a first filtering amplification unit; 313. a first analog-to-digital conversion unit; 314. a first control chip; 315. a first power supply unit; 316. a first wireless module; 317. a first communication unit; 32. a first collection assembly; 321. a first acceleration collector; 322. a second acceleration collector; 323. a first collection electrode group; 323a, a first electrode; 323b, a second electrode; 324. a first reference electrode; 33. a first conductive sewing thread; 40. a second acquisition module; 41. a second control unit; 411. a second circuit board; 412. a second filtering and amplifying unit; 413. a second analog-to-digital conversion unit; 414. a second control chip; 415. a second power supply unit; 416. a second wireless module; 417. a second communication unit; 42. a second collection assembly; 421. a third acceleration collector; 422. a fourth acceleration collector; 423. a second collection electrode group; 423a, a third electrode; 423b, a fourth electrode; 424. a second reference electrode; 43. a second conductive sewing thread; 51. conductive cloth; 52. an elastic sponge; 61. a speaker; 62. a switch unit; 70. and (4) a terminal.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clearly understood, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The application provides a human state monitoring clothes to motion monitoring product in solving the correlation technique can only gather the functional signal in human single region, to the not accurate enough problem of judgement of human state.

Specifically, as shown in fig. 1, the human body condition monitoring suit includes a top garment 10, a pair of trousers 20, a first acquisition module 30, and a second acquisition module 40.

Wherein, the jacket 10 can be a T-shirt, a jacket, a windcoat or a shirt, etc., and the style, the size, the preparation materials, etc. of the jacket 10 are not limited in the application; the pants 20 may be sport pants, jeans, casual pants, or the like, and the style, size, material for manufacturing, and the like of the pants 20 are not limited in this application.

The first acquisition module 30 is arranged on the coat 10, the first acquisition module 30 comprises a first control unit 31 and a first acquisition assembly 32, the first acquisition assembly 32 is electrically connected with the first control unit 31, and the first acquisition assembly 32 is used for acquiring at least one first function signal of the upper body of the human body and transmitting the acquired first function signal to the first control unit 31.

The second acquisition module 40 is arranged in the trousers 20, the second acquisition module 40 comprises a second control unit 41 and a second acquisition component 42, the second acquisition component 42 is electrically connected with the second control unit 41, and the second acquisition component 42 is used for acquiring at least one second function signal of the lower part of the human body and transmitting the acquired second function signal to the second control unit 41.

It should be noted that, set up first collection module 30 and second collection module 40 in overcoat 10 and lower trousers 20 respectively, first collection module 30 can gather the first function signal of human upper part of the body, second collection module 40 can gather the second function signal of human lower part of the body, thereby can gather the function signal in a plurality of regions of human body, judge more accurately to human state, the user only need be like wearing clothes usually simultaneously, just can realize the long-term dynamic monitoring to human state, human state monitoring clothes can be dressed for a long time, user's convenience and travelling comfort have been improved.

As shown in fig. 2, in some embodiments of the present application, the first collecting assembly 32 is configured to collect a plurality of first functional signals of the upper body of the human body, wherein the first functional signals are one of a respiratory electrical signal, a pectoral myoelectric signal, an electrocardiograph signal, a left biceps myoelectric signal, a right biceps myoelectric signal, and an abdominal myoelectric signal. It can be understood that different areas of the upper body of the human body have different kinds of first function signals, for example, the chest area can collect respiration electric signals and chest muscle electromyogram signals, the heart can collect electrocardiosignals, the abdomen area can collect abdominal muscle electromyogram signals, and the first collection assembly 32 is used for collecting various first function signals, so that the judgment on the state of the human body can be more accurate.

With continued reference to fig. 2, in one embodiment of the present application, the coat 10 includes left and right sleeves 11 and 12, and the first capturing assembly 32 includes a first acceleration capturing device 321 and a second acceleration capturing device 322.

The first acceleration collector 321 is arranged on the left sleeve 11 and electrically connected with the first control unit 31, and the first acceleration collector 321 is used for collecting left-hand acceleration of a human body; the second acceleration collector 322 is disposed on the right sleeve 12 and electrically connected to the first control unit 31, and the second acceleration collector 322 is used for collecting the acceleration of the right hand of the human body.

