CN217186164U - Electroencephalogram detection head ring - Google Patents

Abstract

The utility model discloses a brain electricity detects head ring, including the head ring body, be located wear space and being located of head ring body concave surface the inside treater of head ring body, and set up the electrode zone of space one side is worn to the head ring body orientation, sets up on the electrode zone and with the electrode of brain laminating. Furthermore, the electrode belt is provided with a clamping hole, a first electrode and a second electrode. The first electrode is connected with the clamping hole buckle and collects a first electric signal, and the second electrode is electrically connected with the electrode belt and collects a second electric signal. The first electric signal is transmitted to the second electrode through the electrode belt, and is transmitted to the head ring body after being gathered with the second electric signal. The first electrode is connected with the electrode belt in a detachable mode through the clamping hole in the electrode belt, the number and the position of the electrodes can be freely adjusted, brain signals of different positions can be collected according to requirements, the whole brain electrical information of the whole brain can be comprehensively collected, and the use scene of the brain electrical detection head ring is enriched.

Description

Electroencephalogram detection head ring

Technical Field

The utility model relates to an intelligence hardware technical field, in particular to brain electricity detects head ring.

Background

Along with the development of science and technology, the wearing formula smart machine walks into people's the field of vision gradually, can use wearing formula technique to daily wearing glasses, headring, wrist-watch that carry out intelligent design etc. greatly enriched people's life. Along with the improvement of user demands, brain wave detection is widely applied to the field of intelligent head loops as a result of judging the activity state of the brain, however, the existing brain wave detection head loops can only detect the brain wave information at a fixed position, and the source of the collected information is single, so that the whole brain wave information of the whole brain cannot be comprehensively collected, and the use scene of the brain wave detection head loops is single. In actual use, however, the user may need to collect information about different locations of the brain, and therefore may need to purchase new equipment at a higher cost.

Thus, the prior art has yet to be improved and enhanced.

SUMMERY OF THE UTILITY MODEL

In view of the foregoing prior art's weak point, the utility model aims to provide an electroencephalogram detection head ring aims at solving the whole electroencephalogram information of the complete brain of collection that current electroencephalogram detection head ring can not be comprehensive, uses the comparatively single problem of scene.

In order to achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides an electroencephalogram detection head ring, includes the head ring body, is located wearing space and being located of head ring body concave surface the inside treater of head ring body, wherein, electroencephalogram detection head ring still includes:

the electrode belt is arranged on one side, facing the wearing space, of the head ring body and is electrically connected with the head ring body;

the electrode is arranged on the electrode band and detachably connected with the electrode band, and the electrode is attached to the brain.

The brain electricity detect head ring, wherein, the electrode strap includes:

an electrode belt body;

the clamping hole is formed in the electrode belt body, and the electrode is buckled in the clamping hole.

The brain electricity detection head ring, wherein, the electrode includes:

the first electrode is connected with the clamping hole in a buckling mode so as to be detachably connected with the electrode belt bodies, and first electric signals collected by the first electrode are transmitted between the electrode belt bodies;

the second electrode, the second electrode with electrode belt body electric connection, and pass through the card hole passes the electrode belt body with head ring body electric connection, in order to realize the electrode belt with the electric connection of head ring body, just first signal of telecommunication extremely the second electrode, the second signal of telecommunication is collected to the second electrode, first signal of telecommunication with the second signal of telecommunication is followed the electrode belt transmits extremely in the head ring body.

The electroencephalogram detection head ring is characterized in that the second electrode is connected with the metal button of the head ring body.

The electroencephalogram detection head ring is characterized in that a first flexible circuit is arranged in the head ring body and connected with the second electrode and the processor, and therefore electric signal transmission between the first electrode and the central processing unit is achieved.

The electroencephalogram detection head ring is characterized in that two ends of the electrode belt are connected with two ends of the head ring body.

The electroencephalogram detection head ring is characterized in that a buffer component is arranged between two ends of the electrode belt and the head ring body.

The electroencephalogram detection head ring is characterized in that the head ring body is U-shaped.

Compared with the prior art, the utility model provides a brain electricity detects head ring, the user can convenient and fast's adjustment electrode's position, realizes collecting the information of the different positions of brain, need not purchase new equipment, and moreover, the operation of adjustment electrode position is also simple swift, has promoted user experience well.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is the structure schematic diagram of the middle brain electric detection head ring of the utility model.

Fig. 2 is the structure diagram of the electrode belt of the middle brain electric detection head ring of the utility model.

Fig. 3 is a schematic structural diagram of the head ring body of the electroencephalogram detection head ring of the utility model.

Fig. 4 is the structure diagram of the head ring body and the buffering component of the middle electroencephalogram detection head ring of the utility model.

Detailed Description

The utility model provides an electroencephalogram detection head ring. In order to make the objects, technical solutions and effects of the present invention clearer and clearer, the following description of the present invention will refer to the accompanying drawings and illustrate embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

It should be noted that the terms "center", "upper", "lower", "left", "right", "inner", "outer", "vertical", "horizontal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the structures referred to must have a specific orientation or must be constructed in a specific orientation, and should not be construed as limiting the present invention.

