CN211066570U - Multi-parameter instant-check wristwatch - Google Patents

Abstract

A multi-parameter point of care wristwatch, said multi-parameter point of care wristwatch comprising: the wristwatch main body comprises a real-time testing component, and the real-time testing component comprises a heart rate, blood oxygen and body temperature detecting component; a band for wearing the wristwatch body on a wrist of a wearer; and a fingerstall for wearing the wristwatch body on a finger of a wearer; the watch band and the finger sleeve are both provided with a wristwatch accommodating part, and the shape of the wristwatch accommodating part corresponds to that of the wristwatch main body, so that the wristwatch main body can be detachably arranged on the watch band or the finger sleeve. The utility model discloses an add the dactylotheca for the result of wearing the person when using multi-parameter point-of-care watch to measure parameters such as rhythm of the heart blood oxygen is more accurate, and the measurement process is more comfortable.

Description

Multi-parameter instant-check wristwatch

Technical Field

The utility model relates to a wearable equipment of intelligence especially relates to multi-parameter instantaneous examination watch with wireless transmission function, belongs to wrist-watch manufacturing technical field.

Background

Since Google release Google glasses (Google Glass) in 2012, smart wearable devices began to walk into people's lives. In recent years, smart wearable devices are developing into electronic products that are the most concerned behind smartphones and tablet computers. Currently, among a wide variety of intelligent wearable devices, intelligent wristwatch type products are particularly popular with consumers because of having rich application functions.

Compared with other portable devices such as smart phones and notebook computers, one of the lights of smart wristwatch products represented by Apple Watch has a function of monitoring exercise and health status. The intelligent wrist watch generates and collects electric signals reflecting information of human body such as pulse pressure, heart rate and temperature through the sensor module, processes the collected electric signals, displays the electric signals on a screen through a visual program, and sends the electric signals to terminals such as a smart phone through electromagnetic waves, so that a wearer can know own motion state, sleep quality and the like in real time. In recent years, health and medical care have become a major branch of wearable technology applications.

However, with the continuous upgrade of the requirements of people for health and medical functions of wearable devices, the simple heart rate and body temperature monitoring functions provided by the smart wristwatches/bracelets in the market at present cannot meet the requirements of consumers, especially consumers suffering from chronic diseases.

Currently, there are two main types of blood oxygen measuring devices on the market. One type is a conventional finger clip oximeter. Such devices typically include a host and a data acquisition clip. The user clamps the data acquisition clip on the finger tip to acquire physiological data, and the blood oxygen concentration level is known through the reading on the host computer. Such devices are generally less portable, often do not move about freely once worn by a user, and are less comfortable to wear for extended periods of time. In addition, there is a wristwatch type device that can detect blood oxygen. After a consumer wears the wristwatch, the photoelectric sensor at the bottom of the wristwatch (at the side attached to the wrist) emits measuring light rays with different wavelengths and receives reflected light rays reflected by the wrist, and then the blood oxygen content of the consumer is obtained through processing. However, the product measures blood reflection signals at the wrist, so that the signal strength is weak, and the product is easily interfered, so that the measurement accuracy is low and the error is large.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that not enough to prior art provides a multi-parameter point-of-care watch, through addding the dactylotheca for the result of wearing the person when using multi-parameter point-of-care watch to measure parameters such as rhythm of the heart blood oxygen is more accurate, and the measurement process is more comfortable.

The utility model discloses the technical problem that solve is realized through following technical scheme:

a multi-parameter point of care wristwatch, said multi-parameter point of care wristwatch comprising: the wristwatch main body comprises a real-time testing component, and the real-time testing component comprises a heart rate, blood oxygen and body temperature detecting component; a band for wearing the wristwatch body on a wrist of a wearer; and a fingerstall for wearing the wristwatch body on a finger of a wearer; the watch band and the finger sleeve are both provided with a wristwatch accommodating part, and the shape of the wristwatch accommodating part corresponds to that of the wristwatch main body, so that the wristwatch main body can be detachably arranged on the watch band or the finger sleeve.