It can be understood that the first acceleration collector 321 and the second acceleration collector 322 can respectively collect the left-hand acceleration and the right-hand acceleration of the human body, and the collected various function signals of the human body can be combined to determine the motion type of the user in motion, for example, when the user lifts a dumbbell, the left-hand acceleration and the right-hand acceleration of the human body both show periodic variation laws, and the myoelectric signal of the left biceps brachii muscle and the myoelectric signal of the right biceps brachii muscle are very obvious.

As shown in fig. 3, in some embodiments of the present application, the second collecting component 42 is configured to collect a plurality of second functional signals of the lower body of the human body, where the second functional signal is one of a left leg muscle electrical signal and a right leg muscle electrical signal, and the judgment on the state of the human body can be more accurate by collecting the plurality of second functional signals through the second collecting component 42.

With continued reference to fig. 3, in an embodiment of the present application, the lower pants 20 comprise a left leg pants 21 and a right leg pants 22, and the second collecting assembly 42 comprises a third acceleration collector 421 and a fourth acceleration collector 422.

The third acceleration collector 421 is disposed on the left leg pants 21 and electrically connected to the second control unit 41, and the third acceleration collector 421 is configured to collect the acceleration of the left leg of the human body; the fourth acceleration collector 422 is disposed on the right leg pants 22 and electrically connected to the second control unit 41, and the fourth acceleration collector 422 is used for collecting the acceleration of the right leg of the human body.

It can be understood that the left leg acceleration and the right leg acceleration of the human body can be respectively collected through the third acceleration collector 421 and the fourth acceleration collector 422, and the motion type and the standard degree of the motion action of the user during the motion can be more accurately judged by combining the information of the upper body of the human body collected by the first collection module 30.

It should be further noted that the first acceleration collector 321, the second acceleration collector 322, the third acceleration collector 421 and the fourth acceleration collector 422 may all include a flexible soft board and an acceleration sensor disposed on the flexible soft board, and the flexible soft board and the acceleration sensor thereon are both subjected to waterproof and dustproof processes, so that the flexible soft board and the acceleration sensor thereon can receive water washing. The acceleration sensor can be a piezoelectric acceleration sensor, a piezoresistive acceleration sensor, a capacitive acceleration sensor or a servo acceleration sensor, the type and the model of the acceleration sensor are not specifically limited, the specific monitoring principle of the acceleration sensor is disclosed in the related technology, and the method is not shown in the specification.

With continued reference to fig. 2 and 3, the first collecting assembly 32 includes a first collecting electrode group 323 and a first reference electrode 324, the first collecting electrode group 323 is disposed on the coat 10 and electrically connected to the first control unit 31, the first collecting electrode group 323 is provided with a plurality of groups, each group of the first collecting electrode group 323 is used for correspondingly collecting a first function signal; the first reference electrode 324 is electrically connected to the first control unit 31, and the first control unit 31 is further configured to provide a first reference voltage for the first reference electrode 324; the second collecting assembly 42 further includes a second collecting electrode set 423 and a second reference electrode 424, the second collecting electrode set 423 is disposed in the pants 20 and electrically connected to the second control unit 41, the second collecting electrode set 423 is provided with a plurality of sets, and each set of the second collecting electrode set 423 is used for correspondingly collecting a second function signal; the second reference electrode 424 is electrically connected to the second control unit 41, and the second control unit 41 is further configured to provide a second reference voltage to the second reference electrode 424.

The first collecting electrode group 323 comprises a first electrode 323a and a second electrode 323b, the first electrode 323a and the second electrode 323b are electrically connected to the first control unit 31, the first electrode 323a is used to form an electrical loop with the first reference electrode 324, and the second electrode 323b is used to form an electrical loop with the first reference electrode 324; the second collection electrode set 423 includes a third electrode 423a and a fourth electrode 423b, the third electrode 423a and the fourth electrode 423b are electrically connected to the second control unit 41, the third electrode 423a is configured to form an electrical circuit with the second reference electrode 424, and the fourth electrode 423b is configured to form an electrical circuit with the second reference electrode 424.

It should be noted that, taking five first functional signals, namely, a pectoral muscle myoelectric signal, an electrocardiographic signal, a left biceps myoelectric signal, a right biceps myoelectric signal and an abdominal muscle myoelectric signal, collected by the first collecting electrode group 323 as an example, at this time, five groups of the first collecting electrode group 323 are provided, and each group of the first collecting electrode group 323 correspondingly collects one first functional signal, so as to collect five first functional signals, namely, a pectoral muscle myoelectric signal, an electrocardiographic signal, a left biceps myoelectric signal, a right biceps myoelectric signal and an abdominal muscle myoelectric signal. Taking the example that the second collecting electrode group 423 collects two second functional signals, i.e., the left leg muscle electrical signal and the right leg muscle electrical signal, at this time, two groups of the second collecting electrode groups 423 are provided, and each group of the second collecting electrode groups 423 collects one second functional signal correspondingly, so that two second functional signals, i.e., the left leg muscle electrical signal and the right leg muscle electrical signal, can be collected.

