CN110897276A - Intelligent wearable device used for being worn on wrist - Google Patents

Abstract

The embodiment of the application provides an intelligence wearing equipment for wearing at the wrist, includes: the watch comprises a watch body, a watchband, an air bag, an air supply device and a detection device; a power supply device and a control chip are arranged in the meter body, and the control chip is electrically connected with the power supply device; the watchband is connected with the watch body to fix the watch body; the air bag covers the inner side surface of the watchband; the gas supply device is communicated with the air bag and is used for injecting gas into the air bag; the detection device is connected with the air bag and is in signal connection with the control chip, and the detection device is used for detecting the air pressure in the air bag; the gas supply device and the detection device are both arranged on the watchband, and the gas supply device is electrically connected with the power supply device through a power supply line on the watchband; compare with the air pump setting in the internal portion of table, avoided air feeder to occupy the inner space of the table body, can reduce the volume of the table body, convenience of customers wears.

Description

Intelligent wearable device used for being worn on wrist

Technical Field

The application relates to wearing equipment technical field especially relates to an intelligence wearing equipment for wearing at the wrist.

Background

With the gradual development of the technology of intelligent wearable devices (such as intelligent watches, intelligent bracelets and the like), the intelligent watches with the blood pressure measurement function come into production; the user can detect the blood pressure through the intelligent watch, does not need special blood pressure detection equipment, and the measurement is convenient.

The intelligent wrist-watch includes: the utility model provides a wrist-watch body, watchband and gasbag, watchband and table are connected through living the ear between the body, and the gasbag is attached in the inboard of watchband and the body of table to when wearing intelligent wrist-watch on the arm, watchband and the body of table can press the gasbag on the arm. The gauge body is internally provided with an air pump, a control chip and a power supply device electrically connected with the control chip, the air pump is communicated with the air bag, the air bag is internally provided with an air pressure sensor, and the air pressure sensor is electrically connected with the control chip. During detection, the control chip controls the power supply device to supply power to the air pump, so that air is injected into the air bag, and the air bag extrudes the arm; the air pressure sensor detects the air pressure value in the air bag and transmits the detected pressure value to the control chip, and the control chip acquires the blood pressure value of the user according to the change of the pressure value.

However, in the prior art, the control chip, the power supply device and the air pump are all arranged in the watch body, so that the watch body is large in size and inconvenient to carry.

Disclosure of Invention

In view of this, the embodiment of the application provides an intelligence wearing equipment for wearing at the wrist to solve prior art in the air pump setting in the table body for the volume of table body is great, carries inconvenient technical problem.

The embodiment of the application provides an intelligence wearing equipment for wearing at the wrist, includes: the watch comprises a watch body, a watchband, an air bag, an air supply device and a detection device, wherein a power supply device and a control chip are arranged in the watch body, and the control chip is electrically connected with the power supply device; the watchband is connected with the watch body to fix the watch body; the air bag covers the inner side surface of the watchband; the gas supply device is communicated with the air bag and is used for injecting gas into the air bag; the detection device is connected with the air bag and is in signal connection with the control chip, and the detection device is used for detecting the air pressure in the air bag; the gas supply device and the detection device are both arranged on the watchband, and the gas supply device is electrically connected with the power supply device through a power supply line on the watchband.

The control chip and the power supply device are arranged in the watch body, the power supply device is electrically connected with the control chip, and the watchband is connected with the watch body so as to fix the watch body on the wrist of a user; the gas supply device and the detection device are both arranged on the watchband, and the gas supply device is electrically connected with the power supply device through a power supply line arranged on the watchband; compare with the air pump setting in the internal portion of table, avoided air feeder to occupy the inner space of the table body, can reduce the volume of the table body, convenience of customers wears.

The intelligent wearable device for wearing on the wrist comprises a power supply line, a first power supply line and a second power supply line, wherein the power supply line is arranged on the watchband, and one end of each of the first power supply line and the second power supply line is electrically connected with a gas supply device; the watch body is provided with a first connecting lug and a second connecting lug at intervals, one end of the watchband is connected with the first connecting lug and the second connecting lug, the first connecting lug is provided with a first conductive block electrically connected with the power supply device, and the second connecting lug is provided with a second conductive block electrically connected with the power supply device; the other end of the first power supply line is electrically connected to the first conductive block, and the other end of the second power supply line is electrically connected to the second conductive block.

The first conductive block and the second conductive block are used for realizing the electric connection between the power supply circuit and the power supply device, the structure is simple, and the processing and the manufacturing are convenient.

The intelligent wearable device for wearing on the wrist further comprises a connecting lug, wherein the connecting lug comprises a first conductive column and a second conductive column which are in insulation connection, the center lines of the first conductive column and the second conductive column are arranged in a collinear manner, the first conductive column and the second conductive column are arranged in a mounting hole in a penetrating manner on the watchband, the first conductive column is provided with a first clamping portion extending out of one end of the mounting hole, and the second conductive column is provided with a second clamping portion extending out of the other end of the mounting hole; the first power supply line is electrically connected with the first conductive column, and the second power supply line is electrically connected with the second conductive column; the first clamping part is clamped in a first clamping groove on the first connecting lug, and the second clamping part is clamped in a second clamping groove on the second connecting lug; the first conductive block is arranged in the first clamping groove and is contacted with the first clamping part; the second conductive block is arranged in the second clamping groove and is in contact with the second clamping portion.

When rotating the watchband, can avoid first power supply line and second power supply line and the conducting block separation that corresponds, and then improve life.

