CN110584620A - Wearable device - Google Patents

Abstract

The invention belongs to the technical field of intelligent equipment, and particularly relates to wearable equipment which comprises a shell, a control device, a temperature sensor and an electrode assembly, wherein the shell is provided with a butting surface which is butted with a human body, and the temperature sensor is electrically connected with the control device; the electrode assembly comprises a first conductor, a second conductor and an electrode plate, the second conductor is arranged on the abutting surface and is electrically connected with the control device, the electrode plate is arranged on the first conductor and is used for conducting brain wave information and human body heat, the temperature sensor is arranged on the second conductor, and the first conductor is detachably connected with the second conductor; when the first conductor is connected with the second conductor, the human body heat is transmitted to the temperature sensor through the first conductor and the second conductor by the electrode plate, and the brain wave information is transmitted to the control device through the first conductor and the second conductor by the electrode plate. This wearable equipment can solve current wearable equipment and need contact the problem of the degree of difficulty that brings temperature sensor and electrode slice with human contact simultaneously.

Description

Wearable device

Technical Field

The invention belongs to the technical field of intelligent equipment, and particularly relates to wearable equipment.

Background

A wearable device is a portable device that is worn directly on a target object, particularly a human body, or integrated into a user's clothing or accessory. The wearable equipment is usually internally provided with a detection device, a target object is detected by the detection device, the existing wearable equipment is generally integrated with a temperature sensor, a brain wave sensor, a blood oxygen sensor and other types of sensors at the same time, the structure is complex, the use is inconvenient, particularly in the detection process, electrode assemblies of the temperature sensor and the brain wave sensor need to be contacted with a human body at the same time, if the electrode assemblies of the temperature sensor and the brain wave sensor are in suspension or poor contact with the human body, the detection result is inaccurate, the obtained temperature information or brain wave information is inaccurate, and the illness state can be delayed in serious cases.

Disclosure of Invention

The invention aims to provide a wearable device, and aims to solve the technical problems that the wearable device in the prior art is complex in structure and inconvenient to use.

In order to achieve the purpose, the invention adopts the technical scheme that: a wearable device comprises a shell, a control device, a temperature sensor and an electrode assembly, wherein the shell is provided with an abutting surface abutting against a human body, and the temperature sensor is electrically connected with the control device; the electrode assembly comprises a first conductor, a second conductor and an electrode plate, the second conductor is installed on the abutting surface and is electrically connected with the control device, the electrode plate is installed on the first conductor and is used for conducting brain wave information and human body heat, the temperature sensor is installed on the second conductor, and the first conductor is detachably connected with the second conductor; when the first conductor is connected with the second conductor, the human body heat is conducted to the temperature sensor through the first conductor and the second conductor by the electrode slice, and the brain wave information is conducted to the control device through the first conductor and the second conductor by the electrode slice.

Optionally, the wearable device further comprises a conductive sheet having thermal and electrical conductivity sandwiched between the first and second conductors.

Optionally, a connecting protrusion is arranged on the first conductor, a connecting hole is formed in the second conductor, the connecting protrusion is clamped in the connecting hole, or a connecting protrusion is arranged on the second conductor, the first conductor is provided with the connecting hole, and the connecting protrusion is clamped in the connecting hole.

Optionally, the first conductor is a magnetic male buckle, the second conductor is a magnetic female buckle, and the magnetic male buckle and the magnetic female buckle are magnetically buckled; or, the second conductor is a magnetic male buckle, the first conductor is a magnetic female buckle, and the magnetic male buckle and the magnetic female buckle are magnetically buckled.

Optionally, the magnetic male buckle is a magnet, and the magnetic female buckle is an iron block; or the magnetic male buckle is an iron block, and the magnetic female buckle is a magnet; or the magnetic male buckle and the magnetic female buckle are two magnets which attract each other in opposite directions.

Optionally, a mounting cavity is formed in the shell, the control device is installed in the mounting cavity, a mounting hole communicated with the mounting cavity is formed in the abutting surface, the second conductor is installed in the mounting hole, and the temperature sensor is installed on the second conductor and located in the mounting cavity.

Optionally, the control device includes a circuit board, the circuit board has a first side surface and a second side surface that are arranged oppositely, the first side surface is covered with a copper sheet, an end of the second conductor is attached to the copper sheet, and the temperature sensor is installed on the second side surface and is right opposite to the second conductor.

Optionally, the electrode sheet is a silver chloride electrode sheet.