It should be noted that, for example, when collecting the electromyographic signals of the pectoral muscles, in the first collecting assembly 32 for collecting the electromyographic signals of the pectoral muscles, an electric circuit is formed between the first electrode 323a and the first reference electrode 324 and has a first voltage difference, an electric circuit is also formed between the second electrode 323b and the first reference electrode 324 and has a second voltage difference, and the first voltage difference and the second voltage difference are subjected to a difference operation to obtain the electromyographic signals of the pectoral muscles, in which, for example, the first reference electrode is 0V, the signal collected by the first electrode 323a is 1V (i.e., the first voltage difference is 1V), the signal collected by the second electrode 323b is 3V (i.e., the second voltage difference is 3V), the strength of the electromyographic signals of the pectoral muscles is 3V-1v =2v, and similarly, the voltage difference between the third electrode 423a and the second reference electrode 424 and the fourth electrode 423b and the second reference electrode 424 can obtain the electrical signals of the left leg, such as a left leg electrical signal.

It should be noted that the arrangement position of each group of the first collecting electrode groups 323 on the jacket 10 is related to the type of the first functional signal that the first collecting electrode group 323 needs to collect, for example, the first collecting electrode group 323 for collecting a pectoral muscle electromyographic signal is arranged at a position of the jacket 10 corresponding to the chest of the human body, the first collecting electrode group 323 for collecting an electrocardiographic signal is arranged at a position of the jacket 10 corresponding to the heart of the human body, the first collecting electrode group 323 for collecting a left brachial biceps electromyographic signal is arranged at a position of the jacket 10 corresponding to the left brachial biceps of the human body, the first collecting electrode group 323 for collecting a right brachial biceps electromyographic signal is arranged at a position of the jacket 10 corresponding to the right brachial biceps of the human body, and the first collecting electrode group 323 for collecting an abdominal muscle electromyographic signal is arranged at a position of the jacket 10 corresponding to the abdominal muscle of the human body.

With continued reference to fig. 2 and 3, the first collecting module 30 further includes a first conductive sewing thread 33, the first conductive sewing thread 33 is sewn on the coat 10, and the first electrode 323a and the second electrode 323b are electrically connected to the first control unit 31 through the first conductive sewing thread 33; the second collecting module 40 further includes a second conductive sewing thread 43, the second conductive sewing thread 43 is sewn to the lower pants 20, and the third electrode 423a and the fourth electrode 423b are electrically connected to the second control unit 41 through the second conductive sewing thread 43.

The first conductive sewing thread 33 and the second conductive sewing thread 43 have a conductive function, and the first conductive sewing thread 33 and the second conductive sewing thread 43 are respectively provided on the upper garment 10 and the lower pants 20 by sewing, so that the connection strength between the first conductive sewing thread 33 and the upper garment 10 and the connection strength between the second conductive sewing thread 43 and the lower pants 20 can be enhanced, the first conductive sewing thread 33 and the second conductive sewing thread 43 are prevented from falling off, the first conductive sewing thread 33 and the second conductive sewing thread 43 can be washed with water, an additional conductive thread does not need to be tied on a user, and the convenience of the user can be improved.

It should be noted that the first acceleration collector 321, the second acceleration collector 322, the first reference electrode 324, and the like may also be electrically connected to the first control unit 31 through the first conductive sewing thread 33, and the third acceleration collector 421, the fourth acceleration collector 422, and the second reference electrode 424 may also be electrically connected to the second control unit 41 through the second conductive sewing thread 43. The types and the diameters of the first conductive sewing thread 33 and the second conductive sewing thread 43 may be selected according to actual requirements, and the present application is not limited thereto.

