CN212662611U - Intelligent voice interaction fitness garment - Google Patents

Abstract

The utility model provides an intelligent voice interaction fitness clothing. The intelligent clothes are combined with the clothes, the measurement sensing technology, the data processing technology and the voice conversion technology, when a user wears the intelligent clothes to do body-building exercise, the physiological parameter data and/or the joint bending angle data of the user are/is captured in real time through the measurement sensing technology, the current action of the user is analyzed and judged through the data processing technology, the current action is compared with the reference data of the action, whether the action is standard or not and the comparison information such as action suggestions is obtained, then the comparison information is provided for the user through voice conversion, on one hand, real-time guidance is conducted on the action of the user, the exercise effect of the user is improved, on the other hand, voice accompanies in the exercise process of the user, intelligence and interestingness are increased.

Description

Intelligent voice interaction fitness garment

Technical Field

The utility model belongs to the technical field of clothing and smart machine, concretely relates to mutual body-building clothing of intelligence pronunciation.

Background

With the development of society, people pay more and more attention to body building and exercise. For example, yoga, taiji, and aerobics exercises are increasingly popular.

The correct, in-place or not-correct action of each exercise has a critical impact on the effectiveness of the exercise. For example, whether each style is correct or not during yoga movement directly relates to the yoga exercise effect, and if the style is incorrect or not, the joint of a human body can be damaged.

However, in actual exercise, a coach cannot be guaranteed to guide at any time, and the problems of incorrect action and incapability of reaching positions often exist in self exercise, so that a good exercise effect cannot be achieved, and even physical health is affected. In addition, if a coach is hired to guide, the problem that the coach lacks reliable data support and can guide the coach by experience exists.

The fitness and exercise clothes sold in the market at present are various in types, but the fitness and exercise clothes are mainly designed and improved in the aspects of cloth, styles and the like, and functional designs related to action specifications and exercise effects are not found yet.

SUMMERY OF THE UTILITY MODEL

The utility model provides an intelligent voice interaction body-building clothing can provide whether normal speech information of action has action instructive and interesting to the user when the user dresses this clothing and moves.

The utility model provides a technical scheme is: an intelligent voice interaction fitness garment is characterized in that: comprises a clothing body, a measuring device arranged on the clothing body and a data processing device;

the measuring device comprises a measuring module, a data acquisition module, a data sending module and a power supply module;

the data processing device comprises a data processing module and a voice conversion module;

the measuring module is used for measuring physiological parameter data of a human body and/or joint bending angle data of a certain part of the human body;

the data acquisition module is used for acquiring physiological parameter data and/or joint bending angle data of a human body;

the data transmission module is used for transmitting the human body physiological parameter data and/or the joint bending angle data acquired by the data acquisition module to the data processing module;

the data processing module is used for analyzing the data from the data sending module, matching according to the first database, judging the current action of the user, comparing the current action with the reference data of the action stored in the second database to obtain comparison information, and converting the comparison information into voice information to be played through the voice conversion module;

the database one is contained in the data processing module and is used for storing a physiological parameter data range and/or a joint bending angle data range corresponding to a certain action, namely, when a user performs a certain action, the physiological parameter data range and/or the joint bending angle data range are/is matched with the database two, and the action performed by the user can be judged;

the database is contained in the data processing module and is used for storing reference data, and the reference data refers to corresponding physiological parameter data and/or joint bending angle data when the user performs standard actions.

As an implementation manner, the measurement module includes a joint bending angle measurement module and a physiological parameter measurement module, the joint bending angle measurement module is used for measuring joint bending angle data of a human body during exercise, and the physiological parameter measurement module is used for measuring physiological parameter data of the human body during exercise.

As an implementation, the voice information is played through an earphone. The earphone is not limited and can be a wired earphone or a Bluetooth earphone.

The comparison information includes whether the action is normal or not, a suggestion of the action, and the like.