Optionally, the wearable device further comprises a non-woven fabric, the non-woven fabric is clamped and fixed between the electrode plate and the first conductor, the non-woven fabric is provided with conductive gel, and the conductive gel covers the electrode plate.

Optionally, be equipped with the first connecting piece that a plurality of even intervals set up on the non-woven fabrics, be equipped with a plurality of second connecting pieces on the butt face, each first connecting piece with each the second connecting piece one-to-one sets up, each first connecting piece respectively with correspond the connection can be dismantled to the second connecting piece.

One or more technical solutions in the wearable device provided by the present invention have at least one of the following technical effects: when in use, the abutting surface on the shell is abutted against the human body, so that the electrode sheet arranged on the abutting surface is contacted with the human body, the brain wave information of the human body is transmitted to the control device through the electrode sheet, the first conductor and the second conductor, meanwhile, in the process that the electrode plate is contacted with the human body, the heat of the human body is conducted to the temperature sensor arranged on the second conductor through the electrode plate, the first conductor and the second conductor, the temperature sensor acquires the temperature information of the human body and transmits the temperature information to the control device, therefore, when the wearable equipment is used, the brain wave information and the temperature information can be obtained simultaneously only by ensuring that the electrode plate is in contact with the human body, therefore, the problem of contact difficulty caused by the fact that the temperature sensor and the electrode plate need to be in contact with a human body at the same time in the conventional wearable equipment is solved, and the use and operation difficulty of the wearable equipment is reduced; on the other hand, the wearable device only needs to be provided with the mounting structure of the second conductor on the abutting surface, the mounting structure of the temperature sensor is not needed, the structure is simpler, and the optimal upgrade of the wearable device in aspects of appearance, reliability, cost and the like can be realized.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a wearable device provided in an embodiment of the present invention.

Fig. 2 is a sectional view taken along line a-a in fig. 1.

Fig. 3 is an exploded view of the wearable device shown in fig. 1.

Fig. 4 is a cross-sectional view of a wearable device provided in another embodiment of the invention.

Fig. 5 is an exploded view of the wearable device shown in fig. 4.

Wherein, in the figures, the respective reference numerals:

10-housing 11-abutment surface 12-mounting cavity

13-mounting hole 14-upper shell 15-lower shell

20-circuit board 30-temperature sensor 40-electrode assembly

41-electrode plate 42-first magnetic member 43-second magnetic member

44-first conductor 45-second conductor 46-conductive sheet

50-non-woven fabric 51-conductive gel 52-fixing hole

61-first connecting piece 62-second connecting piece 70-battery

80-blood oxygen detection module 90-switch component 411-connecting column

421-positioning column 431-positioning hole 441-connecting protrusion

451-connecting hole.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to fig. 1-5 are exemplary and intended to be used for explanation of the invention, and should not be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are 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 one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

As shown in fig. 1 to 5, in an embodiment of the present invention, a wearable device is provided, which includes a housing 10, a control device, a temperature sensor 30 and an electrode assembly 40, wherein the housing 10 has an abutting surface 11 abutting against a human body, wherein the abutting surface 11 generally abuts against a forehead of the human body so as to obtain temperature or brain wave information of the human body, an arc of the abutting surface 11 is adapted to a physiological curve of the forehead, although the abutting surface 11 can also contact other parts of the human body, and the abutting surface 11 can be set as required according to physiological curves of different parts; further, the temperature sensor 30 is electrically connected with the control device; the electrode assembly 40 comprises a first conductor 44, a second conductor 45 and an electrode plate 41, wherein the second conductor 45 is arranged on the abutting surface 11 and is electrically connected with the control device, the electrode plate 41 is arranged on the first conductor 44 and is used for conducting brain wave information and human body heat, the temperature sensor 30 is arranged on the second conductor 45, and the first conductor 44 is detachably connected with the second conductor 45; when the first conductor 44 is connected to the second conductor 45, the human body heat is conducted from the electrode pad 41 to the temperature sensor 30 through the first conductor 44 and the second conductor 45, and the electroencephalogram information is conducted from the electrode pad 41 to the control device through the first conductor 44 and the second conductor 45.