In addition, the articles "a" and "the" may refer broadly to the singular or plural unless the context specifically states otherwise. If there is a description in an embodiment of the present invention referring to "first", "second", etc., the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a brain electricity detects head ring, as shown in figure 1, brain electricity detects head ring contains head ring body 100, electrode strip 200 and electrode 300. The head ring body 100 is U-shaped, and the inside of the U-shaped is a wearing space for a user to wear. Specifically, the head ring body 100 includes a metal button 110, a processor 600, a battery 500, a buffer member 400, and a first flexible circuit. Wherein, the metal button 110 is disposed at a side of the middle of the head ring body 100 facing the wearing space, and can be detachably connected with the electrode 300. Further, the metal button 110 is electrically connected to the body 100, and the metal button 110 is electrically connected to the electrode 300. Therefore, the electrical signals collected by the electrodes 300 can be transmitted to the inside of the head ring body 100 and processed by the metal button 110.

As shown in fig. 4, after receiving the electrical signals collected by the electrode 300, the processor 600 performs data processing on the collected electrical signals, and then sends the data-processed signals to external devices, such as a mobile phone and a computer, through a transmitter. Specifically, the processor 600 may be disposed at the rear end of the head ring body 100, and electrically connected to the metal button 110 through the first flexible circuit in the head ring body 100. Through the processor 600 performs data processing on the collected electric signals and sends the electric signals to external equipment, a user can visually use the equipment to acquire a data result detected by the electroencephalogram detection head ring in real time.

As shown in FIG. 3, the battery 500 is used for supplying power to the electrical components of the electroencephalogram detection head ring. Specifically, the battery 500 may be disposed at the rear end of the head ring body 100. The battery 500 is connected with the processor 600, the electrode belt 200 and the electrode 300 through the first flexible circuit in the head ring body 100, and supplies power to the electrical components of the electroencephalogram detection head ring.

Further, the first flexible circuit inside the headring body 100 may transmit the collected electrical signals to the processor 600. The electrical signal collected by the electrode 300 is transmitted to the head ring body 100 through the metal button 110, and is transmitted to the processor 600 located in the head ring body 100 through the first flexible circuit inside the head ring body 100 for data processing, and then is transmitted to an external device, so that a user can intuitively use the device to obtain a data result of the electroencephalogram detection head ring in real time.

As shown in fig. 4, a buffer member 400 is further disposed at one side of the end of the U-shaped headband body 100 facing the wearing space, and the buffer member 400 is made of a soft material with elasticity, such as silica gel, memory foam, and the like. Further, a spring may be disposed inside the buffer member 400. Buffer unit 400 can promote for having elastic soft materials the wearing comfort level of brain electricity detection head ring makes the brain electricity detection head ring agrees with user's head better, promptly, can make electrode 300 is inseparabler with user's the laminating of brain, can improve the degree of accuracy that detects.

As shown in fig. 1, the electrode belt 200 of the electroencephalogram detection head ring is arranged on one side of the head ring body 100 facing the wearing space, and the bottom end of the electrode belt 200 is connected with the tail end of the head ring body 100. Further, as shown in fig. 2, the electrode strip 200 is provided with a plurality of fastening holes 210. Wherein, the chucking holes 210 are used for chucking the electrodes 300. Through the clamping hole 210, the electrode belt 200 is detachably connected to the electrode 300. Specifically, the electrode 300 may be connected to the electrode strip 200 in a snap-fit manner. In practical application, the user can conveniently adjust the position of the electrode 300, so that the electroencephalogram information of different positions can be collected, the whole electroencephalogram information of the whole brain can be comprehensively collected, the electroencephalogram detection head ring can detect richer and accurate detection results, and the use scene of the electroencephalogram detection head ring is enriched.

As shown in fig. 1 and 2, the electrode 300 includes a first electrode 310 and a second electrode 320. Specifically, the second electrode 320 is disposed at the middle of the electrode belt 200, and the second electrode 320 may be detachably connected to the metal button 110 of the head ring body 100. The second electrode 320 closely adheres to the forehead of the user and collects a second electrical signal, and then transmits the second electrical signal to the headband body 100 through the metal button 110, and then transmits the second electrical signal to the processor 600 of the headband body 100 through the first flexible circuit in the headband body 100, and then transmits the second electrical signal to an external device after data processing, so that the user can intuitively use the device to obtain the data result of the electroencephalogram detection of the headband in real time.

As shown in fig. 1 and 2, a plurality of first electrodes 310 are disposed on the electrode belt 200 and are connected to the fastening holes 210 in a snap-fit manner, and the first electrodes 310 are electrically connected to the electrode belt 200 through the fastening holes 210. Specifically, the first electrode 310 is attached to the brain, collects the first electrical signal, and transmits the first electrical signal to the second electrode 320 located in the middle of the electrode band 200 through the electrode band 200, and the second electrode 320 transmits the first electrical signal collected by the first electrode 310 and the second electrical signal collected by the second electrode 320 itself to the head ring body 100 through the metal button 110. Further, the first electrical signal and the second electrical signal are transmitted to the processor 600 located in the head ring body 100 through the first flexible circuit inside the head ring body 100 for processing, and then are transmitted to an external device, so that a user can intuitively use the device to obtain a result of the electroencephalogram detection head ring detection in real time. In practical application, a user can adjust the position and the number of the first electrodes 310 through the card holes 210 according to the needs of the user, so that the needed information can be selectively collected, and the use scenes of the electroencephalogram detection head ring are enriched.