In some embodiments, an annular groove is provided on the first conductive pillar, the first power supply line is wound in the annular groove so as to prevent the first power supply line from protruding from the side wall of the first conductive pillar, and the first conductive pillar can rotate in a metal ring surrounded by the first power supply line so as to prevent the first power supply line from preventing the first conductive pillar from rotating in the mounting hole; similarly, an annular groove may be provided on the second conductive pillar, and the second power supply line may be wound in the annular groove so as to prevent the second power supply line from protruding from the side wall of the second conductive pillar, and at the same time, the second conductive pillar may rotate in a metal ring surrounded by the second power supply line so as to prevent the second power supply line from preventing the second conductive pillar from rotating in the mounting hole.

The intelligent wearing equipment for wearing at the wrist as above, wherein, connect and give birth to the ear still including setting up the insulating column between first leading electrical pillar and the second leads electrical pillar, the one end of insulating column and the first one end of leading electrical pillar to deviate from first joint portion are connected, the other end of insulating column and the second lead electrical pillar to deviate from the one end of second joint portion and be connected.

Realize the insulating connection between first conductive cylinder and the second conductive cylinder through the insulating column, simple structure, and be convenient for manufacturing.

As above, be used for wearing at intelligent wearing equipment of wrist, wherein, the one end of insulating cylinder is provided with first cylinder, and the other end of insulating cylinder is provided with the second cylinder, and the one end that first leads electrical pillar to deviate from first joint portion is provided with first connecting hole, and the one end that second leads electrical pillar to deviate from second joint portion is provided with the second connecting hole, and first cylinder is worn to establish in first connecting hole, and the second cylinder is worn to establish in the second connecting hole.

So set up, be convenient for first lead the installation and the dismantlement between the electrical pillar and the second.

In some embodiments, the first cylinder and the second cylinder are provided with external threads, the first connecting hole and the second connecting hole are provided with internal threads correspondingly, the first cylinder is inserted into the first connecting hole during use, the external threads on the first cylinder are matched with the internal threads on the side wall of the first connecting hole, the first conductive column and the insulating column can be prevented from being separated in the wearing process, the second cylinder is inserted into the second connecting hole, and the external threads on the second cylinder are matched with the internal threads on the side wall of the second connecting hole, so that the second conductive column and the insulating column are prevented from being separated in the wearing process.

The intelligent wearable device for wearing on the wrist as described above, wherein the first power supply line and the second power supply line are provided inside the watchband.

The protection to first power supply line and second power supply line can be realized, and then avoid wearing the in-process first power supply line and second power supply line and external object to cut and rub and damage.

The intelligent wearable device for wearing on the wrist further comprises a detection chip arranged on the watchband, the detection chip is electrically connected with the air supply device and the detection device, and the power supply line is electrically connected with the detection chip to supply power to the detection chip.

The signal detected by the detection device is transmitted to the control chip after passing through the detection chip, and the detection chip can process the detection signal so as to simplify the processing process of the control chip.

The intelligent wearable device is used for being worn on the wrist, wherein a first wireless communication chip is arranged in the watch body and electrically connected with the control chip; the surface belt is provided with a second wireless communication chip which is electrically connected with the detection chip; the first wireless communication chip and the second wireless communication chip transmit signals in a wireless communication mode.

Only can through the power supply line to detecting the chip power supply, the control signal that control chip sent and the detection signal that detection device acquireed all pass through the wireless connection transmission between first wireless communication chip and the second wireless communication chip, compare with the signal line that sets up connection control chip and detection chip, can reduce the circuit on the watchband to be used for wearing at the intelligent wearing equipment of wrist.

The intelligent wearable device for wearing on the wrist comprises a first wireless communication chip and a second wireless communication chip, wherein the first wireless communication chip and the second wireless communication chip are both Bluetooth chips. And the first wireless communication chip and the second wireless communication chip realize signal transmission in a Bluetooth mode.

The intelligent wearable device for wearing on the wrist further comprises an installation shell, the installation shell is arranged on the watchband, and the gas supply device, the detection chip and the second wireless communication chip are all arranged in the shell. The protection of the gas supply device, the detection chip and the second wireless communication chip is realized.

The intelligent wearable device for wearing on the wrist comprises a mounting shell, an air bag, a through hole and an air supply device, wherein the mounting shell is arranged on the outer side face of the watchband, the air bag is provided with the air supply hole, the watchband is provided with the through hole opposite to the air supply hole, and the air supply device is communicated with the air supply hole through the through hole. So set up, made things convenient for the intercommunication between air feeder and the gasbag.

The intelligent wearing equipment for wearing at the wrist as above, wherein, be provided with the mounting groove on the lateral surface of watchband, installation casing sets up in the mounting groove. The installation casing sets up and can reduce the space that the installation casing occupy in the mounting groove, reduces the volume of watchband.

The intelligent wearable device for wearing on the wrist comprises a first watchband and a second watchband, wherein the first watchband is connected with one end of a watch body, the second watchband is connected with the other end of the watch body, an installation shell is arranged on the first watchband, a locking device is arranged on the installation shell, and the second watchband is further connected with the locking device, so that the first watchband and the second watchband are surrounded to form a wearable ring.

The wearing ring is sleeved on the wrist of the user so as to prevent the intelligent wearing equipment worn on the wrist from being separated from the wrist of the user.

The smart wearable device for wearing on the wrist as described above, wherein the locking means includes a locking ring provided on the mounting case, and the second band is wound around the locking ring.