Specifically, when the wearable device of the embodiment of the present invention is used, the abutting surface 11 of the housing 10 abuts against the human body, so that the electrode sheet 41 mounted on the abutting surface 11 contacts with the human body, the brain wave information of the human body is transmitted to the control device through the electrode sheet 41, the first conductor 44 and the second conductor 45, and meanwhile, in the process that the electrode sheet 41 contacts with the human body, the heat of the human body is transmitted to the temperature sensor 30 mounted on the second conductor 45 through the electrode sheet 41, the first conductor 44 and the second conductor 45, and the temperature sensor 30 acquires the temperature information of the human body and transmits the temperature information to the control device, so that on one hand, when the wearable device is used, the brain wave information and the temperature information can be acquired at the same time only by ensuring that the electrode sheet 41 contacts with the human body, thereby solving the problem of difficulty in contact caused by the existing wearable device that the temperature sensor 30 and the electrode sheet 41 contact with, the difficulty in using and operating the wearable equipment is reduced; on the other hand, the wearable device only needs to be provided with the mounting structure of the second conductor 45 on the abutting surface 11, and does not need to be provided with the mounting structure of the temperature sensor 30, so that the structure is simpler, and the wearable device can be optimized and upgraded in aspects of appearance, reliability, cost and the like.

Furthermore, the electrode plate 41 is connected with the housing 10 through the first conductor 44 and the second conductor 45 in a buckling manner, so that the electrode plate 41 is detachably connected with the housing 10; after long-time use, when dirt appears on the electrode plate 41, the first conductor 44 and the second conductor 45 are separated, so that the electrode plate 41 is cleaned independently, the cleanness, the sanitation and the use safety of the wearable device are ensured, and cross infection and disease transmission are avoided; through first conductor 44 and second conductor 45 lock for electrode slice 41 dismouting easy operation is convenient, labour saving and time saving.

In another embodiment of the present invention, referring to fig. 2 and 3, a connection protrusion 441 is disposed on the first conductor 44 of the wearable device, the second conductor 45 is disposed with a connection hole 451, and the connection protrusion 441 is engaged with the connection hole 451, or the second conductor 45 is disposed with a connection protrusion 441, the first conductor 44 is disposed with a connection hole 451, and the connection protrusion 441 is engaged with the connection hole 451. Specifically, stretch into the block in connecting hole 451 through connecting protrusion 441, realize that first conductor and second conductor lock are connected, its structural connection, it is stable good to connect, and, when connecting protrusion 441 inserts in connecting hole 451, the dislocation can not appear moving between first conductor 44 and the second conductor 45, make first conductor 44 and second conductor 45 more reliable and more stable, avoid this wearable equipment when using, casing 10 in case the atress leads to first magnetic part 42 and second magnetic part 43 dislocation separation, finally cause the damage that drops of casing 10.

In another embodiment of the present invention, referring to fig. 2 and 3, the wearable device is further provided with a conductive sheet 46 having thermal and electrical conductivity, the conductive sheet 46 being sandwiched between the first conductor 44 and the second conductor 45; the conductive sheet 46 has good heat conductive performance and electrical conductivity, and can improve electrical conductivity and thermal conductivity between the first conductor 44 and the second conductor 45. Specifically, connect protruding 441 pass behind the conduction piece 46 block in plug hole 451, conduction piece 46 centre gripping is between first conductor 44 and second conductor 45, can solve like this and rock because of the atress after first conductor 44 and the lock of second conductor 45 for butt joint terminal surface contact between first conductor 44 and the second conductor 45 is bad, and cause first conductor and the poor problem of second conductor electric conductivity ability and heat conductivility, guarantee electrically conductive and heat conduction's stability between first conductor 44 and the second conductor 45, guarantee that temperature sensor 30 can detect true human temperature and controlling means and receive accurate brain wave information, reduce the error, improve the accuracy of testing result.

In another embodiment of the present invention, the conductive patch 46 of the wearable device is provided as a silicone patch. Specifically, the silicone sheet has good electrical conductivity and thermal conductivity, and can effectively improve the electrical conductivity and thermal conductivity between the first conductor 44 and the second conductor 45, so as to ensure that the temperature sensor 30 can detect the real temperature of the human body and the control device receives accurate brain wave information, reduce errors, and improve the accuracy of the detection result.