In an embodiment of the present application, the upper garment 10 further includes a first magic tape (not shown) and a second magic tape (not shown), the first magic tape is in one-to-one correspondence with the first electrode 323a and is connected with the corresponding first electrode 323a, the second magic tape is in one-to-one correspondence with the second electrode 323b and is connected with the corresponding second electrode 323b, the tightness of the contact between the first electrode 323a and the human body can be adjusted by connecting the first magic tape and different parts of the upper garment 10, and the tightness of the contact between the second electrode 323b and the human body can be adjusted by connecting the second magic tape and different parts of the upper garment 10, so as to adapt to the body type of the user, thereby acquiring a first functional signal with higher quality.

The lower pants 20 further include third magic tapes (not shown in the figure) and fourth magic tapes (not shown in the figure), the third magic tapes correspond to the third electrodes 423a one to one and are connected to the corresponding third electrodes 423a, the fourth magic tapes correspond to the fourth electrodes 423b one to one and are connected to the corresponding fourth electrodes 423b, the tightness of the third electrodes 423a contacting with the human body can be adjusted by connecting the third magic tapes with different parts of the upper garment 10, the tightness of the fourth electrodes 423b contacting with the human body can be adjusted by connecting the fourth magic tapes with different parts of the upper garment 10, so as to adapt to the body shape of the user, and thus, second functional signals with higher quality can be acquired.

As shown in fig. 4, each of the first electrode 323a, the second electrode 323b, the first reference electrode 324, the third electrode 423a, the fourth electrode 423b and the second reference electrode 424 may include an elastic sponge 52 and a conductive cloth 51 wrapping the elastic sponge 52, the conductive cloth 51 may be sewn on the inner surfaces of the upper garment 10 and the lower garment 20, and the conductive cloth 51 has a conductive function, and the elastic sponge 52 has elasticity, which may make the conductive cloth 51 better contact with the skin of the human body. The conductive cloths 51 of the first electrode 323a, the second electrode 323b and the first reference electrode 324 are electrically connected to the first control unit 31 through the first conductive sewing 33, and the conductive cloths 51 of the third electrode 423a, the fourth electrode 423b and the second reference electrode 424 are electrically connected to the second control unit 41 through the second conductive sewing 43.

As shown in fig. 5, in an embodiment of the present application, each of the first control unit 31 and the second control unit 41 includes a circuit board, a filtering and amplifying unit, an analog-to-digital conversion unit, a control chip, and a power supply unit.

The circuit board can be a single-sided board, a double-sided board or a multilayer board, and the type, the model, the size and the like of the circuit board are not particularly limited.

The filtering and amplifying unit is arranged on the circuit board and is used for receiving functional signals of a human body and amplifying and filtering the functional signals to output amplified signals; the filtering and amplifying unit can be a filtering amplifier, the filtering and amplifying unit can obtain high-quality function signals by adopting different filtering parameters and setting different cut-off frequencies, and the filtering and amplifying unit can further amplify the filtered function signals, so that higher-quality amplified signals can be output.

The analog-to-digital conversion unit is arranged on the circuit board and electrically connected with the filtering amplification unit, and is used for performing analog-to-digital conversion on the amplified signal to output a digital signal; the analog-to-digital conversion unit may be an analog-to-digital converter, which converts an analog signal into a digital signal,

the control chip is electrically connected with the analog-to-digital conversion unit and is used for receiving the digital signals and processing the digital signals; the control chip may be a single chip, and the control chip may be electrically connected to the analog-to-Digital conversion unit through a wired connection or a wireless connection, for example, the control chip is electrically connected to the analog-to-Digital conversion unit through a communication manner such as an SPI (Serial Peripheral Interface) communication manner or an SDIO (Secure Digital Input and Output) communication manner, so as to implement data transmission between the control chip and the analog-to-Digital conversion unit.

The power supply unit is arranged on the circuit board and is electrically connected with the filtering amplification unit, the analog-to-digital conversion unit and the control chip, and the power supply unit is used for supplying power to the filtering amplification unit, the analog-to-digital conversion unit and the control chip; the power supply unit may be a dry battery or a secondary battery.

As shown in fig. 5, the filtering and amplifying unit of the first control unit 31 is electrically connected to the first collecting assembly 32, and the functional signal of the human body received by the filtering and amplifying unit of the first control unit 31 is a first functional signal; the filtering and amplifying unit of the second control unit 41 is electrically connected to the second collecting assembly 42, and the function signal of the human body received by the filtering and amplifying unit of the second control unit 41 is a second function signal.