The intelligent wearable device for wearing on the wrist as described above, wherein the air supply means includes an air pump.

The intelligent wearable device for wearing on the wrist as described above, wherein the detection means includes an air pressure sensor, and the air pressure sensor is disposed in the air bag.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent wearable device worn on a wrist according to an embodiment of the present application;

FIG. 2 is a schematic view of a second wristband about which a first connector piece and a second connector piece are attached according to an embodiment of the present disclosure;

fig. 3 is an exploded view of a mounting housing for wearing on a smart wearable device at a wrist according to an embodiment of the present application;

fig. 4 is an exploded view of a band connected to a living ear by a connector in an intelligent wearable device worn on a wrist according to an embodiment of the present application;

FIG. 5 is a schematic structural view of the insulating column of FIG. 4;

fig. 6 is a schematic view of a watch body connected to a third watch strap and a fourth watch strap in the intelligent wearable device worn on the wrist according to the embodiment of the present application;

fig. 7 is a schematic connection diagram of a control chip in an intelligent wearable device worn on a wrist according to an embodiment of the present application;

fig. 8 is a schematic connection diagram of a control chip and a detection chip in an intelligent wearable device worn on a wrist according to an embodiment of the present application.

Description of reference numerals:

10: a watch body;

20: a first band;

30: a second band of watchbands;

40: connecting the raw ear;

50: an air bag;

60: installing a shell;

70: a third watchband;

80: a fourth band;

101: a first connecting lug;

102: a second engaging lug;

103: a control chip;

104: a power supply device;

105: a display device;

106: a power source;

107: a first wireless communication chip;

201: a first power supply line;

202: a second power supply line;

203: mounting holes;

204: mounting grooves;

205: a through hole;

301: a first connecting piece;

302: a second connecting sheet;

401: a first conductive post;

402: a second conductive post;

403: an insulating column;

404: a first clamping part;

405: a second clamping part;

406: a first column;

407: a second cylinder;

501: an air supply hole;

601: a first housing;

602: a second housing;

603: a gas supply device;

604: a circuit board;

605: an air pressure sensor;

606: detecting a chip;

607: a second wireless communication chip;

608: a locking ring.

Detailed Description

The embodiment provides an intelligent wearable device for being worn on a wrist, and particularly, the intelligent wearable device for being worn on the wrist can be a wearable device such as a smart watch, a sports watch and a smart bracelet; the present embodiment does not limit this, and the present embodiment takes a smart watch as an example for description.

Referring to fig. 1, the smart wearable device for wearing on the wrist provided by the embodiment includes a watch body 10 and a watchband, where the watchband includes a first watchband 20 connected to one end of the watch body 10 and a second watchband 30 connected to the other end of the watch body 10, and when worn, the first watchband 20 and the second watchband 30 are wound around the wrist of the user together, and the first watchband 20 and the second watchband 30 are connected to fix the watch body 10 on the wrist of the user, so as to implement wearing.

In the present embodiment, the watch body 10 may have a regular shape such as a cylindrical shape or a rectangular parallelepiped shape, but the watch body 10 may have another irregular shape. The watch body 10 may be made of various materials, for example, the watch body 10 may be mainly made of metal materials such as copper, iron, and aluminum, and the watch body 10 may be made of non-metal materials such as plastic and rubber.

Referring to fig. 7, a power supply device 104, a control chip 103, a power supply 106 and a display device 105 are disposed in the watch body 10, wherein the power supply 106 is electrically connected to the control chip 103 through the power supply device 104 to supply power to the control chip 103 through the power supply device 104; the control chip 103 is electrically connected to the display device 105 to control the display device 105 to display.

For example, the power source 106 may be a battery disposed in the watch body 10, and further, the battery may be a storage battery, so as to charge the battery after the electric energy in the battery is used up, thereby realizing multiple uses of the battery; the display device 105 may be a liquid crystal display or an organic light emitting diode display, and further, the display device 105 may have a touch function to control the smart wearable device for wearing on the wrist to operate by touching the display device 105. The power supply 104 may be a battery manager provided in the watch body 10.

In some embodiments, the watch band may be mainly made of metal materials such as copper, iron, aluminum, etc., or the watch band may be made of non-metal materials such as rubber, plastic, etc.; illustratively, when the band is mainly made of metal, the band may include a plurality of links arranged in sequence, two adjacent links are hinged with each other, and the watch body 10 is connected with the band so as to wrap the band around the wrist of a user when worn; when the watchband is made of nonmetal materials such as rubber and plastic, the watchband has certain flexibility, and can be wound on the wrist of a user by elastically deforming the watchband; in this embodiment, the watch band may be formed by knitting cotton thread, nylon thread, or the like.

With continued reference to fig. 1, an air bag 50 is provided on the inner side of the band, and the air bag 50 extends from the first band 20 toward the watch body 10 and to the second band 30. The air bag 50 and the first band 20 and the second band 30 can be connected by adhesive, and certainly, the air bag 50 and the first band 20 and the second band 30 can also be connected by snapping, and the connection relationship between the air bag 50 and the first band 20 and the second band 30 is not limited in this embodiment. It should be noted that the inner side surfaces of the bands are the side surfaces of the first band 20 and the second band 30 facing the wrist of the user when the band is worn, so that when the air bag 50 is inflated, the air bag 50 is gradually inflated to press the wrist of the user, thereby detecting the blood pressure.

