阅读说明：本技术 智能头箍 (Intelligent head band ) 是由 梅先明 张丽英 于 2020-07-14 设计创作，主要内容包括：本发明揭示了智能头箍,包括由弹性内套和弹性外套相复合的头箍主体,弹性内套与弹性外套之间设置有至少一个柔性电极片,弹性内套上设有电极片开窗位,弹性外套的外侧设有接电主机,柔性电极片与接电主机之间设有限位设置在弹性内套和弹性外套之间的柔性导电线,接电主机内设有供电电源和肌电控制器。本发明具备肌电刺激功能,能实现局部肌电刺激从而缓解疲劳,并且采用内置柔性电极片和接电主机设计,满足佩戴舒适度需求,同时无需外部接线,方便移动使用。集成了肌电刺激、肌电采集和骨震传音功能,功能较为丰富。柔性电极片和骨震耳机设置位置合理科学,在头箍佩戴状态下,局部电刺激和局部骨震位置度稳定可靠。(The invention discloses an intelligent head band, which comprises a head band main body compounded by an elastic inner sleeve and an elastic outer sleeve, wherein at least one flexible electrode plate is arranged between the elastic inner sleeve and the elastic outer sleeve, the elastic inner sleeve is provided with an electrode plate window opening position, the outer side of the elastic outer sleeve is provided with a power connection host, a flexible conductive wire which is limited and arranged between the elastic inner sleeve and the elastic outer sleeve is arranged between the flexible electrode plate and the power connection host, and a power supply source and a myoelectric controller are arranged in the power connection host. The multifunctional myoelectric stimulation device has the myoelectric stimulation function, can realize local myoelectric stimulation so as to relieve fatigue, meets the requirement of wearing comfort by adopting the design of a built-in flexible electrode plate and a power connection host, does not need external wiring, and is convenient to move and use. The myoelectricity stimulation, myoelectricity collection and bone vibration sound transmission functions are integrated, and the functions are rich. The flexible electrode slice and the bone vibration earphone are reasonable and scientific in arrangement position, and the local electrical stimulation and the local bone vibration position are stable and reliable in wearing state of the head band.)

1. Intelligent head hoop, its characterized in that:

comprises a head band main body which is formed by compounding an elastic inner sleeve and an elastic outer sleeve into a whole, at least one flexible electrode plate is arranged between the elastic inner sleeve and the elastic outer sleeve, the elastic inner sleeve is provided with an electrode plate windowing position which is correspondingly matched with the binding surface of the flexible electrode plate,

the outer side of the elastic outer sleeve is provided with a power connection host, a flexible conductive wire which is limited and arranged between the elastic inner sleeve and the elastic outer sleeve is arranged between the flexible electrode plate and the power connection host,

and a power supply and a myoelectricity controller for performing myoelectricity stimulation control on the flexible electrode plate are arranged in the power connection host.

2. The smart headpiece of claim 1, wherein:

and a bioelectricity collector for collecting bioelectricity signals is arranged in the power connection host.

3. The smart headpiece of claim 1, wherein:

three flexible electrode plates are arranged between the elastic inner sleeve and the elastic outer sleeve, one of the flexible electrode plates is used for being matched with the hindbrain part, and the other two flexible electrode plates are used for being matched with the temple part.

4. The smart headpiece of claim 1, wherein:

at least one bone vibration earphone is arranged between the elastic inner sleeve and the elastic outer sleeve, a flexible conducting wire which is limited and arranged between the elastic inner sleeve and the elastic outer sleeve is arranged between the bone vibration earphone and the power connection host, and a bone vibration earphone controller is arranged in the power connection host.

5. The smart headpiece of claim 4, wherein:

two bone vibration earphones are arranged between the elastic inner sleeve and the elastic outer sleeve and are used for being correspondingly matched with two sides of the back head.