The joint bending angle measuring module comprises an elastic strain sensor, the elastic strain sensor has deformation responses such as stretching, compression and bending, namely, when the joint bending angle measuring module deforms, electrical signals of the elastic strain sensor change, and deformation data can be obtained according to detection of the electrical signals.

The elastic strain sensor is not limited, and includes a capacitive elastic strain sensor, an inductive elastic strain sensor, a resistive elastic strain sensor, and the like. The electrical signals include capacitive resistance, inductance, resistance, and the like.

The number of the elastic strain sensors is not limited, and the elastic strain sensors can be combined together in a series connection or parallel connection mode.

Preferably, the elastic strain sensor is arranged at a position of the garment body corresponding to a joint of a human body and is used for detecting the bending angle of the joint. The joints are not limited and comprise one or more of shoulder joints, elbow joints, wrist joints, knee joints, lumbar joints, spinal joints and the like.

The physiological parameter includes but is not limited to one or more of respiratory rate, pulse, etc.

The physiological parameter measuring module comprises a respiratory frequency sensor for measuring respiratory frequency and a pulse sensor for measuring human body pulse. As one implementation, the respiratory rate sensor is a capacitive elastic strain sensor. As one implementation, the pulse sensor is a photoelectric pulse sensor.

The material of the garment body is not limited, and a soft and elastic material is preferable in view of wearing comfort and fit with the body.

The connecting method of the measuring device and the garment body is not limited, and comprises one or more of bonding, hot pressing, sewing and the like. As one implementation, the measuring device is connected to the textile material by one or more methods of bonding, hot pressing, sewing and the like, and then the textile material is sewn on the garment body.

The data processing device can be arranged on the garment body, or can be separated from the garment body, for example, the data processing device is integrated in handheld equipment such as a mobile phone.

The data sending module is connected with the data processing module through wireless transmission or wired transmission. The wireless transmission includes but is not limited to one or more of ZigBee, Bluetooth, WIFI, GPRS and the like.

The power supply module is used for supplying power to the measurement module and the data acquisition module, is unlimited in structure and comprises a battery, charging equipment and the like, and a flexible battery is preferred.

The elastic strain sensor is not limited in structure. For example, when the elastic strain sensor is a capacitive elastic strain sensor, as an implementation manner, the elastic strain sensor uses an elastic insulating material as a substrate, and includes a first conductive layer, a second conductive layer, an elastic dielectric layer and an elastic encapsulation layer; the first conducting layer is positioned on the surface of the substrate, is composed of conducting liquid, conducting slurry or conducting gel and is connected with an external first electrode; the elastic dielectric layer has conductive insulativity and is positioned on the surface of the first conductive layer; the second conducting layer is positioned on the surface of the elastic dielectric layer, is composed of conducting liquid, conducting slurry or conducting gel and is connected with an external second electrode; the elastic packaging layer has conductive insulation and is used for packaging the second conductive layer. The matrix material includes, but is not limited to, one or more of thermoplastic elastomer (TPE), thermoplastic polyurethane elastomer rubber poly (TPU), dimethyl siloxane (PDMS), aliphatic aromatic random copolyester (Ecoflex), silicone, rubber, hydrogel, polyurethane, and polyethylene octene co-elastomer (POE).

The material of the elastic packaging layer is not limited and includes elastic polymer materials and the like. Preferably, the elastic insulation layer is made of an elastic material having a good adhesive ability with the elastic garment body material, such as one or more of thermoplastic elastomer (TPE), thermoplastic polyurethane elastomer rubber poly (TPU), dimethyl siloxane (PDMS), aliphatic aromatic random copolyester (Ecoflex), high molecular polymer resin, silicone rubber, hydrogel, polyurethane, and polyethylene octene co-elastomer (POE).

The conductive liquid is not limited, such as liquid metal, conductive ink, and the like.

The conductive gel is not limited, such as graphite conductive gel, silver gel, and the like.

