CN211319728U

CN211319728U - Self-service vital sign collection system

Info

Publication number: CN211319728U
Application number: CN202020004255.6U
Authority: CN
Inventors: 叶君杰; 焦庆春; 陈新源; 包乾
Original assignee: Zhejiang Lover Health Science and Technology Development Co Ltd
Current assignee: Zhejiang Lover Health Science and Technology Development Co Ltd; Zhejiang University of Science and Technology ZUST
Priority date: 2020-01-02
Filing date: 2020-01-02
Publication date: 2020-08-21
Anticipated expiration: 2030-01-02

Abstract

The utility model discloses a self-service vital sign collection system. The utility model discloses the device is by braced frame, detection control, adjustable shelter from fencing and multiple vital sign sensor etc. and constitute, gathers video identification face vital sign and be core data, gathers vital sign such as heartbeat, height, weight and is auxiliary data, gathers geographical position and time information data simultaneously. The utility model discloses measure the position according to facial feature adjusting device to be equipped with visual voice interaction and assist testee data collection process, device structural design is exquisite, can be used for accomplishing each item life detection collection under the condition of unmanned help.

Description

Self-service vital sign collection system

Technical Field

The utility model relates to the technical field of medical equipment's vital data acquisition device especially relates to face identification, high definition are shot, are breathed, the self-service vital sign detection device of combination of strength, body temperature and blood oxygen pulse.

Background

Physical examination is a method in which doctors use their own senses, examination instruments, laboratory equipment, etc. to directly or indirectly examine the physical conditions of patients, and aims to collect objective data on the health of patients and to discover and prevent hidden troubles of diseases as soon as possible. Therefore, the timing detection of various vital signs is an important measure for measuring the physical health.

With the acceleration of the pace of life of people, some bad living habits make more and more people in sub-health state, most people can not realize the health condition of themselves, so the people can be said to be 'not sick and not enter a hospital'. On the other hand, the physical examination in the hospital requires a large time and material cost, so that many urban people with busy life rhythm are not willing to spend much energy in daily life. The appearance of the self-service vital sign detection system can save the time for seeing the patient, and various vital signs and complexion can be tested through the combination of the instrument and Chinese and western medicine, so that the nearest physical condition of the user can be roughly known, and diagnosis can be made.

At present, medical science mainly studies human physiology, pathology and diagnosis and prevention of diseases from traditional Chinese medicine and western medicine.

According to the traditional Chinese medicine, the etiology, the disease property and the disease position are explored, and the pathogenesis and the changes of internal organs, channels, collaterals, joints and qi and blood rhythm liquid in a human body are analyzed by a method of 'looking at, smelling and making sure' of four diagnostic methods. Especially inspection is a vital part. In 2015, the institute of traditional Chinese medicine in Henan filed an application for a traditional Chinese medicine diagnosis instrument (grant publication No. CN 104921704B) for remote inspection. The image acquired by the method is vivid and natural, is beneficial to the remote face examination of doctors, and is convenient and comfortable to use. However, the acquired photos are not relatively standard, so that the error range is large, doctors are still required to diagnose, and the consumed labor cost is not reduced.

Western medicine has made diagnoses of diseases with advanced medical equipment and laboratories. Doctors diagnose patients' diseases by performing comprehensive and systematic vital sign examination on patients with the help of simple tools such as stethoscopes, percussion hammers, sphygmomanometers, thermometers, and the like. In the prior art, some monitoring devices for vital sign detection have a small volume, and can upload the monitoring devices to a website database, so that a system gives a health prompt. However, these devices have a small detection range and do not combine the concept of diagnosis with traditional Chinese medicine.