In order to enable a wearer to more accurately measure blood oxygen, the finger sleeve comprises a finger wearing part, and a detection hole or a detection opening is formed at the joint of the wrist watch accommodating part and the finger wearing part of the finger sleeve, so that the measurement light of the instant examination component irradiates to the finger wearing part through the detection hole or the detection opening.

In order to enhance the usability and comfort of the finger cot, the finger-worn portion is generally cylindrical, and the wall thickness of the left and right sides of the finger cot is less than the wall thickness of the upper and lower sides of the finger cot.

The fingerstall is made of elastic silica gel or thermoplastic polyurethane elastomer rubber.

Preferably, said wristwatch body comprises: the bottom surface of the lower shell of the shell component is provided with a sensor window; the operation assembly is used for sending an operation instruction to the multi-parameter instant check wristwatch; the detection control assembly controls the immediate inspection assembly according to the operation instruction from the operation assembly and processes the electric signal from the immediate inspection assembly to obtain detection data; the power supply assembly is used for supplying power to the multi-parameter instant testing wristwatch; the display component is used for displaying the detection data and the system information; wherein, when the wristwatch body is combined with the finger sleeve, the detection hole or the detection opening of the finger sleeve corresponds to the position of the sensor window.

The immediate-inspection assembly further comprises a test paper socket part which is used for receiving the test paper for measurement and generating corresponding electric signals according to the type of the inserted test paper and the sample information carried in the test paper, and the test paper socket part comprises at least one slot which is exposed outside the multi-parameter immediate-inspection wristwatch through an opening arranged in the shell assembly.

The test paper comprises blood sugar test paper, blood uric acid test paper, blood creatinine test paper and blood fat test paper.

The instant examination component also comprises a blood pressure detection part, and the blood pressure detection part comprises a cuff interface, a blood pressure sensor, an air passage conduit and an air leakage valve; the air path guide pipe is of a three-way structure, and the cuff interface, the blood pressure sensor and the air leakage valve are respectively connected to the port of the air path guide pipe and are in fluid communication through the air path guide pipe.

The detection control assembly further comprises one or more of a motion and sleep monitoring control module, a step counting module and a clock module.

To sum up, the utility model discloses an add the dactylotheca for the result of wearing the person when using the multi-parameter point-of-care watch to measure parameters such as rhythm of the heart blood oxygen is more accurate, and the measurement process is more comfortable.

The technical solution of the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic view of the watch main body and the watch band of the present invention when combined;

FIG. 2 is a schematic view of the watch body and the finger sleeve of the present invention;

FIG. 3 is a schematic view of the wristwatch body of the present invention;

FIG. 4 is an exploded view of the wristwatch body of the present invention;

fig. 5 is a schematic view of the finger cot of the present invention.

Detailed Description

Fig. 1 is the utility model discloses schematic diagram when watch main part and watch band are combined, fig. 2 is the utility model discloses the fashionable schematic diagram of watch main part and finger cover, wherein fig. 1A, fig. 1B and fig. 1C are the utility model discloses the not equidirectional structural schematic diagram when watch main part and watchband are combined, fig. 2A, fig. 2B and fig. 2C are the utility model discloses the not equidirectional structural schematic diagram when watch main part and finger cover are combined. As shown in fig. 1 and 2, the present invention provides a multi-parameter point of care wristwatch, which comprises a wristwatch body 100, a watch band 200, and a finger cuff 300. The watch band 200 and the finger stall 300 are respectively provided with a wristwatch accommodating portion, and the shape of the wristwatch accommodating portion corresponds to that of the wristwatch main body 100, so that the wristwatch main body 100 can be detachably arranged on the watch band 200 or the finger stall 300. The utility model discloses do not restrict the material and the colour of watchband 200, the skilled in the art can select according to actual need.