The conductive paste is not limited and includes graphene paste, mixed paste of a conductive material and an elastomer, and the like. The mixed slurry of the conductive material and the elastomer includes, but is not limited to, a mixed slurry of a liquid metal and an elastomer, a mixed slurry of carbon powder and an elastomer, a mixed slurry of carbon fiber and an elastomer, a mixed slurry of graphene and an elastomer, a mixed slurry of a metal powder and an elastomer, and the like.

The liquid metal refers to a metal conductive material which is liquid at room temperature, and includes but is not limited to mercury, gallium-indium alloy, gallium-indium-tin alloy, and one or more doped gallium-indium alloy, gallium-indium-tin alloy and the like of transition metal and solid nonmetal elements.

The first electrode is used for conducting and connecting with an external device, and the materials of the first electrode are not limited and include metal materials, conductive cloth, graphene, graphite conductive adhesive, silver adhesive, liquid metal, a circuit board and the like.

The second electrode is used for conducting and connecting with an external device, and the materials of the second electrode are not limited and include metal materials, conductive cloth, graphene, graphite conductive adhesive, silver adhesive, liquid metal, a circuit board and the like.

To sum up, the utility model discloses with the clothing, measure the sensing, data processing and speech conversion technique combine together, when the user dresses this intelligent clothing and carries out body-building motion, through measuring the sensing technique and catching user's physiological parameter data and/or human joint bending angle data in real time, judge user's current action through data processing technical analysis, and contrast with the reference data of this action, whether obtain the action and standardize and need notice contrast information such as what, then provide the user through speech conversion, on the one hand, guide in real time to user's action, improve user's exercise effect, on the other hand has pronunciation to accompany at user exercise in-process, intelligence and interest have been increased, good spreading value has.

Drawings

Fig. 1 is the utility model discloses intelligent voice interaction yoga clothes schematic diagram in embodiment 1.

Fig. 2 is the utility model discloses measuring device structure chart in the interactive yoga clothes of intelligence pronunciation of embodiment 1.

Fig. 3 is the utility model discloses data processing apparatus structure chart in the interactive yoga clothes of intelligence pronunciation of embodiment 1.

Fig. 4 is a schematic structural diagram of a capacitive elastic strain sensor in embodiment 1 of the present invention.

The reference numerals in fig. 1-4 are: the yoga clothes comprise 1 yoga clothes, 2 measuring devices, 3 data processing devices, 4 joint angle measuring modules, 5-13 elastic strain sensors, 14 physiological parameter measuring modules, 15 breathing frequency sensors, 16-17 pulse sensors, 18 data acquisition modules, 19 central processing unit modules, 20 data sending modules, 21 power supply modules, 22 voice conversion modules, 23 data processing modules, 24 elastic base layers, 25 dielectric layers and 26 liquid metal layers.

Detailed Description

The present invention will be described in further detail with reference to the following drawings and examples, which are not intended to limit the invention, but are intended to facilitate the understanding of the invention.

Example 1:

as shown in fig. 1 and 2, the intelligent voice interactive yoga clothes comprises a yoga clothes body 1, a measuring device 2 and a data processing device 3.

Measuring device 2 sets up on yoga clothes body 1. The measuring device 2 comprises a joint angle measuring module 4, a physiological parameter measuring module 14, a data acquisition module 18, a data sending module 20 and a power supply module 21. The joint angle measurement data transmission module 4 comprises elastic strain sensors 5-13. The physiological parameter measurement data transmission module 14 includes a respiratory rate sensor 15 and pulse sensors 16-17.

The data acquisition and data transmission module 18 is connected with the elastic strain sensors 5-13, the respiratory rate sensor 15 and the pulse sensors 16-17, and is used for acquiring joint bending angle data and physiological parameter data and transmitting data signals to the data processing module 23 in the data processing device 3 through the data transmission module 20.

In this embodiment, as shown in fig. 3, the mobile phone device with the data processing apparatus 3 separated from the clothing body includes a data processing module 23 and a voice conversion module 22.

The power supply module 21 supplies power to one or more of the joint angle measuring module 4, the physiological parameter measuring module 14, the data acquisition module 18 and the data transmission module 19.