In this embodiment, the material of the airbag 50 may be various, for example, the airbag 50 may be mainly made of an elastic material such as rubber or elastic plastic, so that the airbag 50 expands after inflation, and the airbag 50 contracts when the gas in the airbag 50 is released.

Furthermore, a locking device is arranged at one end of the first watchband 20, which is away from the watch body 10, and the second watchband 30 is connected with the locking device when the watch is worn, so that the first watchband 20, the second watchband 30 and the watch body 10 are surrounded to form a wearing ring, and the wearing ring is sleeved on the wrist of the user to prevent the intelligent wearable device worn on the wrist from being separated from the wrist of the user.

With continued reference to fig. 2, in some embodiments, the locking arrangement includes a locking ring 608, and the second band 30 is wrapped around the locking ring 608. Simple structure and convenient processing and manufacturing. Specifically, the end of the second band 30 facing away from the watch body 10 is connected to the second band 30 after passing around the lock ring 608; one end of the second band 30, which is away from the watch body 10, bypasses the locking ring 608 and then can be connected with the second band 30 through a hook and loop fastener (hook and loop fastener), the hook and loop fastener comprises a first connecting piece 301 provided with soft fibers and a second connecting piece 302 provided with hook burrs, the first connecting piece 301 and the second connecting piece 302 are arranged on the outer side surface of the second band 30 at intervals, when in use, the second band 30 is arranged on the locking ring 608 in a surrounding manner, the locking ring 608 is positioned between the first connecting piece 301 and the second connecting piece 302, then the first connecting piece 301 and the second connecting piece 302 are attached to enable the burrs on the second connecting piece 302 to hook the soft fibers on the first connecting piece 301, and at the moment, the first band 20 and the second band 30 are arranged to form a wearing ring for surrounding the wrist of a user.

Of course, in other implementation manners, the locking device may further include a ring body and a locking post, the ring body is disposed at an end of the first band 20 away from the watch body 10, the locking post is located in the ring body and rotatably connected with the first band 20, a plurality of locking holes are formed on the second band 30 at intervals along the length direction of the second band 30, the second band 30 is inserted into the ring body, and the locking post is inserted into the locking hole, so that the connection between the second band 30 and the installation case 60 can be achieved; by having the locking posts pass through different locking holes, the size of the wearable ring can be adjusted.

Referring to fig. 3, in the embodiment, the wristband is provided with an air supply device 603, a detection device and a power supply line, wherein the air supply device 603 is communicated with the air bag 50, so that when the air supply device 603 works, air is injected into the air bag 50, the air bag 50 is further expanded, and the air bag 50 presses the wrist of the user. The air supply device 603 is electrically connected with the power supply device 104 through a power supply line, and the control chip 103 can control the power supply device 104 to supply power to the air supply device 603 so as to enable the air supply device 603 to work. The detection device is connected with the air bag 50 to detect the air pressure in the air bag 50, and is also in signal connection with the control chip 103, the detection device can send the detected air pressure signal in the air bag 50 to the control chip 103, and the control chip 103 analyzes the air pressure signal to obtain the blood pressure value of the user.

In some embodiments, the air supply device 603 may be an air pump, an air outlet of the air pump is communicated with the air bag 50, and an air inlet of the air pump is communicated with the outside air, so as to inject the outside air into the air bag 50 when the air pump is charged. The detection means may be a gas pressure sensor 605, and in order to detect the gas pressure inside the airbag 50, the gas pressure sensor 605 may be provided inside the airbag 50 to detect the gas pressure inside the airbag 50; certainly, a detection port can also be formed in the air bag 50, and the detection end of the air pressure sensor 605 is inserted into the detection port; the air pressure sensor 605 may be in signal connection with the control chip 103 through a signal line provided on the wristband. Of course, in the present embodiment, the detection device may be another pressure sensor as long as it can detect the air pressure in the airbag 50.

For example, the power supply line may include a first power supply line 201 and a second power supply line 202, one end of the first power supply line 201 and the second power supply line 202 is electrically connected to the gas supply device 603, and the other end of the first power supply line 201 and the second power supply line 202 is electrically connected to the power supply device 104; the first power supply line 201 and the second power supply line 202 can be arranged inside the first watchband 20, so that the first power supply line 201 and the second power supply line 202 can be protected, and further the first power supply line 201 and the second power supply line 202 are prevented from being damaged due to scratch with external objects in the wearing process; when the first band 20 is composed of plastic or rubber, the first power-supply line 201 and the second power-supply line 202 may be formed inside the first band 20 while the first band 20 is formed by the process of injection molding; when the first band 20 is woven of cotton or nylon thread, the first feeder 201 and the second feeder 202 may be directly inserted into the first band 20; when the first band 20 is composed of a plurality of metal links arranged in sequence, a first channel and a second channel may be arranged at intervals on each metal link, the first power supply line 201 is inserted into the first channel on each link, the second power supply line 202 is inserted into the second channel on each link, and the first power supply line 201 and the second power supply line 202 may also be arranged in the first band 20; of course, in this example, the first and second power supply lines 201 and 202 may also be attached to the outer surface of the first band 20.