In another embodiment of the present invention, the first conductor 44 of the wearable device is provided as a magnetic male buckle, the second conductor 45 is provided as a magnetic female buckle, and the magnetic male buckle and the magnetic female buckle are magnetically buckled; or, the second conductor 45 is a magnetic male buckle, the first conductor 44 is a magnetic female buckle, and the magnetic male buckle and the magnetic female buckle are magnetically buckled. The magnetic male buckle and the magnetic female buckle have a magnetic adsorption effect under the buckling effect of the magnetic male buckle and the magnetic female buckle, so that the magnetic male buckle and the magnetic female buckle are attached more tightly, the electric conductivity and the electric conductivity between the magnetic female buckle and the magnetic male buckle can be effectively improved, and the detection result is more accurate; meanwhile, the connection between the magnetic male buckle and the magnetic female buckle is more stable and reliable.

In another embodiment of the present invention, the magnetic male buckle of the wearable device is provided as a magnet, and the magnetic female buckle is an iron block; through lock magnetism between magnet and the iron plate to realize dismantling the connection between electrode slice 41 and the casing 10, its simple structure, the preparation is convenient, easy dismounting, and magnet and iron plate all have good electric conduction and heat conductivility, can accurately give temperature sensor 30 with the heat conduction of human body, simultaneously, also can give controlling means with the brain wave information transfer that electrode slice 41 gathered, guarantee that wearable equipment can acquire accurate body temperature and brain wave information.

In another embodiment of the present invention, the magnetic male buckle of the wearable device is an iron block, and the magnetic female buckle is a magnet; through lock magnetism between magnet and the iron plate to realize dismantling the connection between electrode slice 41 and the casing 10, its simple structure, the preparation is convenient, easy dismounting, and magnet and iron plate all have good electric conduction and heat conductivility, can accurately give temperature sensor 30 with the heat conduction of human body, simultaneously, also can give controlling means with the brain wave information transfer that electrode slice 41 gathered, guarantee that wearable equipment can acquire accurate body temperature and brain wave information.

In another embodiment of the present invention, the magnetic male buckle and the magnetic female buckle of the wearable device are provided as two magnets with opposite attraction. Specifically, through the magnetism of two opposite poles attracting magnets, can dismantle the connection between electrode slice 41 and the casing 10, its simple structure, the preparation is convenient, and connects more reliable and stable, and in addition, magnet has good electric conduction and heat conductivility, can accurately conduct the heat of human body for temperature sensor 30, simultaneously, also can give controlling means with the brain wave information transfer that electrode slice 41 gathered, guarantees that wearable equipment can acquire accurate body temperature and brain wave information.

In another embodiment of the present invention, referring to fig. 2 and 3, a mounting cavity 12 is provided in the housing 10 of the wearable device, the control device is mounted in the mounting cavity 12, a mounting hole 13 communicating with the mounting cavity 12 is provided on the abutting surface 11, the second conductor 45 is mounted in the mounting hole 13, and the temperature sensor 30 is mounted on the second conductor 45 and located in the mounting cavity 12. Specifically, the control device is located in the mounting cavity 12 in the housing 10, and after the second conductor 45 passes through the mounting hole 13, the electrode plate 41 protrudes and exposes out of the abutting surface 11; when the abutting surface 11 abuts against the human body, the electrode plate 41 is tightly attached to the skin of the human body, so that accurate physiological information of the human body is obtained, and accurate information guidance is provided for subsequent disease diagnosis; the temperature sensor 30 is located in the installation cavity 12, and compared with the existing wearable device, a window for exposing the temperature sensor 30 does not need to be formed on the shell 10, so that the performance of the wearable device in various aspects such as appearance, reliability, cost and the like is effectively improved; also, the electrode assembly 40 has an integrated temperature conduction function, thereby providing an additional body temperature monitoring function to monitor fever in the most compact appearance of the wearable device.

Further, the case 10 includes an upper case 14 and a lower case 15 which are engaged with each other, the abutting surface 11 and the mounting hole 13 are both disposed on the upper case 14, and when assembling, the control device, the temperature sensor 30 and the electrode assembly 40 are mounted on the upper case 14, and then the lower case 15 is engaged with the upper case 14, so that the control device, the temperature sensor 30 and the electrode assembly 40 are fixedly mounted in the mounting cavity 12, and the assembling operation is simple.