Fig. 3 is the schematic diagram of the wristwatch main body of the present invention, fig. 4 is the structure explosion diagram of the wristwatch main body of the present invention, and fig. 3A, fig. 3B, fig. 3C and fig. 3D are the structure schematic diagram of the wristwatch main body of the present invention in different directions. The wristwatch body 100 includes a case assembly 110, an operating assembly 120, an instant checking assembly 130, a detection control assembly 140, a power supply assembly 150 and a display assembly 160. The operating assembly 120, the point-of-care assembly 130, the detection control assembly 140, the power assembly 150 and the display assembly 160 are disposed in the housing assembly 110. The operation component 120 is used for sending an operation instruction to the multi-parameter instant check wristwatch. The point-of-care component 130 is used to collect and point-of-care physiological information of the wearer of the multi-parameter point-of-care wristwatch and generate a corresponding electrical signal. The detection control component 140 controls the point-of-care testing component 130 according to the operation instruction from the operation component 120 and processes the electric signal from the point-of-care testing component 130 to obtain detection data. The power supply assembly is used for supplying power to all parts of the multi-parameter instant check wristwatch. The display component 160 is used for displaying the detection data and the system information.

Specifically, the housing assembly 110 includes an upper housing 111, a middle housing 112, and a lower housing 113, which are sequentially fastened. The upper casing 111, the middle casing 112 and the lower casing 113 enclose an accommodating space to enclose the operating assembly 120, the point-of-care testing assembly 130, the testing control assembly 140, the power assembly 150 and the display assembly 160, etc. in the case assembly 110. For example, the housing assembly 110 may only include an upper housing and a lower housing.

The upper case 111 has a window portion on which the display assembly 160 is disposed, so that the display assembly 160 can be disposed inside the case assembly 110 in a manner of facing the window portion, for the wearer to observe conveniently. The bottom surface of the lower shell 113 is provided with a sensor window, and the sensor window is transparent or hollow, so that the immediate check component 130 can conveniently acquire the physiological information of the wearer. Preferably, the bottom surface of the lower shell 113 may have a curved shape to more closely follow the natural physiological curve of the wrist of a human body, so that the wearing is more comfortable. In addition, the upper case 111 and/or the lower case 113 may have a snap structure of the band 200 to fix the band 200. The present invention is not limited to the specific structure and material of the upper casing 111, the middle casing 112 and the lower casing 113, and the housing assembly 110 may be designed to be circular, oval or square as required, and may be made of metal or plastic and other materials commonly used in the art.

The operation component 120 is electrically connected to the point-of-care testing component 130, the detection control component 140, the display component 160, and the like, and the wearer can issue various operation instructions to these components through the operation component 120. For example, the operating component 120 may include a manipulation key and/or a touch key disposed on the upper casing 111 and/or the lower casing 113, and the wearer can issue an operation instruction for implementing various functions, such as power on/off, option setting, detection, data viewing, and the like, to the multi-parameter instant check wristwatch through the manipulation of the manipulation key and/or the touch key. The utility model discloses do not restrict the position and the structure that set up of operating element 120, the skilled person in the art can select according to actual need, for example when display element 160 is the touch-sensitive screen, can omit all or partial entity and control button and/or touch button, realizes operating element 120 through the virtual touch button on the touch-sensitive screen.

The detection control component 140 is electrically connected with each component of the operation component 120, the prompt check component 130, the display component 160 and the like, controls the prompt check component 130, the display component 160 and the like of the multi-parameter prompt check wristwatch according to an operation instruction from the operation component 120, and performs various processing on an electric signal from the prompt check component 130 to obtain corresponding detection data, thereby realizing corresponding functions.