If the diagnosis result is obtained by only one measurement, the accurate diagnosis result is difficult to obtain, although both Chinese and Western medicine have some methods for facial diagnosis, such as white and yellow eyes, red nose and white and thick tongue coating, the decision diagnosis values of the methods are not clear. The analysis of various physical sign changes from the perspective of health files is of practical significance, especially for chronic diseases, the changes usually last for years or even more than ten years, for example, the individual has obvious changes in facial color, blood oxygen content and the like in high altitude and low altitude areas, and for example, the individual has large changes in facial color in humid areas and dry high ultraviolet areas; therefore the record can form a complete trend process in the local continuation of different space-time observing, and the curvilinear variable to mastering healthy trend is analyzed, the utility model discloses the classification that forms is the difference change of unilateral trend, and its result can be to good also probably the variation in the time.

In summary, a vital sign detecting instrument with a simple structure, stronger self-help, more comprehensive detection and collection, wider application range and combination of traditional Chinese and western medicine is urgently needed in the field of the current medical instruments aiming at the current situation that the diagnosis mode and range of each medical instrument are limited.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the background technology, the utility model aims to provide a self-service vital sign collecting device for solving the problems, which has a simple structure and can be used in more occasions; and when in use, the device has stronger self-help through technologies such as voice interaction, face recognition and the like, and comprises a plurality of vital sign detection values.

In order to achieve the above object, the utility model discloses a collection system scheme as follows:

the acquisition device comprises a control display part, a support frame, an adjustable shielding enclosure and a plurality of life perception sensors; the control display component comprises a screen board which is vertically arranged and a top board which is connected to the top of the screen board, a height sensor is mounted on the top surface of the top board, a touchable screen is arranged in the middle of the front surface of the screen board, a microphone is arranged on the front surface of the screen board below the touchable screen, a parallel fixation point, a camera and an infrared thermometer are arranged on the front surface of the screen board above the touchable screen, and a grip strength detector and a nail type blood oxygen pulse instrument are arranged at the bottommost part of the front surface; the side surface of the screen board is provided with a vertical strip-shaped convex block as a screen board sliding strip; the supporting frame comprises a first supporting column, a second supporting column, a controllable sliding screw rod, a connecting rod, an inner sliding rail and an outer sliding rail; the first support column and the second support are respectively arranged at two sides of the screen board, a vertical strip-shaped groove is arranged on the side surface close to one side of the screen board and is used as an inner slide rail, and the screen board slide bar is embedded in the inner slide rail to form tenon-and-mortise sliding pair connection; the side surfaces of the first support column and the second support column, which are away from one side of the screen board, are also provided with vertical strip-shaped grooves as outer sliding rails, and the outer sliding rails are connected with the adjustable shielding enclosure; the front surfaces of the first support column and the second support column are provided with a plurality of diffuse reflection lamps and loudspeakers, the back surfaces of the first support column and the second support column are respectively and fixedly connected with two ends of the connecting rod, a GPS chip is arranged in the first support column, a barometer is arranged in the second support column, foldable weight sensors are arranged at the bottommost parts of the first support column and the second support column, a controllable sliding screw rod vertically penetrates through the foldable weight sensors and is arranged in a threaded hole formed in the middle part of the connecting rod through threads, a lifting motor is arranged on the connecting rod, and an output shaft of the lifting motor faces downwards and is coaxially connected with the controllable sliding screw rod; the adjustable shielding enclosure comprises two groups of shielding enclosure groups, the two groups of shielding enclosure groups are respectively arranged on two sides of a screen board of the control display component, each group of shielding enclosure groups comprises a plurality of foldable baffles, hinge shafts and enclosure sliding strips, adjacent foldable baffles are hinged into a whole through the hinge shafts, the surface of the foldable baffle farthest away from the support frame in each group of shielding enclosure groups is provided with a standard color card and a scale with calibration parameters, the inner side surface of the foldable baffle closest to the support frame is provided with a vertical strip-shaped convex block as an enclosure sliding strip, and the enclosure sliding strips of the two groups of shielding enclosure groups are respectively and fixedly embedded in outer sliding rails of the first support column and the second support column; the top end of the foldable baffle is provided with a folding motor, and an output shaft of the folding motor is connected to the hinge shaft to drive the hinge shaft to rotate and control.