In this embodiment, in order to be able to cling to the skin of a human body, the yoga clothes body 1 is made of a thin elastic material.

In this embodiment, the elastic strain sensors 5 to 13 are capacitive elastic strain sensors, and are made of a first metal plate, a second metal plate, and a dielectric material, and can monitor changes in joint angles. As shown in fig. 4, the capacitive elastic strain sensor is composed of an elastic substrate layer 24, a liquid metal layer 26 and a dielectric layer 25, the elastic substrate layer 24 and the dielectric layer 25 are made of the same material, the liquid metal material 26 is respectively and uniformly coated on one surface of the two elastic substrates 24, the surfaces of the elastic substrates 24 coated with the liquid metal 26 are respectively attached to two sides of the dielectric layer 25, and the elastic substrates, the liquid metal and the dielectric material are integrally formed through a hot pressing mode.

In this embodiment, as shown in fig. 1, the elastic strain sensors 5 to 13 are disposed at positions of the yoga suit body 1 corresponding to shoulder joints, elbow joints, hip joints, knee joints, back, waist, and the like, and the elastic strain sensors 5 to 13 are bonded to the yoga suit by using elastic glue. The elastic strain sensor 5-13 is rectangular, when the joint is bent, the skin at the joint is stretched, the elastic strain sensor 5-13 is stretched accordingly, the length is changed, the capacitance is changed, and the bending angle data of the joint is obtained by measuring the capacitance change.

In this embodiment, the liquid metal has a conductivity of better than 3.8 × 10⁶s/m。

In this embodiment, the data acquisition module 18 is a digital capacitor chip PCAP01, and directly reads a capacitance value to realize high-precision and fast measurement.

In this embodiment, the data processing module 23 performs data processing by using STM32F103C8T 6.

In this embodiment, the respiratory rate sensor is a capacitive elastic strain sensor.

In this embodiment, the pulse sensor is a photoelectric pulse wave sensor.

In this embodiment, the data sending module 19 adopts a bluetooth 4.0 wireless communication mode.

In this embodiment, the power supply module uses a flexible battery.

In this embodiment, the circuit substrates of the data acquisition module and the data transmission module are polyimide.

In the process of the user wearing the intelligent voice interaction yoga clothes to perform yoga actions, the joint angle measuring module 4 captures joint bending angle data in real time, the physiological parameter measuring module 14 captures physiological parameter data in real time, and joint bending angle data, respiratory rate data and pulse data of the user at each moment in the training process are obtained and are collectively referred to as real-time data; the data acquisition module 18 acquires the real-time data and transmits the real-time data to the data processing module 23 in the data processing device 3 through the data transmission module 20.

The data processing module 23 analyzes the real-time data from the data acquisition module 18, and determines the current action of the user according to the first database, specifically:

the database is contained in the data processing module and is used for storing the joint bending angle range, the respiratory frequency range and the pulse range corresponding to a certain motion. And matching the real-time data with the first database to obtain the current training action of the user, and recording the current training action as an action A.

Then, obtaining whether the current action A of the user is standard according to the database II, specifically:

the database is contained in the data processing module and is used for storing the physiological parameter data and/or the joint bending angle data corresponding to the standard motion. Comparing the real-time data with the joint bending angle range and the respiratory frequency range corresponding to the standard action A stored in the database II with the pulse to obtain comparison information; and converting the comparison information into voice information through a voice conversion module and playing the voice information. The comparison information includes whether the action is normal or not, a suggestion for the action, and the like. The user can improve the action after hearing the voice information, and the training effect can be obviously improved.

In this embodiment, the voice conversion module is a bluetooth headset.

Example 2:

the intelligent voice interaction aerobics clothes comprise an aerobics clothes body, a measuring device and a data processing device.

The measuring device is arranged on the aerobics clothes body.

The measuring apparatus is the same in structure and function as in example 1.

The data processing apparatus is the same in structure and function as in embodiment 1.