In another embodiment of the present invention, referring to fig. 2 and 3, a control device of the wearable device is provided, which includes a circuit board 20, the circuit board 20 having a first side and a second side opposite to each other, the first side being covered with a copper sheet, an end of the second conductor 45 being attached to the copper sheet, and the temperature sensor 30 being mounted on the second side and facing the second conductor 45. Specifically, the second conductor 45 is attached to a copper sheet (not shown) on the second side surface of the circuit board 20, so that the electrical connection between the electrode sheet 41 and the circuit board 20 is realized, and meanwhile, the second conductor 45 transfers heat of the human body to the copper sheet, and the heat is transferred to the temperature sensor 30 after passing through the copper sheet and the circuit board 20, so that the temperature detection of the human body is realized; by adopting the connection mode, the structure is compact, the space utilization rate of the installation cavity 12 can be effectively utilized, the miniaturization design of the wearable equipment is facilitated, and the portability of the wearable equipment is improved.

Furthermore, the circuit board 20 is provided with a wireless module for wireless connection of external intelligent devices (e.g., mobile phones and notebooks) and a receiving module for receiving instruction information sent by the external intelligent devices, so that the control device can timely detect information output and realize intelligent control and remote control.

In another embodiment of the present invention, referring to fig. 2 and 3, the wearable device is further provided with a battery 70, the battery 70 is installed in the housing 10, and the control device is electrically connected to the battery 70. The wearable device is internally provided with the battery 70, so that the wearable device is convenient and quick to use.

Further, a switch assembly 90 for controlling the wearable device to be turned on and off and a charging interface for charging the battery 70 are disposed on the housing 10.

In another embodiment of the present invention, referring to fig. 1, fig. 2 and fig. 3, the wearable device further includes an blood oxygen detecting module 80, the blood oxygen detecting module 80 is mounted on the abutting surface 11, and the blood oxygen detecting module 80 is electrically connected to the control device. Specifically, blood oxygen detection module 80 can detect the oxyhemoglobin saturation information in the human body and feed back the oxyhemoglobin saturation information to controlling means, and this wearable equipment still has oxyhemoglobin saturation detection function when having temperature detection and brain wave information detection, realizes that this wearable equipment has the detection function of multiple physiological information, can satisfy diversified detection demand.

In another embodiment of the present invention, referring to fig. 4 and 5, an electrode assembly 40 of the wearable device is provided, which includes an electrode pad 41, a first magnetic member 42, and a second magnetic member 43, wherein the electrode pad 41 is mounted on a first end of the first magnetic member 42, the second magnetic member 43 is mounted on the housing 10, the temperature sensor 30 is mounted on the second magnetic member 43, and a second end of the first magnetic member 42 is attracted to the second magnetic member 43. Specifically, the electrode plate 41 and the shell 10 are connected through the first magnetic part 42 and the second magnetic part 43 in a magnetic attraction manner, so that the electrode plate 41 and the shell 10 are detachably connected, after long-time use, dirt appears on the electrode plate 41, the first magnetic part 42 and the second magnetic part 43 can be separated, the electrode plate 41 is cleaned independently, the cleanness and the sanitation of use and the safety of use of the wearable device are guaranteed, and cross infection and disease propagation are avoided; through first magnetic part 42 and second magnetic part 43 magnetism absorption for electrode slice 41 dismouting easy operation is convenient, labour saving and time saving.

In another embodiment of the present invention, referring to fig. 4 and 5, a positioning column 421 is disposed on an end surface of the second end of the first magnetic member 42 of the wearable device, a positioning hole 431 is disposed on an end surface of the second magnetic member 43, and the positioning column 421 is inserted into the positioning hole 431. Specifically, when the positioning column 421 is inserted into the positioning hole 431, the first magnetic member 42 and the second magnetic member 43 do not move or shift, so that the connection between the first magnetic member 42 and the second magnetic member 43 is more stable and reliable, and the case 10 is prevented from being damaged by dropping of the case 10 due to the fact that the first magnetic member 42 and the second magnetic member 43 are separated by shifting caused by stress when the wearable device is used.

In another embodiment of the present invention, the first magnetic member 42 of the wearable device is provided as a magnet, and the second magnetic member 43 is provided as an iron block; inhale through magnet and iron plate looks magnetism to realize dismantling the connection between electrode slice 41 and the casing 10, its simple structure, the preparation is convenient, and magnet and iron plate all have good electric conduction and heat conductivility, can accurately give temperature sensor 30 with the heat conduction of human body, simultaneously, also can give controlling means with the brain wave information transfer that electrode slice 41 gathered, guarantee that wearable equipment can acquire accurate body temperature and brain wave information.