The control display part is embedded in the inner slide rail of the support frame through the screen board slide bar; the adjustable shielding enclosure is externally embedded in an outer slide rail of the integral supporting frame of the device through the enclosure slide bar.

The grip strength detector is of a structure with two cylindrical rod pieces and is used for holding the two cylindrical rod pieces by hands to detect the grip strength.

The foldable baffle is a non-light-transmitting plate.

The utility model discloses a device is through illumination and the tone analysis to the semi-closed space that shelters from envelope and build that has collapsible, non-transparent, adjustable position characteristic, and analysis testee's height and test environment can be according to facial feature automatic regulating apparatus measuring position to supplementary testee's completion self-service testing process through visual voice interaction.

The utility model discloses device structural design is exquisite, and whole self-service detection flow is complete clear, can accurately accomplish each item under the condition of unmanned help and detect the collection, is applicable to occasions such as family, community, hospital's waiting.

The utility model has the advantages that:

1) the utility model discloses contained a plurality of vital signs and gathered, detected more comprehensively to testee's vital sign.

2) The utility model discloses a constructional device is simple, and is light and handy nimble. The foldable baffle part can be automatically opened and closed according to the existence of a testee, so that the space is saved; the device is simple in structure and light and handy in material, so that the device is light and flexible and can be used in a plurality of occasions such as families, hospitals, markets, schools and the like.

3) The utility model discloses self-service nature is strong: this device adopts the voice interaction function to handle through the tangible screen, need not other personnel, the device can be accomplished by oneself, and the convenience is stronger, and is simple and convenient by oneself.

Drawings

Fig. 1 is a schematic view of the overall assembly relationship of the present invention.

Fig. 2 is a schematic diagram of the contraction relationship of the present invention.

Fig. 3 is a schematic diagram of a portion of a control and display unit according to the present invention.

Fig. 4 is a partial schematic view of the overall support frame of the present invention.

Figure 5 is the utility model discloses a shelter from adjustable fender enclosure part schematic diagram.

Fig. 6 is a schematic diagram of the color chip parameters and scales inside the foldable baffle of the present invention.

In the figure: 1. the device comprises a control display part 1-1, a grip strength detector 1-2, a nail type oximeter 1-3, a microphone 1-4, a touchable screen 1-5, a parallel fixation point 1-6, a camera 1-7, an infrared thermometer 1-8 body height sensor 1-9, a screen board sliding strip 2, a device integral supporting frame 2-1 first supporting column 2-2, a second supporting column 2-3, a diffuse reflection lamp 2-4, a loudspeaker 2-5, a lifting motor 2-6, a sliding screw rod 2-7, a connecting rod 2-8, a power plug 2-9, an inner sliding rail 2-10 outer sliding rail 3, a shielding adjustable shielding 3, a foldable baffle 3-1, a foldable baffle 3-2, 3-3 parts of hinge shaft, 3-3 parts of folding motor, 3-4 parts of switch button, 3-5 parts of enclosure sliding strip.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the steps of using the embodiments.

As shown in fig. 1 and 2, the embodied acquisition device comprises a control display part 1, a support frame 2, an adjustable shelter enclosure 3 and various life perception sensors.

As shown in fig. 3, the control display component 1 comprises a screen board which is vertically arranged and a top board which is connected to the top of the screen board, wherein a height sensor 1-8 for measuring the height is installed on the top surface of the top board, a touchable screen 1-4 is arranged in the middle of the front surface of the screen board, a microphone 1-3 is arranged on the front surface of the screen board below the touchable screen 1-4, a parallel fixation point 1-5, a camera 1-6 and an infrared thermometer 1-7 are arranged on the front surface of the screen board above the touchable screen 1-4, and a grip strength detector 1-1 and a nail type blood oxygen pulse instrument 1-2 are arranged at the bottommost part of the front; the side of the screen board is provided with vertical strip-shaped convex blocks as screen board sliding strips 1-9.