The test control component 140 may comprise a wireless data transmission module that is connected to the point-of-care testing component 130 via a connection. The wireless data transmission module may have a plurality of transmission modes. Firstly, for example, a mobile communication module and a SIM card of a corresponding operator are built in a circuit board, so that data interaction is performed with a remote server or a mobile terminal such as a computer, a tablet computer, a mobile phone and the like by using wireless remote public network communication such as 2.4G bluetooth, GPRS, 3G, 4G, NBIOT and the like. For example, the wireless data transmission module sends the inspection and monitoring results to a designated server or a mobile terminal such as a computer, a tablet computer, a mobile phone, etc., or automatically downloads data required by system updating from a remote server. And for example, the RF private network data communication protocol module is bound on the circuit main board, so that data exchange with other health medical equipment is realized by utilizing wireless short-distance private network communication, for example, a single measuring instrument such as a sphygmomanometer with a corresponding wireless transmission module is provided. And thirdly, data exchange with other equipment is realized through near field communication means such as NFC labels, so that the application of scenes such as bus card simulation, entrance guard card simulation and the like is realized. In addition, the detection control component 140 may also be provided with a wired data transmission module. For example, the detection control component 140 may have a USB interface 142, and through the USB interface 142, the multi-parameter real-time testing wristwatch of the present invention can be directly connected to a mobile terminal such as a mobile phone, a computer, or other medical devices for interaction or data transmission. The wired data transmission module is not limited to the USB interface, but any suitable data interface (microsub or typeC, etc.) known may be employed.

The point of care testing assembly 130 includes a heart rate oximetry temperature detection assembly 131 disposed within the housing assembly 110 and secured to the housing assembly 110. The heart rate blood oxygen body temperature detection component 131 may comprise, for example, a photoelectric sensor, a body temperature sensor, and a processing circuit. The photoelectric sensor can emit measuring light and measure the physiological parameters of the wearer in a photoelectric mode by using the measuring light. For example, the measuring light is irradiated to the skin of the human body through a sensor window at the bottom of the lower case 113 of the wristwatch body 100 and a heart rate shade 1311 attached at the sensor window. In addition, the photoelectric sensor can receive the measuring light reflected by the skin. The reflected light received by the photoelectric sensor can extract the heartbeat signal associated with the blood characteristics in the skin, and the heart rate value can be calculated through the processing circuit. Preferably, the photoelectric sensor can emit measuring light beams with different wavelengths, receive reflected light beams after reflection, and calculate hemoglobin content through the processing circuit according to the reflectivity of each wavelength light beam in the received reflected light beams, so as to calculate blood oxygen content. The body temperature sensor senses a body surface temperature signal through a sensor window at the bottom of the lower case of the wristwatch main body 100 and the body temperature sensor patch part, and then calculates the body surface temperature.

In the prior art, the wristwatch is generally located the wrist of the wearer, and at the moment, because the measurement signal at the wrist is very weak and is easily interfered, the measurement result is often inaccurate, although the wristwatch can detect the blood oxygen content of the wearer in real time, the existence of errors makes the clinical significance of the wristwatch not great.

Fig. 5 is a schematic view of the finger cot of the present invention. As shown in fig. 5, the present invention also provides a finger cot 300, wherein the finger cot 300 comprises a wristwatch receiving portion 301 and a finger wearing portion 302, the finger wearing portion 302 is designed to have a receiving space according to the shape of a finger, and the finger wearing portion 302 is designed to have ergonomic characteristics of a finger shape, so that the wearing person can wear the wrist watch comfortably, such as a substantially cylindrical shape, with an inner diameter of preferably 1cm-2cm, so as to facilitate the insertion of the finger of the wearing person. In order to prevent the finger stall 300 from falling off when being worn, the material of the finger stall 300 is a material with a stretching property, such as silica gel, TPU (thermoplastic polyurethane elastomer rubber), or other materials meeting the requirement. In order to strengthen dactylotheca 300's suitability, make it hold the finger of different thickness and increase the person's of wearing travelling comfort, the wall thickness of the left and right sides of dactylotheca 300 (use dactylotheca 300 to wear when the finger, the nail lid is the top, indicates the abdomen to be the below, the left and right sides of finger is the left and right sides of dactylotheca 300) is less than the wall thickness of the upper and lower both sides of dactylotheca 300 to compromise the people that different thickness pointed and wear, make the finger homoenergetic of different user difference thickness in the certain extent wear the convenience.