It can be understood that the circuit board of the first control unit 31 is a first circuit board 311, the filtering and amplifying unit of the first control unit 31 is a first filtering and amplifying unit 312, the analog-to-digital conversion unit of the first control unit 31 is a first analog-to-digital conversion unit 313, the control chip of the first control unit 31 is a first control chip 314, and the power supply unit of the first control unit 31 is a first power supply unit 315; the filtering and amplifying unit is used for receiving a first functional signal of a human body and amplifying and filtering the first functional signal to output a first amplified signal; the first analog-to-digital conversion unit 313 is electrically connected to the first filtering and amplifying unit 312, and the first analog-to-digital conversion unit 313 is configured to perform analog-to-digital conversion on the first amplified signal to output a first digital signal; the first control chip 314 is electrically connected to the first analog-to-digital conversion unit 313, and the first control chip 314 is configured to receive the first digital signal and process the first digital signal to obtain various data corresponding to the first function signal; the first power supply unit 315 is used for supplying power to the first filtering and amplifying unit 312, the first analog-to-digital conversion unit 313 and the first control chip 314.

The circuit board of the second control unit 41 is a second circuit board 411, the filtering and amplifying unit of the second control unit 41 is a second filtering and amplifying unit 412, the analog-to-digital conversion unit of the second control unit 41 is a second analog-to-digital conversion unit 413, the control chip of the second control unit 41 is a second control chip 414, and the power supply unit of the second control unit 41 is a second power supply unit 415; the filtering and amplifying unit is used for receiving a second functional signal of the human body and amplifying and filtering the second functional signal to output a second amplified signal; the second analog-to-digital conversion unit 413 is electrically connected to the second filtering and amplifying unit 412, and the second analog-to-digital conversion unit 413 is configured to perform analog-to-digital conversion on the second amplified signal to output a second digital signal; the second control chip 414 is electrically connected to the second analog-to-digital conversion unit 413, and the second control chip 414 is configured to receive the second digital signal and process the second digital signal to obtain various data corresponding to the second function signal; the second power supply unit 415 is configured to supply power to the second filtering and amplifying unit 412, the second analog-to-digital converting unit 413, and the second control chip 414.

It should be further noted that the first power supply unit 315 may be further electrically connected to the first reference electrode 324, the first acceleration collector 321, and the second acceleration collector 322, so as to provide a first reference voltage for the first reference electrode 324 and supply power to the first acceleration collector 321 and the second acceleration collector 322; the second power supply unit 415 may be further electrically connected to the second reference electrode 424, the third acceleration collector 421 and the fourth acceleration collector 422 to supply a second reference voltage to the second reference electrode 424 and supply power to the third acceleration collector 421 and the fourth acceleration collector 422.

With reference to fig. 5, in an embodiment of the present application, the first control unit 31 further includes a first wireless module 316, the second control unit 41 further includes a second wireless module 416, the first control chip 314 is electrically connected to the first wireless module 316, the second control chip 414 is electrically connected to the second wireless module 416, the first wireless module 316 is communicatively connected to the second wireless module 416, and one of the first wireless module 316 and the second wireless module 416 is communicatively connected to the terminal 70. The first control chip 314 may be electrically connected to the first wireless module 316 through a wired connection or a wireless connection, the second control chip 414 may be electrically connected to the second wireless module 416 through a wired connection or a wireless connection, for example, the first control chip 314 is electrically connected to the first wireless module 316 through a communication manner such as an SPI (Serial Peripheral Interface) communication manner or an SDIO (Secure Digital Input and Output) communication manner, and the second control chip 414 is electrically connected to the second wireless module 416 through a communication manner such as an SPI (Serial Peripheral Interface) communication manner or an SDIO (Secure Digital Input and Output) communication manner.

It should be noted that, various data corresponding to the first function signal and various data corresponding to the second function signal can be transmitted to the terminal 70 through one wireless module, so that the production cost of the terminal 70 can be reduced. Taking the example of the communication connection between the first wireless module 316 and the terminal 70, the first control chip 314 can perform data transmission with the terminal 70 through the first wireless module 316, the second control chip 414 can perform data transmission with the first control chip 314 through the second wireless module 416 and the first wireless module 316, the second control chip 414 obtains various data corresponding to the second function signal and then transmits various data corresponding to the second function signal to the first control chip 314, the first control chip 314 receives various data corresponding to the first function signal and various data corresponding to the second function signal and then packages and transmits the received various data corresponding to the first function signal and various data corresponding to the second function signal to the terminal 70, and the terminal 70 processes and calculates various data corresponding to the first function signal and various data corresponding to the second function signal, and can determine whether the user is exercising, the type of exercising performed during exercising, the degree of standard of exercising, whether the degree of exercising is reasonable, and the like.