As shown in fig. 4, the supporting frame 2 comprises a first supporting column 2-1, a second supporting column 2-2, a controllable sliding screw rod 2-6, a connecting rod 2-7, an inner sliding rail 2-9 and an outer sliding rail 2-10; the first support column 2-1 and the second support column 2-2 are respectively arranged at two sides of the screen board, a vertical strip-shaped groove is formed in the side surface of the first support column 2-1 and the second support column 2-2 close to one side of the screen board to serve as an inner slide rail 2-9, the screen board slide bar 1-9 is embedded in the inner slide rail 2-9 to form mortise and tenon joint sliding pair connection, and therefore the first support column 2-1 and the second support column 2-2 can move up and down along the mortise and tenon joint sliding pair; the side surfaces of the first support column 2-1 and the second support column 2-2, which are far away from one side of the screen board, are also provided with vertical strip-shaped grooves as outer slide rails 2-10, the outer slide rails 2-10 are connected with an adjustable shielding enclosure 3, and the inner slide rails 2-9 and the outer slide rails 2-10 are respectively positioned at the inner side and the outer side of the first support column 2-1 and the second support column 2-2; the front surfaces of the first support column 2-1 and the second support column 2-2 are provided with a plurality of diffuse reflection lamps 2-3 and loudspeakers 2-4, the back surfaces of the first support column 2-1 and the second support column 2-2 are respectively fixedly connected with the two ends of a connecting rod 2-7, the first support column 2-1 is internally provided with a GPS chip 2-11, the second support column 2-2 is internally provided with a barometer 2-12, the bottommost parts of the first support column 2-1 and the second support column 2-2 are provided with foldable weight sensors 2-13, a controllable sliding screw rod 2-6 is vertically penetrated and is arranged in a threaded hole arranged in the middle part of the connecting rod 2-7 through threads, the middle parts of the controllable sliding screw rod 2-6 and the connecting rod 2-7 are provided with a lifting motor 2-5, the output shaft of the lifting motor 2-5 faces downwards and is coaxially connected with the controllable sliding screw rod 2-6; the lifting motor 2-5 operates to drive the controllable sliding screw rod 2-6 to rotate so as to drive the connecting rod 2-7 and the first supporting column 2-1 and the second supporting column 2-2 fixedly connected with the connecting rod to move up and down under the guidance of the mortise and tenon sliding pair, and further drive the adjustable shielding enclosure 3 to move up and down.

The lifting motor 2-5 is connected to an external power supply through a power plug 2-8, and the external power supply supplies power to the lifting motor 2-5 through the power plug 2-8.

As shown in fig. 5, the adjustable shielding enclosure 3 comprises two shielding enclosure groups, the two shielding enclosure groups are respectively arranged on two sides of the screen panel of the control display component 1, each shielding enclosure group comprises a plurality of foldable baffles 3-1, hinge shafts 3-2 and enclosure sliding bars 3-5, and the foldable baffles 3-1 are non-light-transmitting plates. Adjacent foldable baffles 3-1 are hinged into a whole through a hinge shaft 3-2, as shown in figure 6, the surfaces of two foldable baffles 3-1 farthest from the support frame 2 in each group of shielding enclosure groups are provided with a standard color card and a scale with calibration parameters, the inner side surface of one foldable baffle 3-1 closest to the support frame 2 is provided with a vertical strip-shaped convex block as an enclosure sliding strip 3-5, and the enclosure sliding strips 3-5 of the two groups of shielding enclosure groups are respectively fixedly embedded in outer sliding rails 2-10 of a first support column 2-1 and a second support column 2-2, so that the whole formed by connecting a plurality of foldable baffles 3-1 in series can move up and down along a mortise and tenon joint sliding pair; the top end of the foldable baffle 3-1 is provided with a folding motor 3-3, and the output shaft of the folding motor 3-3 is connected to the hinge shaft 3-2 to drive the hinge shaft 3-2 to rotate and control.