With reference to fig. 3, the exterior of the first wristband 20 is provided with a mounting slot 204, the mounting case 60 is accommodated in the mounting slot 204, and the air supply device 603 is disposed in the mounting case 60, so that the air supply device 603 can be protected; specifically, the gas supply device 603 may be connected to the mounting housing 60 by means of a snap fit or a bolt connection. In order to facilitate the communication between the air supply device 603 and the airbag 50, a through hole 205 may be formed at the bottom of the mounting groove 204, an air supply hole 501 opposite to the through hole 205 may be formed in the airbag 50, a hole opposite to the through hole 205 may be formed in the mounting case 60, and the air supply device 603 may be communicated with the airbag 50 through the hole, the through hole 205, and the air supply hole 501 in sequence. Of course, the air supply device 603 may also be communicated with the airbag 50 through an air supply tube, specifically, one end of the air supply tube is communicated with the air supply device 603, the other end of the air supply tube is communicated with the air supply hole 501, and the air supply tube is inserted into the hole and the through hole 205; further, an electromagnetic valve may be disposed on the air supply pipe, and the electromagnetic valve is electrically connected with the control chip 103; so as to control the on-off of the air supply pipe through the control chip 103.

In other implementations, mounting case 60 may also be disposed on an interior side of first band 20.

The mounting housing 60 may include a first housing 601 and a second housing 602, a first end of the first housing 601 is provided with a first groove, a second end of the second housing 602 is provided with a second groove, and the first end of the first housing 601 and the second end of the second housing 602 are connected to form a receiving cavity for receiving the air supply device 603. The first housing 601 and the second housing 602 may be connected by bolts or by clamping, and of course, the first housing 601 and the second housing 602 may also be connected by adhesive. The material of the mounting housing 60 in this embodiment may be various, for example: the mounting case 60 may be a metal case mainly made of a metal material such as copper, iron, or aluminum, and the mounting case 60 may be a non-metal case mainly made of a non-metal material such as plastic or rubber.

Referring to fig. 3 and 8, a circuit board 604 is disposed in the mounting housing 60, a detection chip 606 is disposed on the circuit board 604, the gas supply device 603 is connected to the circuit board 604, and the gas supply device 603 is electrically connected to the detection chip 606 through a circuit on the circuit board 604; the first power supply line 201 and the second power supply line 202 are both electrically connected to the circuit board 604, and the detection chip 606 is electrically connected to the first power supply line 201 and the second power supply line 202 through a circuit on the circuit board 604 to supply power to the detection chip 606; the detection chip 606 is in signal connection with the control chip 103 and the detection device, the detection device transmits the detected air pressure signal to the detection chip 606, the detection chip 606 analyzes the air pressure signal to further obtain a blood pressure value, the detection chip 606 transmits the blood pressure value to the control chip 103, and the control chip 103 controls the display device 105 to display the blood pressure value.

Further, a first wireless communication chip 107 is arranged in the watch body 10, and the first wireless communication chip 107 is electrically connected with the control chip 103; the circuit board 604 is provided with a second wireless communication chip 607, the second wireless communication chip 607 is electrically connected to the detection chip 606, and the first wireless communication chip 107 and the second wireless communication chip 607 transmit signals in a wireless communication manner. The second wireless communication chip 607 can transmit the blood pressure value to the first wireless communication chip 107 by wireless communication, and then the blood pressure value is received by the control chip 103.

In some embodiments, the first wireless communication chip 107 and the second wireless communication chip 607 may both be bluetooth chips. The first wireless communication chip 107 and the second wireless communication chip 607 transmit signals by means of bluetooth. The first wireless communication chip 107 and the second wireless communication chip 607 can also be wirelessly connected in a WLAN (wireless local area network) manner, and correspondingly, both the first wireless communication chip 107 and the second wireless communication chip 607 can realize WLAN communication; or, the first wireless communication chip 107 and the second wireless communication chip 607 are wirelessly connected by means of NFC (near field communication), and accordingly, both the first wireless communication chip 107 and the second wireless communication chip 607 are near field communication chips capable of implementing near field communication, but in this example, the first wireless communication chip 107 and the second wireless communication chip 607 may also be other chips capable of implementing wireless communication.

Illustratively, the second wireless communication chip 607, the detection chip 606 and the gas supply device 603 are all disposed in the mounting case 60 to protect the second wireless communication chip 607, the detection chip 606 and the gas supply device 603.

The detection process of the intelligent wearable device worn on the wrist provided by the embodiment is that the first watchband 20 and the second watchband 30 are wound on the wrist of the user, and the second watchband 30 is connected with the locking device to realize wearing; the control chip 103 controls the power supply device 104 to supply power to the detection chip 606 through the first power supply line 201 and the second power supply line 202, the detection chip 606 controls the air supply device 603 to supply air into the air bag 50, the air bag 50 is inflated to press the wrist of the user, meanwhile, the air pressure sensor 605 detects the air pressure in the air bag 50 and transmits a detected air pressure signal to the detection chip 606, the detection chip 606 analyzes the air pressure signal to obtain the blood pressure value of the user, then the detection chip 606 controls the second wireless communication chip 607 to send the blood pressure value in the form of a wireless signal, the first wireless communication chip 107 receives the wireless signal and sends the blood pressure value to the control chip 103, and the control chip 103 controls the display device 105 to display the blood pressure value of the user.

In some embodiments, a button may be provided on the watch body 10, and the button is electrically connected to the control chip 103, so that when the user performs blood pressure detection, the control chip 103 controls the power supply device 104 to supply power to the detection chip 606 and the air supply device 603 by touching the button; of course, when the display device 105 has a touch function, the keys may be virtual keys displayed within the display device 105.