Further, a second flexible circuit is disposed inside the electrode belt 200. Wherein the second flexible circuit is electrically connected to the first electrode 310 and the second electrode 320. The first electrical signal generated by the first electrode 310 can be transmitted to the second electrode 320 through the second flexible circuit, so that the second electrode 320 transmits the first electrical signal and the second electrical signal together to the processor 600 of the head ring body 100 through the metal button 110, and performs data processing.

In practical application, after the user wears the electroencephalogram detection head ring, the first electrode 310 is attached to the brain of the user to collect the first electrical signal, and the second electrode 320 is attached to the brain of the user to collect the second electrical signal. The first electrical signal is emitted from the first electrode 310, transmitted to the second electrode 320 through the second flexible circuit in the electrode strip 200, and summed with the second electrical signal. The first electrical signal and the second electrical signal are transmitted to the head ring body 100 through the metal button 110 after being summed at the second electrode 320. Further, the first electrical signal and the second electrical signal are transmitted to the processor 600 through the first flexible circuit in the head ring body 100, and are transmitted to an external device after data processing, so that a user can intuitively use the device to obtain a data result detected by the electroencephalogram detection head ring in real time. Specifically, according to the actual demand of the user, the position and the number of the first electrodes 310 can be adjusted through the clamping holes 210, the electroencephalogram information of different brain positions is collected, the whole electroencephalogram information of the whole brain is comprehensively collected, and the use scene of the electroencephalogram detection head ring is enriched.

To sum up, the utility model discloses an electroencephalogram detection head ring, including the head ring body, be located wear space and being located of head ring body concave surface the inside treater of head ring body, and set up the electrode zone of space one side is worn towards to the head ring body, sets up the electrode that just laminates with the brain on the electrode zone. Furthermore, the electrode belt is provided with a clamping hole, a first electrode and a second electrode. The first electrode is connected with the clamping hole buckle and collects a first electric signal, and the second electrode is electrically connected with the electrode belt and collects a second electric signal. The first electric signal is transmitted to the second electrode through the electrode belt, and is transmitted to the head ring body after being gathered with the second electric signal. The first electrode passes through the card hole on the electrode area to be realized being connected with dismantling of electrode area, can freely adjust the quantity and the position of electrode, consequently can gather different positions brain signal according to the demand, the whole brain electricity information of collection whole brain that can be comprehensive has richened the use scene of brain electricity detection head-ring.

It should be understood that equivalent alterations and modifications can be made by those skilled in the art according to the technical solution of the present invention and the inventive concept thereof, and all such alterations and modifications should fall within the scope of the appended claims.

Claims (8)

1. The utility model provides an electroencephalogram detection head ring, includes the head ring body, is located wear space and being located of head ring body concave surface the inside treater of head ring body, its characterized in that, electroencephalogram detection head ring still includes:

the electrode belt is arranged on one side, facing the wearing space, of the head ring body and is electrically connected with the head ring body;

the electrode is arranged on the electrode band and detachably connected with the electrode band, and the electrode is attached to the brain.

2. The brain wave detection headgear of claim 1, wherein the electrode strap comprises:

an electrode belt body;

the clamping hole is formed in the electrode belt body, and the electrode is buckled in the clamping hole.

3. The brain electricity detecting headband of claim 2, wherein the electrodes comprise:

the first electrode is connected with the clamping hole in a buckling mode so as to be detachably connected with the electrode belt bodies, and first electric signals collected by the first electrode are transmitted between the electrode belt bodies;

the second electrode, the second electrode with electrode belt body electric connection, and pass through the card hole passes the electrode belt body with head ring body electric connection, in order to realize the electrode belt with the electric connection of head ring body, just first signal of telecommunication extremely the second electrode, the second signal of telecommunication is collected to the second electrode, first signal of telecommunication with the second signal of telecommunication is followed the electrode belt transmits extremely in the head ring body.

4. The brain wave detection headband of claim 3, wherein the second electrode is attached to the headband body metal button.

5. The electroencephalogram detection head ring of claim 3, wherein a first flexible circuit is arranged in the head ring body and is connected with the second electrode and the processor, so that electric signal transmission between the first electrode and the processor is realized.

6. The electroencephalogram detection head ring according to claim 1, wherein two ends of the electrode belt are connected with two ends of the head ring body.

7. The electroencephalogram detection head ring according to claim 3, wherein a buffer component is arranged between two ends of the electrode belt and the head ring body.

8. The electroencephalogram detection head ring according to claim 3, wherein the head ring body is U-shaped.

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