In another embodiment of the present invention, the first magnetic member 42 of the wearable device is provided as an iron block, and the second magnetic member 43 is provided as a magnet; inhale through magnet and iron plate looks magnetism to realize dismantling the connection between electrode slice 41 and the casing 10, its simple structure, the preparation is convenient, and magnet and iron plate all have good electric conduction and heat conductivility, can accurately give temperature sensor 30 with the heat conduction of human body, simultaneously, also can give controlling means with the brain wave information transfer that electrode slice 41 gathered, guarantee that wearable equipment can acquire accurate body temperature and brain wave information.

In another embodiment of the present invention, the first magnetic member 42 and the second magnetic member 43 of the wearable device are provided as two magnets with opposite attraction. Specifically, through the magnetism of two opposite poles attracting magnets, can dismantle the connection between electrode slice 41 and the casing 10, its simple structure, the preparation is convenient, and connects more reliable and stable, and in addition, magnet has good electric conduction and heat conductivility, can accurately conduct the heat of human body for temperature sensor 30, simultaneously, also can give controlling means with the brain wave information transfer that electrode slice 41 gathered, guarantees that wearable equipment can acquire accurate body temperature and brain wave information.

In another embodiment of the present invention, the electrode pad 41 of the wearable device is provided as a silver chloride electrode pad. Specifically, the silver chloride electrode plate has the advantages of good conductivity, stable polarization potential, convenience in use and the like, and when the electrode plate 41 is attached to a human body, the silver chloride electrode plate can stably transmit brain wave signals of the human body to the control device.

Specifically, the conductive gel 51 improves the reliability and accuracy of brain wave information transmission, so that the first magnetic part 42 and the second magnetic part 43 can accurately transmit the brain wave information and the temperature information of the human body to the control device, thereby ensuring that the wearable device has good accuracy in detecting the physiological information of the human body.

Further, the shape of the non-woven fabric 50 is matched with the shape of the abutting surface 11, meanwhile, the non-woven fabric 50 can be provided with a plurality of conductive gels 51, the whole wearable device is adhered to the skin of the human body through the adhesive force between the conductive gels 51 and the skin of the human body without being fixed by means of parts of the wearable device, the wearable device is simple in structure and convenient and fast to use, the non-woven fabric 50 is convenient to clean and operate, and the wearable device is kept clean and sanitary.

In another embodiment of the present invention, referring to fig. 4 and 5, a connection post 411 is provided on the electrode pad 41 of the wearable device, and the connection post 411 passes through the non-woven fabric 50 and is connected to the first magnetic member 42. The connection column 411 penetrates through the non-woven fabric 50 to be connected with the first magnetic member 42, the connection mode is stable and reliable, the conductive connection between the electrode plate 41 and the first magnetic member 42 can be realized, meanwhile, the electrode plate 41 is in direct contact with the first magnetic member 42, the heat conduction performance between the electrode plate 41 and the first magnetic member 42 can also be improved, and the temperature information acquired by the temperature sensor 30 is more accurate and reliable.

In another embodiment of the present invention, referring to fig. 3 and 5, a plurality of first connecting members 61 are disposed on the non-woven fabric 50 of the wearable device at regular intervals, a plurality of second connecting members 62 are disposed on the abutting surface 11, each first connecting member 61 is disposed in one-to-one correspondence with each second connecting member 62, and each first connecting member 61 is detachably connected to the corresponding second connecting member 62. Specifically, the non-woven fabric 50 is connected by a plurality of pairs of first connecting pieces 61 and second connecting pieces 62, so that the connection between the non-woven fabric 50 and the casing 10 is stable and reliable, and the casing 10 is effectively prevented from falling off from the non-woven fabric 50 and being damaged when in use; meanwhile, the pairs of the first connecting pieces 61 and the second connecting pieces 62 can ensure that the non-woven fabric can be smoothly and stably installed on the housing 10, prevent the non-woven fabric 50 from being folded, and ensure that the conductive gel 51 on the non-woven fabric 50 can be stably adhered to the human body, thereby ensuring that the electrode assembly 40 can be stably contacted with the human body and ensuring the accuracy of the acquired detection result information; each first connecting piece 61 can be dismantled with the second connecting piece 62 that corresponds and be connected respectively, can make things convenient for the dismantlement of non-woven fabrics 50 to wash and change, guarantees the clean health of this wearable equipment.

Furthermore, the non-woven fabric 50 and each first connecting piece 61 are provided with a fixing hole 52 at a corresponding position, and the conductive gel 51 is covered on the fixing holes 52 in a one-to-one correspondence manner and then is bonded with the first connecting pieces 61, so that the first connecting pieces 61 and the non-woven fabric 50 can be connected without arranging other connecting parts, and the structure is simpler.