In the intelligent wearable device worn on the wrist provided by this embodiment, the control chip 103 and the power supply device 104 are disposed in the watch body 10, the power supply device 104 is electrically connected to the control chip 103, and the watch band is connected to the watch body 10 to fix the watch body 10 on the wrist of the user; the air bag 50 covers the inner side face of the watchband, the air supply device 603 and the detection device are both arranged on the watchband, the air supply device 603 is communicated with the air bag 50, the air supply device 603 is electrically connected with the power supply device 104 through a power supply line arranged on the watchband, and the detection device is used for detecting air pressure in the air bag 50; compare with the air pump setting in the internal portion of table, avoided air feeder 603 to occupy the inner space of table body 10, can reduce the volume of table body 10, convenience of customers wears.

With continued reference to fig. 3, in the present embodiment, the locking device may be disposed on the mounting housing 60, for example, when the locking device includes the locking ring 608, the locking ring 608 and the first housing 601 may be integrally formed by casting or injection molding, and of course, the locking ring 608 and the first housing 601 may also be connected by bolting or snapping, etc.; when the locking device comprises a ring body and a locking column, the ring body is connected with the first shell 601, and the locking column is arranged in the ring body and is rotatably connected with the first shell 601; the locking device is connected to the strap by means of the mounting case 60, simplifying the construction.

Referring to fig. 4, in the embodiment, a first connection lug 101 and a second connection lug 102 are disposed at an interval on the watch body 10, one end of the first watch band 20 is connected to the first connection lug 101 and the second connection lug 102, a first conductive block electrically connected to the power supply device 104 is disposed on the first connection lug 101, a second conductive block electrically connected to the power supply device 104 is disposed on the second connection lug 102, one end of the first power supply line 201 and one end of the second power supply line 202 are both electrically connected to the circuit board 604, the other end of the first power supply line 201 is electrically connected to the first conductive block, and the other end of the second power supply line 202 is electrically connected to the second conductive block. The first conductive block and the second conductive block are used for realizing the electric connection between the power supply line and the power supply device 104, the structure is simple, and the processing and the manufacturing are convenient.

The first connecting lug 101 and the second connecting lug 102 can be integrally formed with the watch body 10 by casting or injection molding, of course, the first connecting lug 101 and the second connecting lug 102 can also be connected with the watch body 10 by clamping or bolt connection, one end of the first band 20 is arranged between the first connecting lug 101 and the second connecting lug 102, and the first band 20 is connected with the first connecting lug 101 and the second connecting lug 102.

In some embodiments, the first conductive block may be a metal sheet attached to the first connecting lug 101, and the second conductive block may be a metal sheet attached to the second connecting lug 102; or the first conductive block is a first binding post fixed on the first connecting lug 101, and the second conductive block is a second binding post fixed on the second connecting lug 102. It is noted that the first conductive piece and the second conductive piece may be electrically connected to the power supply device 104 through a circuit in the watch body 10.

With reference to fig. 4, in this embodiment, the smart wearable device for wearing on the wrist further includes a connection lug 40, the connection lug 40 includes a first conductive column 401 and a second conductive column 402 that are connected in an insulating manner, center lines of the first conductive column 401 and the second conductive column 402 are arranged in a collinear manner, the first conductive column 401 and the second conductive column 402 are inserted into the mounting hole 203 on the first wristband 20, the first conductive column 401 has a first clamping portion 404 that extends out from one end of the mounting hole 203, and the second conductive column 402 has a second clamping portion 405 that extends out from the other end of the mounting hole 203; the first feeder line 201 is electrically connected to the first conductive pillar 401, and the second feeder line 202 is electrically connected to the second conductive pillar 402; the first clamping portion 404 is clamped in a first clamping groove on the first connecting lug 101, and the second clamping portion 405 is clamped in a second clamping groove on the second connecting lug 102; the first conductive block is arranged in the first clamping groove and is in contact with the first clamping portion 404; the second conductive block is disposed in the second clamping groove, and the second conductive block contacts with the second clamping portion 405. So set up, can avoid when rotating first watchband 20, first power supply line 201 and second power supply line 202 and the conducting block separation that corresponds, and then improve the life who is used for wearing the intelligent wearing equipment at the wrist.

In some embodiments, the first clip portion 404 and the second clip portion 405 may be in a column shape, or the first clip portion 404 and the second clip portion 405 may be in a truncated cone shape or a truncated pyramid shape; the first conductive pillar 401 may include a first connection pillar, the first clamping portion 404 may be integrally formed with the first connection pillar, and similarly, the second conductive pillar 402 may include a second connection pillar, and the second clamping portion 405 may be integrally formed with the second connection pillar. Exemplarily, a first sliding groove is formed in one end, facing the first connecting lug 101, of the first connecting column, a first abutting spring is arranged in the first sliding groove, a part of the first clamping portion 404 is arranged in the first sliding groove, the first abutting spring is arranged between the first clamping portion 404 and the bottom of the first sliding groove, and the first abutting spring is used for abutting against the first clamping portion 404 outwards from the first sliding groove; similarly, a second chute is arranged at one end of the second connecting column facing the second connecting lug 102, a second abutting spring is arranged in the second chute, part of the second clamping portion 405 is arranged in the second chute, the second abutting spring is arranged between the second clamping portion 405 and the bottom of the second chute, and the second abutting spring is used for abutting against the second clamping portion 405 to the outside of the second chute; during installation, wear to establish in mounting hole 203 first lead electrical pillar 401 and second lead electrical pillar 402 with first joint portion 404 card, later establish first joint inslot with first joint portion 404 card, second joint portion 405 card is established in second joint inslot, and first the spring of propping up at this moment supports first joint portion 404 to first joint inslot, and the second is supported the spring and is supported second joint portion 405 to second joint inslot to prevent that first joint portion 404 breaks away from with first joint groove and second joint portion 405 breaks away from with the second joint groove.