6. The smart headpiece of claim 5, wherein:

the bone vibration earphone is internally provided with a matching channel for the flexible conductive wire of the flexible electrode plate to pass through, and the matching channel is isolated from the cabin of the bone vibration earphone.

7. The smart headpiece of claim 4, wherein:

the flexible conducting wires are arranged in the elastic inner sleeve and the elastic outer sleeve in a bending type wiring mode.

8. The smart headpiece of claim 7, wherein:

the flexible conductive wires are arranged in a wave shape, and the flexible conductive wires are arranged at intervals.

9. The smart headpiece of claim 1, wherein:

and a remote transmission module is arranged in the power connection host.

Technical Field

The invention relates to an intelligent head band, and belongs to the technical field of intelligent wearable head bands.

Background

In the world of women's clothes and the world of children's clothes, various fields are heated in competition, and intelligent clothes are no exception. The intelligent clothing originally belongs to the top field, and with the increasingly red fire of clothing industry, the marketers with sensitive smell widen the original narrow market space. In the coming years, the intelligent clothes, namely the smart shirt capable of reading the heartbeat, the body temperature and the breathing frequency of a human body, can be filled in the wardrobe; a jacket capable of automatically playing music; t-shirts and the like capable of displaying characters and images in front of the chest. Technological media predict that future clothes will become a real multifunctional portable high-tech product, and one piece of clothes can play music and videos, adjust temperature and even surf on the internet.

There is an intelligence head hoop among the prior art at present, and it possesses electrode column, head hoop main part that is used for the biological electricity to gather and is used for the host computer with electrode column looks turn-on connection, is equipped with controller and power in this host computer, and the controller possesses the teletransmission module, can realize wireless communication. The bioelectricity collection can be realized through the intelligent head band, so that the bioelectricity data monitoring is realized.

However, the intelligent head band is single and monotonous in function, poor in wearing comfort, stiff in electrode column and internal lead arrangement and limited in service life.

Disclosure of Invention

The invention aims to solve the defects of the prior art and provides an intelligent head band aiming at the problems of single function and poor wearing comfort of the traditional intelligent head band.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

the intelligent head band comprises a head band main body which is formed by compounding an elastic inner sleeve and an elastic outer sleeve into a whole, at least one flexible electrode plate is arranged between the elastic inner sleeve and the elastic outer sleeve, an electrode plate windowing position which is correspondingly matched with the binding surface of the flexible electrode plate is arranged on the elastic inner sleeve,

the outer side of the elastic outer sleeve is provided with a power connection host, a flexible conductive wire which is limited and arranged between the elastic inner sleeve and the elastic outer sleeve is arranged between the flexible electrode plate and the power connection host,

and a power supply and a myoelectricity controller for performing myoelectricity stimulation control on the flexible electrode plate are arranged in the power connection host.

Preferably, a bioelectricity collector for collecting bioelectricity signals is arranged in the power connection host.

Preferably, three flexible electrode plates are arranged between the elastic inner sleeve and the elastic outer sleeve, one of the flexible electrode plates is used for being matched with the hindbrain part, and the other two flexible electrode plates are used for being matched with the temple part.

Preferably, at least one bone vibration earphone is arranged between the elastic inner sleeve and the elastic outer sleeve, a flexible conducting wire which is limited and arranged between the elastic inner sleeve and the elastic outer sleeve is arranged between the bone vibration earphone and the power connection host, and a bone vibration earphone controller is arranged in the power connection host.

Preferably, two bone vibration earphones are arranged between the elastic inner sleeve and the elastic outer sleeve and are correspondingly matched with two sides of the back head.

Preferably, a matching channel for the flexible conductive wire of the flexible electrode plate to pass through is arranged in the bone vibration earphone, and the matching channel is isolated from a cabin of the bone vibration earphone.

Preferably, the flexible conductive wire is arranged in a bending type wiring manner in the elastic inner sleeve and the elastic outer sleeve.

Preferably, the flexible conductive wires are arranged in a wave shape, and any flexible conductive wires are arranged at intervals.