A detection hole or a detection opening is formed at the joint of the wrist watch accommodating part 301 and the finger wearing part 302 in the finger stall 300, and the detection hole or the detection opening can be transparent or hollow so as to facilitate the instant examination component 130 to collect the physiological information of the wearer. Specifically, the position of the detection hole or the detection opening corresponds to the positions of the heart rate, blood oxygen and body temperature detection assembly 131 and the sensor window on the wristwatch body 100, so that when the wristwatch body 100 and the finger stall 300 are combined together, the measurement light emitted by the heart rate, blood oxygen and body temperature detection assembly 131 can pass through the sensor window and the detection hole or the detection opening and then contact with the skin of the finger, and is reflected by the skin of the finger, and preferably, the detection hole or the detection opening is formed at a position of 1cm-2cm in the direction from the fingertip to the abdomen.

The user can use the finger cuff 300 or the band 200 in cooperation with the wristwatch body 100 as desired. In a state of using the finger cot 300, the user puts the wristwatch body 100 into the wristwatch receiving part 301 of the finger cot 300 and inserts a finger into the finger wearing part 302 such that the sensor window of the bottom of the lower case 113 of the wristwatch body 100 faces the abdomen of the finger. In other words, the wristwatch body 100 is located on the wearer's finger belly side. Consequently, compare with the instrument that presss from both sides on the current market at finger tip and host computer position hand dorsal part, according to the utility model discloses a device more accords with human engineering, wears more comfortablely, and the observation result is more convenient.

In addition, since the finger stall 300 can be firmly nested on the finger, the measurement result is accurate compared with the common wristwatch type detection device. Furthermore, the wearer can freely perform other activities while taking measurements without worrying about the device falling out.

The utility model discloses point-of-care testing subassembly 130 can also contain test paper socket portion 132 and blood pressure test portion (not shown in the figure), test paper socket portion 132 sets up in the inside of shell subassembly 110 to be provided with at least one slot, at least one slot exposes outside the real-time test wristwatch of multi-parameter through setting up in the opening of shell subassembly 110. test paper socket portion 132 is used for accepting the test paper for the measurement and produces corresponding signal of telecommunication according to the type of the test paper of inserting and the sample information that carries in the test paper, the test paper includes the test paper of measuring blood sugar, the test paper of measuring blood uric acid, measure blood creatinine test paper, measure the blood lipid test paper, when using, the person of wearing inserts various test paper in test paper socket portion 132 through the opening, the size of test paper socket portion 132 and the size and the arrangement mode of opening can be compatible with the insertion of above-mentioned various test paper, for example, the size of test paper socket portion 132 is 15mm × 6mm, the opening adopts the parallel opening mode.