In specific implementation, the outer side face of one foldable baffle 3-1 closest to the supporting frame 2 is provided with a switch button 3-4, and the switch button 3-4 is connected to each folding motor 3-3 through a controller and is used for controlling the unfolding and the closing of the adjustable shielding enclosure 3.

The control display part 1 is embedded in an inner sliding rail 2-9 of the supporting frame through a screen panel sliding bar 1-9; the adjustable shielding enclosure 3 is externally embedded in an outer slide rail 2-10 of the integral supporting frame of the device through an enclosure slide bar 3-5.

The grip strength detector 1-1 is a structure of two cylindrical rod members and is used for holding the two cylindrical rod members by hand to detect the grip strength.

The control display part 1 and the shielding adjustable shielding enclosure 3 can drive the sliding screw rod 2-6 and the transmission device of the control display part 1 to move up and down on the inner slide rail 2-9 and the outer slide rail 2-10 of the integral supporting frame of the device through the motor 2-5 on the connecting rod 2-7, the height of the control display part 1 can be automatically adjusted according to the height of a user and a testing part detected by the camera 1-6, so that the foldable baffle 3-1 can surround the head of the user, and the position of the camera 1-6 can reach the position required by each item of detection.

2 parallel fixation points 1-5 are arranged above the touchable screen 1-4, when facial information is detected, the positions of the cameras 1-6 are determined through the cameras 1-6 to be parallel to the human body, the user is prompted to observe the fixation points 1-5 through a voice interaction system, and fixed-point shooting is carried out.

The practical implementation of the multifunctional life-saving lamp comprises a controller MCU, wherein various life perception sensors, a touchable screen 1-4, a diffuse reflection lamp 2-3 and a loudspeaker 2-4 are all connected to the controller MCU, and a lifting motor 2-5 and a folding motor 3-3 are also all connected to the controller MCU. The multiple life perception sensors comprise a camera 1-6, a height sensor 1-8, an infrared thermometer 1-7, a grip strength detector 1-1 and a nail type blood oxygen pulse instrument 1-2.

When the system is in a non-starting state, as shown in fig. 2, the foldable baffles 3-1 of the two shielding enclosure groups at the two sides of the screen panel are folded inwards, and shield the control display part 1 to play a role in protection;

when the system is started, as shown in figure 1, the foldable baffle 3-1 is driven to be vertically opened by rotating each hinge shaft 3-2, a tested person enters right in front of the screen plate, namely, after standing in a detection space area, the baffle is folded to form a relatively closed space area with relatively stable light conditions for standing people for sign detection as a detection area, and the two foldable baffles 3-1 surrounding the head part comprise a color card with calibration parameters and a scale of a scale as shown in figure 6.

Device operation method is under self-service vital sign collection system and human user interaction mode, and the person under test can accomplish the vital sign test by oneself, the utility model discloses an implement the working process and specifically do:

step 1: the folding motor 3-3 is controlled to rotate and expand to open the adjustable shielding enclosure 3, after a testee enters a detection area surrounded by the adjustable shielding enclosure 3 in front of the control display part 1, the foldable baffle 3-1 at the outermost side of the adjustable shielding enclosure 3 is controlled to fold, the height of the adjustable shielding enclosure 3 is adjusted through the cooperation of the height sensor 1-8 and the lifting motor 2-5, the geographical position of the current moment including longitude and latitude is obtained through the GPS chip 2-11 after adjustment, and the altitude is obtained through the barometer 2-12.

After the height of a human body H of a tested person is measured by a height sensor 1-8 of a control display part 1, a lifting motor 2-5 operates to drive an adjustable shielding enclosure 3 to move up and down, and a lifting motor 2-5 operates to drive the adjustable shielding enclosure 3 and control the display part 1 to move up and down, so that the position of a camera 1-6 is aligned with the height of human eyes;

then, a loudspeaker 2-4 is used for sounding to prompt a testee that two eyes watch a parallel fixation point 1-5 of a touchable screen 1-4, a camera 1-6 is used for shooting to obtain a video image Pface of the front face of the testee, the distortion rate Vface of the video image is obtained through image processing, then a sliding track fine adjustment parameter delta h is obtained through conversion, and finally a lifting motor 2-5 is controlled to work to drive an adjustable shielding enclosure 3 to move up and down so that the height position of a control display component 1 is adjusted to be h0 +/-delta h.