It should be noted that, the second wireless module 416 may also be in communication connection with the terminal 70, at this time, the first control chip 314 receives various data corresponding to the first function signal and sends the data to the second control chip 414, and the second control chip 414 packages and transmits the received various data corresponding to the first function signal and the received various data corresponding to the second function signal to the terminal 70.

It should be further noted that the terminal 70 may receive data sent by the first control unit 31 or the second control unit 41, and may also send a control command to the first control unit 31 or the second control unit 41 to achieve the purpose of mutual monitoring, and a doctor or a fitness coach may achieve the purpose of remote monitoring through the terminal 70, and may give suggestions and corrective prompts in a targeted manner by checking the exercise condition of the user to be tested, so as to allow the user to perform more correct exercises. The terminal 70 may be a smart phone, a tablet computer, a desktop computer host, a game device, an AR (Augmented Reality) device, an automobile, a data storage device, an audio playing device, a video playing device, a notebook, a wearable device such as an electronic watch, an electronic glasses, an electronic helmet, an electronic bracelet, an electronic necklace, or the like.

As shown in fig. 5, in an embodiment of the present application, the first control unit 31 or the second control unit 41 further includes a speaker 61, and the speaker 61 may broadcast the motion condition of the user, for example, whether the motion is standard, whether the motion time is sufficient, whether the motion intensity is reasonable, and the like, so that the user can obtain better experience, and meanwhile, the speaker 61 is only arranged in the first control unit 31 or the second control unit 41, so that the production cost can be reduced on the basis of meeting the broadcast requirement. Taking the first control unit 31 including the speaker 61 as an example, the speaker 61 is electrically connected to the first control chip 314, and the first power unit 315 is used to supply power to the speaker 61.

Further, the first control unit 31 or the second control unit 41 further includes a switch unit 62 for controlling the on/off of the speaker 61, so as to select whether to turn on the speaker 61 according to the user's requirement. Taking the example that the first control unit 31 includes the switch unit 62, the switch unit 62 is electrically connected to the first control chip 314, and the switch unit 62 controls the on/off of the speaker 61 through the first control chip 314.

It should be further noted that the switch unit 62 may be a point contact switch unit 62, and the switch unit 62 may also be used to simultaneously control on/off of the first control chip 314 and the second control chip 414, and the on/off of the speaker 61 and the on/off of the first control chip 314 and the second control chip 414 are respectively implemented by pressing the pressing time of the switch unit 62, for example, if the on/off of the speaker 61 needs to be controlled, the switch unit 62 may be pressed for a first preset time to implement on/off of the speaker 61, but the operations of the first control chip 314 and the second control chip 414 are not affected; if the on/off of the first control chip 314 and the second control chip 414 needs to be controlled, the switch unit 62 may be pressed for a second preset time to implement the on/off of the first control chip 314 and the second control chip 414, where the second preset time may be greater than or less than the first preset time, taking the control of the first control chip 314 and the second control chip 414 as an example, after the switch unit 62 is pressed for the second preset time, the first control chip 314 sends a sleep command to the second control chip 414 first, so that the second control chip 414 enters the sleep state, and the first control chip 314 enters the sleep state again.

With continued reference to fig. 5, in an embodiment of the present application, the first control unit 31 further includes a first communication unit 317, the second control unit 41 further includes a second communication unit 417, and the first acceleration collector 321 and the second acceleration collector 322 are electrically connected to the first control chip 314 through the first communication unit 317, so as to implement data communication between the first acceleration collector 321 and the second acceleration collector 322 and the first control chip 314; the third acceleration collector 421 and the fourth acceleration collector 422 are electrically connected to the second control chip 414 through the second communication unit 417, so as to implement data communication between the third acceleration collector 421 and the fourth acceleration collector 422 and the second control chip 414, and the first communication unit 317 and the second communication unit 417 may be both I2C (Inter Integrated Circuit) communication units.

In an embodiment of the present application, the first control unit 31 is detachably connected to the upper garment 10, and the second control unit 41 is detachably connected to the lower pants 20, so that the first control unit 31 and the second control unit 41 can be independently taken out, the first control unit 31 and the second control unit 41 can be charged, and the first control unit 31 and the second control unit 41 can be prevented from being damaged when the upper garment 10 and the lower pants 20 are washed.