The blood pressure detection part is disposed inside the housing assembly 110 and fixed to the housing assembly 110. The blood pressure detection part comprises a cuff interface, a blood pressure sensor, an air passage conduit, an air leakage valve and other structures. For example, the cuff interface is exposed outside the multi-parameter real-time examination wristwatch, an air duct socket of a universal blood pressure measurement cuff can be inserted into the cuff interface, the blood pressure measurement cuff is provided with an inflatable ball, the air passage conduit has a three-way structure, and the cuff interface, the blood pressure sensor and the air leakage valve are respectively connected at corresponding ports of the air passage conduit and are in fluid communication through the air passage conduit. The cuff and the blood pressure detection unit work in cooperation, and the blood pressure of the wearer can be accurately measured. When the blood pressure is measured, the air duct socket of the cuff is inserted into the cuff interface, and then the cuff is inflated through the inflation ball. The air in the cuff enters the air channel catheter through the cuff interface. The blood pressure sensor senses the air pressure change in the airway tube and detects the heartbeat signal therefrom. The inflation of the balloon continues until the air pressure in the cuff reaches a level sufficient to occlude the arm's blood vessels. At the moment, the air leakage valve begins to deflate at a constant speed. Due to deflation, the air pressure in the cuff gradually decreases and no longer blocks the arm blood vessels. The blood pressure sensor is again initially able to obtain a heartbeat signal by detecting a change in air pressure in the airway tube. The air leakage valve continuously deflates until the air pressure in the air channel conduit is restored to almost disappear. In the whole process, the blood pressure detection part obtains and stores the static air pressure and the heartbeat amplitude value during measurement through the air pressure change and the heartbeat signal detected by the blood pressure sensor, then processes the stored static air pressure and the heartbeat amplitude value through a proper algorithm known in the field, such as an oscillography, and the like, and then calculates the values of the average pressure, the systolic pressure and the diastolic pressure, the heart rate and the heart rate, and the like, so that the blood pressure measurement is finished.

In correspondence with the point-of-care component 130, the detection control component 140 includes a plurality of control modules that implement various detection and control functions in correspondence with the point-of-care component 130. The control modules are integrated on a PCB. Alternatively, the control modules may be disposed on different PCB boards and arranged at different positions within the housing assembly 110 according to design requirements.

The test control assembly 140 may comprise, for example, a test strip verification control module, consisting of, for example, a sensor, a PCB board, and a memory, etc., which is electrically connected to the test strip socket portion 132, the display assembly 160, and the operation assembly 120. The test paper inspection control module performs corresponding data analysis and data processing on the electrical signal from the test paper socket 132 according to the operation instruction from the operation component 120, obtains an instant inspection result related to physiological parameters such as blood sugar, blood uric acid, blood creatinine and blood fat in the sample collected in the test paper, and can store and transmit the inspection result data. For example, the results of the verification can be stored in memory and displayed on the display component 160. The detection control component 140 may also contain motion and sleep monitoring control modules. The control module is composed of, for example, a circuit integrated with various sensors for monitoring and processing the parameters of the wearer, such as the exercise distance, heart rate, body temperature, etc., which reflect the exercise state and sleep quality, and is electrically connected with the relevant components in the point-of-care testing assembly 130, the display assembly 160 and the operating assembly 120, so that the parameters reflecting the exercise state and sleep quality of the wearer are collected and monitored in real time according to the operating instructions from the operating assembly 120, the relevant data are processed and stored, and the parameters reflecting the exercise state and sleep quality of the wearer are displayed on the display assembly 160. The detection control assembly 140 may also include a cuff blood pressure measurement control module by which the blood pressure measurement process described above is controlled and related data is stored in memory and/or displayed on the display assembly 160. The detection control component 140 may further include a prompt component 141, where the prompt component 141 includes a vibration motor and/or a speaker, and implements various prompt actions (such as a sedentary reminder, a long-time no-movement reminder, etc.) under the control of the detection control component 140. The detection control component 140 may further include a clock module for implementing an alarm clock reminding function and a perpetual calendar, and a step-counting module for implementing accurate step counting.

It should be noted that the present invention does not limit the installation and fixation modes between the components, such as bonding, buckling, or thread fixation according to actual requirements.

When a wearer combines the wristwatch main body 100 and the watchband 200 in the multi-parameter instant check wristwatch, the wearer can wear the wristwatch on the wrist, and at the moment, the multi-parameter instant check wristwatch can realize the functions of blood pressure measurement, test paper detection, step movement counting and the like.

When the wearer combines the wristwatch main body 100 and the finger stall 300 in the multi-parameter immediate examination wristwatch, the wristwatch main body and the finger stall can be worn on a finger, at the moment, the multi-parameter immediate examination wristwatch can realize detection of heart rate, blood oxygen, body temperature and the like, and due to the fact that the wearing position of the wristwatch changes, compared with a common wristwatch on the market, the measurement result is more accurate, and the use experience of the wearer is optimized.