Preferably, a remote transmission module is arranged in the power connection host.

The invention has the following beneficial effects:

1. possess the flesh electricity stimulation function, thereby can realize local flesh electricity stimulation and alleviate fatigue to adopt built-in flexible electrode piece and connect the design of electric host computer, satisfy and wear the comfort level demand, need not outside wiring simultaneously, conveniently remove the use.

2. The myoelectricity stimulation, myoelectricity collection and bone vibration sound transmission functions are integrated, and the functions are rich.

3. The flexible electrode slice and the bone vibration earphone are reasonable and scientific in arrangement position, and the local electrical stimulation and the local bone vibration position are stable and reliable in wearing state of the head band.

4. The flexible electric lead is reasonable in arrangement, has the elastic opening resistance, is not easy to generate the stretching and breaking phenomena, and is durable.

Drawings

Fig. 1 is a schematic structural diagram of the smart headpiece of the present invention.

Fig. 2 is a schematic diagram of the flexible conductive wire routing of the smart headpiece of the present invention.

Fig. 3 is a schematic view of the bone-vibration earphone of the present invention.

Detailed Description

The invention provides an intelligent head band. The technical solution of the present invention is described in detail below with reference to the accompanying drawings so that it can be more easily understood and appreciated.

An intelligent head band, as shown in fig. 1, comprises a head band main body formed by compounding an elastic inner sleeve 1 and an elastic outer sleeve 2 into a whole, at least one flexible electrode plate 3 is arranged between the elastic inner sleeve 1 and the elastic outer sleeve 2, and an electrode plate windowing position 4 correspondingly matched with a binding surface of the flexible electrode plate 3 is arranged on the elastic inner sleeve 1.

The outer side of the elastic outer sleeve 2 is provided with an electric connection host 5, a flexible electric lead 6 which is limited and arranged between the elastic inner sleeve and the elastic outer sleeve is arranged between the flexible electrode plate 3 and the electric connection host 5, and a power supply and a myoelectric controller which is used for carrying out myoelectric stimulation control on the flexible electrode plate 3 are arranged in the electric connection host 5.

The specific implementation process and principle description are as follows:

the power connection host 5 and the flexible electrode plate 3 belong to the prior art, the flexible electrode plate 3 is woven flexible cloth with silver fibers, and the power connection host 5 controls the flexible electrode plate 3 to send out myoelectric pulses through a myoelectric controller, so that Electric Muscle Stimulation (EMS) is realized.

And the flexible electrode plate 3 is positioned in the interlayer of the elastic inner sleeve 1 and the elastic outer sleeve 2, the flexible electrode plate 3 is effectively limited by the thermal compounding of the elastic inner sleeve 1 and the elastic outer sleeve 2, and the requirement of the alignment stability of the flexible electrode plate 3 is met when the head band is worn. And the electric host 5 is directly fixed on the elastic jacket 2.

The electric connection host 5 is described in detail, and includes an arc-shaped substrate 51 embedded in an interlayer between the elastic inner sleeve 1 and the elastic outer sleeve 2, and the arc-shaped substrate 51 is provided with an electric connection motor case main body 52 exposed through the elastic outer sleeve 2. The design is convenient for the limit stability of the power connection host 5.

In one embodiment, a bioelectricity collector for collecting bioelectricity signals is disposed in the powered host 5.

The flexible electrode plate 3 not only has myoelectricity stimulation, but also has a bioelectricity signal acquisition function, and electroencephalograms and myoelectricity signals can be acquired through the flexible electrode plate 3 through the bioelectricity acquisition device, so that data acquisition and monitoring are realized.

In a specific embodiment, three flexible electrode plates 3 are arranged between the elastic inner sleeve 1 and the elastic outer sleeve 2, wherein one flexible electrode plate 31 of the hindbrain is used for matching with the hindbrain, and the other two flexible electrode plates 32 of the temple are used for matching with the temple.