Based on the human body state monitoring clothes, how to monitor the human body state by using the human body state monitoring clothes in one embodiment is exemplified:

for example: the fitness trainer places a task for the user that requires 2 dumbbells to be lifted a day for at least 10 minutes each, with a height of more than 20cm for a single lift.

Before the upper garment 10 and the lower pants 20 are sent to the user to be tested, the MAC (Media Access Control Address) Address of the first Control unit 31 in the upper garment 10 is recorded, for example, 1111, after the first Control unit 31 is in communication connection with the terminal 70, the fitness coach finds the device 1111 in the background management interface of the terminal 70, and then edits and inputs the information to be controlled, for example, the input exercise type is dumbbell lifting, the exercise frequency is 2, the exercise time of each time is 10 minutes, and the height of each dumbbell lifting is 20cm. After confirming the information, when being surveyed the user and not carrying out according to as above condition, different voice prompt can be reported to speaker 61, for example, being surveyed the user and not having worn human state monitoring clothes yet, speaker 61 just can send pronunciation: you do not start training and please finish the task just by time. The principle of monitoring is as follows: when the user does not wear the human body state monitoring garment, the first control unit 31 and the second control unit 41 do not monitor any human body function signal, and at this time, it can be determined that the user does not wear the human body state monitoring garment.

If the person state monitoring clothes has been worn to the user of being surveyed, but the time of single motion is not enough 10 minutes and muscle fatigue and damage have not been monitored, just can report: run time was insufficient, 2 minutes worse, please insist. The monitoring principle is as follows: in the exercise process, the heart rate of a human body can be accelerated, the electromyographic signals of the left biceps brachii, the electromyographic signals of the right biceps brachii and the electromyographic signals of the pectoral muscle can be triggered, data transmitted by the first acceleration collector 321 and the second acceleration collector 322 of the hand are integrated through an algorithm, an exercise curve similar to a dumbbell can be formed, the judgment is integrated, whether the detected user does corresponding exercise at the moment can be judged, meanwhile, whether the action at the moment is standard or not can be judged according to the comparison between the operation curve (covering the angle and the displacement) of the action of the hand and a preset curve, and if the action is not standard, the suggestion can be broadcasted by the loudspeaker 61.

Of course, it may also be determined comprehensively according to the effective value of the electromyographic signals such as the electromyographic signals of the chest muscles and the data transmitted by the first acceleration collector 321 and the second acceleration collector 322, whether the exercise is excessive at this time, and if the exercise is excessive, the voice may report the prompt: requiring replacement of lighter dumbbells or mid-way rest. The monitoring principle is as follows: whether the muscle is in a damaged or fatigue state at the moment is judged through the effective value of electromyographic signals such as chest muscle electromyographic signals and the like in different frequency bands (if the muscle of the detected user is in a fatigue state at the moment, the dominant frequency range of the electromyographic signals is increased to 60-100 Hz, if the muscle is more fatigued, the dominant frequency range of the electromyographic signals is expanded to 10-170 Hz), the running track and the acceleration of the arm (if the muscle of the detected user is in the fatigue state at the moment, the acceleration of the arm is slowed down). Can prevent the human body from being hurt due to the excessive movement.

The present invention is not intended to be limited to the particular embodiments shown and described, but is to be accorded the widest scope consistent with the principles and novel features herein disclosed.

Claims (10)

1. A human condition monitoring garment, comprising:

a coat;

putting trousers;

the first acquisition module is arranged on the coat and comprises a first control unit and a first acquisition assembly, the first acquisition assembly is electrically connected with the first control unit and is used for acquiring at least one first functional signal of the upper body of a human body and transmitting the acquired first functional signal to the first control unit;

the second acquisition module is arranged in the trousers, the second acquisition module comprises a second control unit and a second acquisition assembly, the second acquisition assembly is electrically connected with the second control unit, and the second acquisition assembly is used for acquiring at least one second function signal of the lower part of the human body and transmitting the acquired second function signal to the second control unit.

2. The human body condition monitoring garment of claim 1, wherein the first collecting assembly is configured to collect a plurality of first functional signals of the upper body of the human body, and the first functional signals are one of respiratory electrical signals, pectoral muscle electromyographic signals, electrocardio signals, left biceps myoelectric signals, right biceps myoelectric signals, and abdominal muscle myoelectric signals.