Continuing to refer to fig. 4, for example, the first conductive pillar 401 and the second conductive pillar 402 may be made of a metal material such as copper, iron, or aluminum; accordingly, an annular groove may be provided on the first conductive pillar 401, the first power supply line 201 is wound in the annular groove so as to prevent the first power supply line 201 from protruding from the side wall of the first conductive pillar 401, and at the same time, the first conductive pillar 401 may rotate in the metal ring enclosed by the first power supply line 201 so as to prevent the first power supply line 201 from preventing the first conductive pillar 401 from rotating in the mounting hole 203; similarly, an annular groove may be provided on the second conductive post 402, in which the second power supply wire 202 is wound so as to prevent the second power supply wire 202 from protruding from the side wall of the second conductive post 402, and at the same time, the second conductive post 402 may rotate in the metal ring enclosed by the second power supply wire 202 so as to prevent the second power supply wire 202 from preventing the second conductive post 402 from rotating in the mounting hole 203. Of course, the first power supply line 201 may also be electrically connected to the first conductive column 401 by soldering, and similarly, the second power supply line 202 may also be electrically connected to the second conductive column 402 by soldering.

With reference to fig. 4 and fig. 5, in this embodiment, the connection lug 40 further includes an insulating pillar 403 disposed between the first conductive pillar 401 and the second conductive pillar 402, one end of the insulating pillar 403 is connected to one end of the first conductive pillar 401 away from the first clamping portion 404, and the other end of the insulating pillar 403 is connected to one end of the second conductive pillar 402 away from the second clamping portion 405. The insulating connection between the first conductive column 401 and the second conductive column 402 is realized through the insulating column 403, the structure is simple, and the processing and the manufacturing are convenient. The insulating column 403 may be made of an insulating material such as plastic or rubber.

Exemplarily, one end of the insulating column 403 is provided with a first column 406, the other end of the insulating column 403 is provided with a second column 407, one end of the first conductive column 401 departing from the first clamping portion 404 is provided with a first connection hole, one end of the second conductive column 402 departing from the second clamping portion 405 is provided with a second connection hole, the first column 406 is arranged in the first connection hole in a penetrating manner, and the second column 407 is arranged in the second connection hole in a penetrating manner. With this arrangement, mounting and dismounting between the first conductive pillar 401 and the second conductive pillar 402 are facilitated.

Further, can all set up the external screw thread on first cylinder 406 and second cylinder 407, correspondingly all set up the internal screw thread on the lateral wall of first connecting hole and second connecting hole, insert first cylinder 406 in the first connecting hole during the use, and the external screw thread on first cylinder 406 and the interior screw-thread fit on the first connecting hole lateral wall, can avoid wearing in-process first conductive post 401 and insulating post 403 separation, identically, insert second cylinder 407 in the second connecting hole, and the external screw thread on second cylinder 407 and the interior screw-thread fit on the second connecting hole lateral wall, in order to avoid wearing in-process second conductive post 402 and insulating post 403 separation. Of course, the insulating column 403 and the first conductive column 401 and the second conductive column 402 may also be connected by an adhesive.

The first connecting lug 101 and the second connecting lug 102 are arranged at one end of the watch body 10 at intervals, the third connecting lug and the fourth connecting lug are arranged at the other end of the watch body 10 at intervals, the power supply line and the mounting shell 60 are arranged on the first watchband 20, the first watchband 20 is connected with the first connecting lug 101 and the second connecting lug 102 through the connecting lug 40, and therefore when the first watchband 20 is connected with the watch body 10, the power supply line is electrically connected with the power supply device 104 and the circuit board 604. The second watchband 30 is connected with the third connecting lug and the fourth connecting lug through the raw lugs, so that the second watchband 30 is connected with the third connecting lug and the fourth connecting lug; wherein the raw ear for making the connection between second band 30 and the third and fourth engaging ears may be a raw ear of the prior art.

Referring to fig. 6, in some embodiments, the smart wearable device for wearing on the wrist further includes a third watchband 70 and a fourth watchband 80, the third watchband 70 and the fourth watchband 80 are only used for wearing, and devices for detecting blood pressure, such as a power supply line, an airbag 50, a detection device, and an air supply device 603, are not disposed on the third watchband 70 and the fourth watchband 80; after the blood pressure is measured, the first band 20 and the second band 30 are separated from the watch body 10; the third band 70 is then connected to the first and second connecting ears 101 and 102 by one living ear, and correspondingly, the fourth band 80 is connected to the third and fourth connecting ears by another living ear; since the third band 70 and the fourth band 80 are not provided with a device for detecting blood pressure, they are only used for fixing the watch body 10 to the wrist of the user; therefore, the third watchband 70 and the fourth watchband 80 can be more beautiful and portable, so that the comfort and the decorative effect of wearing the intelligent wearing device on the wrist can be improved, and the intelligent wearing device can be worn for a long time.