That is, the hindbrain flexible electrode sheet 31 can be brought into contact with the hindbrain to electrically stimulate the hindbrain, and the temple flexible electrode sheet 32 can be brought into contact with the temple portion to electrically stimulate the temple portion.

When people are tired, the brain massage is concentrated on the hindbrain and the temples, and the hindbrain and the temples are electrically stimulated to play a stimulating role, so that the fatigue is relieved.

In one embodiment, at least one bone vibration earphone 7 is arranged between the elastic inner sleeve 1 and the elastic outer sleeve 2, a flexible conducting wire 6 which is limited and arranged between the elastic inner sleeve and the elastic outer sleeve is arranged between the bone vibration earphone 7 and the power connection host 5, and a bone vibration earphone controller is arranged in the power connection host.

Specifically, there are generally two routes of sound propagation: the qi conduction sound and the bone conduction sound, the bone conduction sound is the transmission mode of the bone vibration. And the bone vibration earphone 7 is used for abutting with the skull so as to generate the sound conduction function. The bone vibration earphone controller can control the bone vibration earphone 7 to generate sound vibration conduction.

In one embodiment, two bone vibration earphones are arranged between the elastic inner sleeve 1 and the elastic outer sleeve 2 and are used for correspondingly matching with two sides of the back head.

As is well known, auditory nerve organs are located in ears and are adjacent to the lateral sides of the back brains, and bone conduction sound can be clearer through the position degree design of the bone vibration earphone.

In one embodiment, as shown in fig. 3, the bone vibration earphone 7 is provided with a matching passage 71 for the flexible conductive wire 6 of the flexible electrode sheet 3 to pass through, and the matching passage is isolated from the cabin of the bone vibration earphone.

Specifically, the matching channel 71 facilitates the arrangement of the bone vibration earphone 7 and the flexible conductive wire 6 of the flexible electrode plate 3, and meanwhile, the bone vibration earphone 7 is prevented from being damaged by water and dust due to the isolation design, so that the service life is prolonged.

In one embodiment, the flexible conductive wires 6 are arranged in a meander type wiring within the elastic inner sleeve and the elastic outer sleeve. Specifically, as shown in fig. 2, the flexible conductive wires are arranged in a wave shape, and any flexible conductive wires are arranged at intervals.

Specifically, the head band body formed by the elastic inner sleeve 1 and the elastic outer sleeve 2 has a large elastic opening degree, which can meet the wearing requirements of different head circumferences, while the general elastic opening degree of the flexible conductor wire is small, which can generate a tensile circuit breaking phenomenon when the head band body has a large elastic opening degree.

And finally, a remote transmission module is arranged in the power connection host 5, is used for communicating and connecting the power connection host 5 with external mobile equipment, and can control the power connection host 5 through the mobile equipment so as to respectively control myoelectric stimulation, bioelectricity collection and bone vibration earphones.

According to the intelligent head band, the myoelectricity stimulation function is achieved, local myoelectricity stimulation can be achieved, fatigue is relieved, the wearing comfort requirement is met by adopting the design of the built-in flexible electrode plate and the power connection host, external wiring is not needed, and the intelligent head band is convenient to move and use. The myoelectricity stimulation, myoelectricity collection and bone vibration sound transmission functions are integrated, and the functions are rich. The flexible electrode slice and the bone vibration earphone are reasonable and scientific in arrangement position, and the local electrical stimulation and the local bone vibration position are stable and reliable in wearing state of the head band. The flexible electric lead is reasonable in arrangement, has the elastic opening resistance, is not easy to generate the stretching and breaking phenomena, and is durable.

The technical solutions of the present invention are fully described above, it should be noted that the specific embodiments of the present invention are not limited by the above description, and all technical solutions formed by equivalent or equivalent changes in structure, method, or function according to the spirit of the present invention by those skilled in the art are within the scope of the present invention.