When a user wears the intelligent voice interaction aerobics clothes to perform aerobics actions, the functions of the measuring device and the data processing device are the same as those of the embodiment 1, the user can hear the comparison information converted by the voice conversion module, such as whether the actions are standard and suggestions for the actions, and the user can perfect the actions after hearing the voice information, so that the training effect can be obviously improved.

Example 3:

the intelligent voice interaction Taiji suit comprises a Taiji suit body, a measuring device and a data processing device.

The measuring device is arranged on the Taiji suit body.

The measuring apparatus is the same in structure and function as in example 1.

The data processing apparatus is the same in structure and function as in embodiment 1.

When a user wears the intelligent voice interaction Taiji operation and carries out the Taiji action, the functions of the measuring device and the data processing device are the same as those of the embodiment 1, the user can hear the comparison information converted by the voice conversion module, such as whether the action is standard and suggestions on the action, and the user can perfect the action after hearing the voice information, so that the training effect can be obviously improved.

The above-mentioned embodiment is right the technical scheme and the beneficial effect of the utility model have been explained in detail, it should be understood that above only be the concrete embodiment of the utility model, and not be used for the restriction the utility model discloses, the fan is in any modification and improvement etc. that the principle within range of the utility model was done all should be contained within the protection scope of the utility model.

Claims (10)

1. An intelligent voice interaction fitness garment is characterized in that: comprises a clothing body, a measuring device arranged on the clothing body and a data processing device;

the measuring device comprises a measuring module, a data acquisition module, a data sending module and a power supply module;

the data processing device comprises a data processing module and a voice conversion module;

the measuring module is used for measuring physiological parameter data of a human body and/or joint bending angle data of a certain part of the human body;

the data acquisition module is used for acquiring physiological parameter data and/or joint bending angle data of a human body;

the data transmission module is used for transmitting the human body physiological parameter data and/or the joint bending angle data acquired by the data acquisition module to the data processing module;

the data processing module is used for analyzing the data from the data sending module, matching according to the first database to obtain the current action of the user, comparing the current action with the reference data of the action stored in the second database to obtain comparison information, and converting the comparison information into voice information to be played through the voice conversion module;

the database is contained in the data processing module and is used for storing a physiological parameter data range and/or a joint bending angle data range corresponding to a certain action;

the database is contained in the data processing module and is used for storing reference data, and the reference data refers to corresponding physiological parameter data and/or joint bending angle data when the user performs standard actions.

2. The intelligent voice interaction fitness garment of claim 1, wherein: the measurement module comprises a joint bending angle measurement module and a physiological parameter measurement module;

the joint bending angle measuring module is used for measuring the joint bending angle data of the human body during movement;

the physiological parameter measuring module is used for measuring physiological parameter data of a human body during movement.

3. The intelligent voice interaction fitness garment of claim 1, wherein: the voice conversion module is an earphone.

4. The intelligent voice interaction fitness garment of claim 2, wherein: the joint bending angle measuring module comprises an elastic strain sensor.

5. The intelligent voice interaction fitness garment of claim 4, wherein: the elastic strain sensor comprises one or more of a capacitance type elastic strain sensor, an inductance type elastic strain sensor and a resistance type elastic strain sensor.

6. The intelligent voice interaction fitness garment of claim 5, wherein: the elastic strain sensor is arranged at the position of the garment body corresponding to the human body joint.

7. The intelligent voice interaction fitness garment of claim 6, wherein: the joints comprise one or more of shoulder joints, elbow joints, wrist joints, knee joints, lumbar joints and spinal joints.

8. The intelligent voice interaction fitness garment of claim 5, wherein: the elastic strain sensor comprises a plurality of elastic strain sensors which are combined together in a serial or parallel mode.

9. The intelligent voice interaction fitness garment of claim 2, wherein: the physiological parameter measuring module comprises a respiratory frequency sensor for measuring respiratory frequency and/or a pulse sensor for measuring human body pulse.

10. The intelligent voice interaction fitness garment of claim 1, wherein: the data processing device is arranged on the garment body or is separated from the garment body.

Images