To sum up, the utility model discloses an add the dactylotheca for the result of wearing the person when using the multi-parameter point-of-care watch to measure parameters such as rhythm of the heart blood oxygen is more accurate, and the measurement process is more comfortable.

The preferred embodiments of the present invention have been described above with reference to the accompanying drawings, but of course, the present invention is not limited to the above examples. Those skilled in the art can obtain various changes and modifications within the scope of the appended claims of the present invention, and it should be understood that such changes and modifications will naturally be included in the technical scope of the present invention.

Claims (9)

1. A multi-parameter point of care wristwatch, said multi-parameter point of care wristwatch comprising:

the wristwatch main body comprises a real-time testing component, and the real-time testing component comprises a heart rate, blood oxygen and body temperature detecting component;

a band for wearing the wristwatch body on a wrist of a wearer; and

a fingerstall for wearing the wristwatch body on a wearer's finger;

the watch band and the finger sleeve are both provided with a wristwatch accommodating part, and the shape of the wristwatch accommodating part corresponds to that of the wristwatch main body, so that the wristwatch main body can be detachably arranged on the watch band or the finger sleeve.

2. The multi-parameter point of care wristwatch of claim 1 wherein said finger sleeve comprises a finger-worn portion, and a detection hole or a detection opening is opened at the junction of said wristwatch receiving portion and said finger-worn portion of said finger sleeve, such that the measurement light of said point of care assembly is irradiated to said finger-worn portion through said detection hole or detection opening.

3. The multi-parameter point of care wristwatch of claim 2 wherein said finger wear portion is generally cylindrical and said finger cuffs have a wall thickness on the left and right sides that is less than the wall thickness on the top and bottom sides of said finger cuffs.

4. The multiparameter instant examination wristwatch of any one of claims 1-3, wherein the finger cuffs are made of a silicone rubber or a thermoplastic polyurethane elastomer rubber having elastic properties.

5. The multi-parameter point-of-care wristwatch of claim 1, wherein the wristwatch body comprises:

the bottom surface of the lower shell of the shell component is provided with a sensor window;

the operation assembly is used for sending an operation instruction to the multi-parameter instant check wristwatch;

the detection control assembly controls the immediate inspection assembly according to the operation instruction from the operation assembly and processes the electric signal from the immediate inspection assembly to obtain detection data;

the power supply assembly is used for supplying power to the multi-parameter instant testing wristwatch;

the display component is used for displaying the detection data and the system information;

when the wristwatch body is combined with the finger sleeve, the detection hole or the detection opening of the finger sleeve corresponds to the position of the sensor window.

6. The multi-parameter point of care wristwatch of claim 5, wherein the point of care assembly further comprises a test strip receptacle for receiving a test strip for measurement and generating a corresponding electrical signal according to a type of the inserted test strip and sample information carried in the test strip, the test strip receptacle comprising at least one slot exposed to an exterior of the multi-parameter point of care wristwatch through an opening provided in the housing assembly.

7. The multi-parameter point-of-care wristwatch of claim 6, wherein said test strips include a blood glucose test strip, a blood uric acid test strip, a blood creatinine test strip, a blood lipid test strip.

8. The multi-parameter point-of-care wristwatch of claim 5, wherein the point-of-care assembly further comprises a blood pressure detection portion, the blood pressure detection portion comprising a cuff interface, a blood pressure sensor, a gas path conduit, and a gas leak valve; the air path guide pipe is of a three-way structure, and the cuff interface, the blood pressure sensor and the air leakage valve are respectively connected to the port of the air path guide pipe and are in fluid communication through the air path guide pipe.

9. The multi-parameter point of care wristwatch of claim 5, wherein said detection control component further comprises one or more of a motion and sleep monitoring control module, a step-counting module, a clock module.

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