3. The body condition monitoring garment of claim 2, wherein the garment includes left and right sleeves, and the first collection assembly includes:

the first acceleration collector is arranged on the left sleeve and is electrically connected with the first control unit, and the first acceleration collector is used for collecting the left-hand acceleration of the human body;

and the second acceleration collector is arranged on the right sleeve and is electrically connected with the first control unit, and the second acceleration collector is used for collecting the acceleration of the right hand of the human body.

4. The human condition monitoring garment of claim 1, wherein the second collecting assembly is configured to collect a plurality of second functional signals of the lower body of the human body, and the second functional signals are one of left leg muscle electrical signals and right leg muscle electrical signals.

5. The human condition monitoring garment of claim 4, wherein the lower pants comprise a left leg pants and a right leg pants, and the second acquisition assembly comprises:

the third acceleration collector is arranged on the left leg trousers and is electrically connected with the second control unit, and the third acceleration collector is used for collecting the acceleration of the left leg of the human body;

and the fourth acceleration collector is arranged in the right leg trousers and electrically connected with the second control unit and used for collecting the acceleration of the right leg of the human body.

6. The human condition monitoring garment of claim 1, wherein the first collection assembly comprises:

the first acquisition electrode groups are arranged on the coat and electrically connected with the first control unit, the first acquisition electrode groups are provided with a plurality of groups, and each group of the first acquisition electrode groups is used for correspondingly acquiring one type of the first function signals;

the first control unit is electrically connected with the first reference electrode and is used for providing a first reference voltage for the first reference electrode;

the second acquisition assembly further comprises:

the second acquisition electrode groups are arranged in the trousers and are electrically connected with the second control unit, a plurality of groups of second acquisition electrode groups are arranged, and each group of second acquisition electrode groups is used for correspondingly acquiring one type of second function signals;

the second reference electrode is electrically connected with the second control unit, and the second control unit is also used for providing a second reference voltage for the second reference electrode;

the first acquisition electrode group comprises a first electrode and a second electrode, the first electrode and the second electrode are electrically connected with the first control unit, the first electrode is used for forming an electric loop with the first reference electrode, and the second electrode is used for forming an electric loop with the first reference electrode; the second collection electrode group comprises a third electrode and a fourth electrode, the third electrode and the fourth electrode are electrically connected with the second control unit, the third electrode is used for forming an electric loop with the second reference electrode, and the fourth electrode is used for forming an electric loop with the second reference electrode.

7. The human condition monitoring garment of claim 6, wherein the first acquisition module further comprises:

the first conductive sewing thread is sewn on the upper garment, and the first electrode and the second electrode are electrically connected with the first control unit through the first conductive sewing thread;

the second acquisition module further comprises:

the second conductive sewing thread is sewn on the lower trousers, and the third electrode and the fourth electrode are electrically connected with the second control unit through the second conductive sewing thread.

8. The human condition monitoring suit of claim 1, wherein the first control unit and the second control unit each comprise:

a circuit board;

the filtering and amplifying unit is arranged on the circuit board and is used for receiving functional signals of a human body and amplifying and filtering the functional signals to output amplified signals;

the analog-to-digital conversion unit is arranged on the circuit board and electrically connected with the filtering amplification unit, and is used for performing analog-to-digital conversion on the amplified signal to output a digital signal;

the control chip is electrically connected with the analog-to-digital conversion unit and is used for receiving the digital signals and processing the digital signals;

the power supply unit is arranged on the circuit board and is electrically connected with the filtering amplification unit, the analog-to-digital conversion unit and the control chip, and the power supply unit is used for supplying power to the filtering amplification unit, the analog-to-digital conversion unit and the control chip;

the filtering and amplifying unit of the first control unit is electrically connected with the first acquisition assembly, and the function signal of the human body received by the filtering and amplifying unit of the first control unit is the first function signal; the filtering and amplifying unit of the second control unit is electrically connected with the second acquisition assembly, and the functional signal of the human body received by the filtering and amplifying unit of the second control unit is the second functional signal.

9. The human body condition monitoring garment of claim 8, wherein the first control unit further comprises a first wireless module, the second control unit further comprises a second wireless module, a first control chip is electrically connected with the first wireless module, a second control chip is electrically connected with the second wireless module, the first wireless module is in communication connection with the second wireless module, and one of the first wireless module and the second wireless module is in communication connection with a terminal.

10. The human condition monitoring garment of any one of claims 1 to 8, wherein the first control unit is detachably connected to the upper garment and the second control unit is detachably connected to the lower pants.

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