Further, the number of the first connecting members 61 and the number of the second connecting members 62 may be one, two, three or more than three, the greater the number of the first connecting members 61 and the number of the second connecting members 62, the better the connection stability between the non-woven fabric 50 and the housing 10, preferably, the two number of the first connecting members 61 and the two number of the second connecting members 62 are both, and the two second connecting members 62 are respectively located at two opposite sides of the second connecting members 62.

Further, the first connecting member 61 may be a first magnetic member 42, and the second connecting member 62 may be a second magnetic member 43, and the first magnetic member 42 and the second magnetic member 43 are magnetically connected to each other, so as to detachably connect the non-woven fabric 50 and the housing 10, and the non-woven fabric can be repeatedly disassembled and assembled, and is durable.

Further, the first connecting member 61 can also be the first conductor 44, and the second connecting member 62 can also be the second conductor 45, and the detachable connection between the non-woven fabric 50 and the housing 10 is realized through the buckling action of the first conductor 44 and the second conductor 45, so that the connection is stable and reliable, and the non-woven fabric can be repeatedly disassembled and assembled, and the use is convenient.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A wearable device, characterized by: the temperature sensor is electrically connected with the control device;

the electrode assembly comprises a first conductor, a second conductor and an electrode plate, the second conductor is installed on the abutting surface and is electrically connected with the control device, the electrode plate is installed on the first conductor and is used for conducting brain wave information and human body heat, the temperature sensor is installed on the second conductor, and the first conductor is detachably connected with the second conductor; when the first conductor is connected with the second conductor, the human body heat is conducted to the temperature sensor through the first conductor and the second conductor by the electrode slice, and the brain wave information is conducted to the control device through the first conductor and the second conductor by the electrode slice.

2. The wearable device of claim 1, wherein: the first conductor is provided with a connecting bulge, the second conductor is provided with a connecting hole, the connecting bulge is clamped in the connecting hole, or the second conductor is provided with a connecting bulge, the first conductor is provided with a connecting hole, and the connecting bulge is clamped in the connecting hole.

3. The wearable device of claim 1, wherein: the wearable device also includes a conductive patch having thermal and electrical conductivity properties, the conductive patch sandwiched between the first conductor and the second conductor.

4. The wearable device of claim 1, wherein: the first conductor is a magnetic male buckle, the second conductor is a magnetic female buckle, and the magnetic male buckle and the magnetic female buckle are magnetically buckled; or, the second conductor is a magnetic male buckle, the first conductor is a magnetic female buckle, and the magnetic male buckle and the magnetic female buckle are magnetically buckled.

5. The wearable device of claim 4, wherein: the magnetic male buckle is a magnet, and the magnetic female buckle is an iron block; or the magnetic male buckle is an iron block, and the magnetic female buckle is a magnet; or the magnetic male buckle and the magnetic female buckle are two magnets which attract each other in opposite directions.

6. A wearable device according to any of claims 1-5, characterized by: the casing is internally provided with a mounting cavity, the control device is installed in the mounting cavity, a mounting hole communicated with the mounting cavity is formed in the abutting surface, the second conductor is installed in the mounting hole, and the temperature sensor is installed on the second conductor and located in the mounting cavity.

7. A wearable device according to any of claims 1-5, characterized by: the control device comprises a circuit board, the circuit board is provided with a first side face and a second side face which are oppositely arranged, the first side face is covered with a copper sheet, the end part of the second conductor is attached to the copper sheet, and the temperature sensor is arranged on the second side face and is right opposite to the second conductor.

8. A wearable device according to any of claims 1-5, characterized by: the electrode plate is a silver chloride electrode plate.

9. A wearable device according to any of claims 1-5, characterized by: the wearable equipment further comprises a non-woven fabric, the non-woven fabric is clamped and fixed between the electrode plate and the first conductor, the non-woven fabric is provided with conductive gel, and the conductive gel covers the electrode plate.

10. The wearable device of claim 9, wherein: be equipped with the first connecting piece that a plurality of even intervals set up on the non-woven fabrics, be equipped with a plurality of second connecting pieces on the butt face, each first connecting piece with each the second connecting piece one-to-one sets up, each first connecting piece respectively with correspond the connection can be dismantled to the second connecting piece.