Illustratively, when the user needs to detect the blood pressure value, the third watch strap 70 is detached from the first connecting ear 101 and the second connecting ear 102, and the fourth watch strap 80 is detached from the third connecting ear and the fourth connecting ear; the first band 20 is then attached to the first and second attachment lugs 101 and 102 by the attachment lugs 40, and the second band 30 is then attached to the third and fourth attachment lugs by the attachment lugs to detect the blood pressure value.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (16)

1. An intelligent wearable device for wearing at a wrist, comprising:

the watch comprises a watch body, a power supply device and a control chip, wherein the power supply device and the control chip are arranged in the watch body;

the watchband is connected with the watch body so as to fix the watch body;

an air bag covering an inner side surface of the band;

the gas supply device is communicated with the air bag and is used for injecting gas into the air bag;

the detection device is connected with the air bag, is in signal connection with the control chip and is used for detecting the air pressure in the air bag;

the gas supply device and the detection device are arranged on the watchband, and the gas supply device is electrically connected with the power supply device through a power supply circuit on the watchband.

2. The smart wearable device for wearing on the wrist according to claim 1, wherein the power supply line includes a first power supply line and a second power supply line provided on the band, and one end of each of the first power supply line and the second power supply line is electrically connected to the gas supply device;

the watch body is provided with a first connecting lug and a second connecting lug at intervals, one end of the watchband is connected with the first connecting lug and the second connecting lug, the first connecting lug is provided with a first conductive block electrically connected with the power supply device, and the second connecting lug is provided with a second conductive block electrically connected with the power supply device; the other end of the first power supply line is electrically connected to the first conductive block, and the other end of the second power supply line is electrically connected to the second conductive block.

3. The intelligent wearable device for wearing on the wrist of claim 2, further comprising a connection lug, wherein the connection lug comprises a first conductive column and a second conductive column which are connected in an insulation manner, center lines of the first conductive column and the second conductive column are arranged in a collinear manner, the first conductive column and the second conductive column are arranged in a mounting hole in the watchband in a penetrating manner, the first conductive column is provided with a first clamping portion extending from one end of the mounting hole, and the second conductive column is provided with a second clamping portion extending from the other end of the mounting hole; the first power supply line is electrically connected to the first conductive pillar, and the second power supply line is electrically connected to the second conductive pillar;

the first clamping portion is clamped in a first clamping groove on the first connecting lug, and the second clamping portion is clamped in a second clamping groove on the second connecting lug; the first conductive block is arranged in the first clamping groove and is in contact with the first clamping part; the second conductive block is arranged in the second clamping groove and is in contact with the second clamping portion.

4. The intelligent wearable device for wearing on the wrist of claim 3, wherein the connection lug further comprises an insulating column disposed between the first conductive column and the second conductive column, one end of the insulating column is connected with one end of the first conductive column facing away from the first clamping portion, and the other end of the insulating column is connected with one end of the second conductive column facing away from the second clamping portion.

5. The intelligent wearable device for wearing on the wrist according to claim 4, wherein a first column body is arranged at one end of the insulating column, a second column body is arranged at the other end of the insulating column, a first connection hole is arranged at one end of the first conductive column, which is away from the first clamping portion, a second connection hole is arranged at one end of the second conductive column, which is away from the second clamping portion, the first column body is arranged in the first connection hole in a penetrating manner, and the second column body is arranged in the second connection hole in a penetrating manner.

6. An intelligent wearing apparatus for wearing on the wrist according to claim 2, wherein the first power supply line and the second power supply line are provided inside the band.

7. The intelligent wearable device for wearing on the wrist of any one of claims 1 to 6, further comprising a detection chip disposed on the watchband, wherein the detection chip is electrically connected with the gas supply device and the detection device, and the power supply line is electrically connected with the detection chip to supply power to the detection chip.

8. The intelligent wearable device for wearing on the wrist according to claim 7, wherein a first wireless communication chip is arranged in the watch body, and the first wireless communication chip is electrically connected with the control chip; a second wireless communication chip is arranged on the surface belt and electrically connected with the detection chip; and signals are transmitted between the first wireless communication chip and the second wireless communication chip in a wireless communication mode.

9. The intelligent wearable device for wearing on the wrist of claim 8, wherein the first wireless communication chip and the second wireless communication chip are both bluetooth chips.

10. The intelligent wearable device for wearing on the wrist of claim 8, further comprising an installation housing disposed on the watchband, wherein the gas supply device, the detection chip and the second wireless communication chip are disposed in the housing.

11. The intelligent wearable device for wearing on the wrist according to claim 10, wherein the mounting case is disposed on an outer side surface of the band, the air bag is provided with an air supply hole, the band is provided with a through hole facing the air supply hole, and the air supply device is communicated with the air supply hole through the through hole.

12. The intelligent wearable device for wearing on the wrist according to claim 11, wherein an installation groove is provided on an outer side surface of the band, and the installation housing is disposed in the installation groove.

13. The smart wearable device for wearing on the wrist of claim 10, wherein the band comprises a first band and a second band, the first band is connected to one end of the watch body, the second band is connected to the other end of the watch body, the mounting case is disposed on the first band, a locking device is disposed on the mounting case, and the second band is further connected to the locking device, so that the first band and the second band enclose a wearable ring.

14. The smart wearable device for wearing on the wrist of claim 13, wherein the locking means comprises a locking ring disposed on the mounting housing, the second band being wrapped around the locking ring.

15. A smart wearable device for wearing on the wrist according to any of claims 1-6, characterized in that the gas supply means comprises a gas pump.

16. A smart wearable device for wearing on the wrist according to any of claims 1-6, characterized in that the detection means comprises an air pressure sensor, which is arranged inside the air bag.

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