Step 2: shooting a front face image of a testee by a camera 1-6, then carrying out image analysis and identification on facial feature points to identify and obtain the identity of the testee, and calling archive data of vital signs of the testee from a database;

and 3, step 3: after an environment image of a testee is shot by a camera 1-6, a test space environment is corrected by a diffuse reflection lamp, the testee is prompted to perform behaviors of spitting tongue, gladio and the like by sounding through a loudspeaker 2-4, the testee is prompted to perform accurate vital sign information by shooting and correcting processing through the camera 1-6 while the behavior is made, the testee is prompted to perform characteristic tests of pulse, blood pressure, grip strength, body temperature and the like in sequence, and measurement time service information is recorded, wherein the time service information refers to a world standard with a time zone, and human body characteristic detection data are obtained;

and 4, step 4: after the human body characteristic detection data is associated with the archive data, classification judgment is carried out by adopting third-party software, and a detection result of the vital sign of the testee is obtained;

and 5, step 5: after the detection is confirmed, the testee walks out of the detection area, the folding motor 3-3 is controlled to rotate, fold and shade the adjustable enclosure 3, and the system is shut down.

If the person to be tested leaves after the use and the report is sent, and the device does not sense that a person is in front of the baffle, the motor 3-3 drives the foldable baffle 3-1 to vertically fold as shown in figure 2.

Claims

1. The utility model provides a self-service vital sign collection system which characterized in that: the acquisition device comprises a control display part (1), a supporting frame (2), an adjustable shielding enclosure (3) and a plurality of life perception sensors; the control display component (1) comprises a screen board and a top board, wherein the screen board is vertically arranged, the top board is connected to the top of the screen board, a height sensor (1-8) is installed on the top surface of the top board, a touchable screen (1-4) is arranged in the middle of the front surface of the screen board, a microphone (1-3) is arranged on the front surface of the screen board below the touchable screen (1-4), a parallel fixation point (1-5), a camera (1-6) and an infrared thermometer (1-7) are arranged on the front surface of the screen board above the touchable screen (1-4), and a grip strength detector (1-1) and a nail type blood oxygen pulse instrument (1-2) are arranged; the side surface of the screen board is provided with a vertical strip-shaped convex block as a screen board sliding strip (1-9);

the supporting frame (2) comprises a first supporting column (2-1), a second supporting column (2-2), a controllable sliding screw rod (2-6), a connecting rod (2-7), an inner sliding rail (2-9) and an outer sliding rail (2-10); the first support column (2-1) and the second support column (2-2) are respectively arranged on two sides of the screen board, a vertical strip-shaped groove is formed in the side face, close to one side of the screen board, of the first support column (2-1) and the second support column (2-2) and serves as an inner slide rail (2-9), and the screen board slide strip (1-9) is embedded in the inner slide rail (2-9) to form mortise and tenon joint sliding pair connection; the side surfaces of the first supporting column (2-1) and the second supporting column (2-2) far away from one side of the screen board are also provided with vertical strip-shaped grooves serving as outer sliding rails (2-10), and the outer sliding rails (2-10) are connected with the adjustable shielding enclosure (3); the front surfaces of the first supporting column (2-1) and the second supporting column (2-2) are provided with a plurality of diffuse reflection lamps (2-3) and loudspeakers (2-4), the back surfaces of the first supporting column (2-1) and the second supporting column (2-2) are respectively fixedly connected with the two ends of the connecting rod (2-7), the first supporting column (2-1) is internally provided with a GPS chip (2-11), the second supporting column (2-2) is internally provided with a barometer (2-12), the bottommost parts of the first supporting column (2-1) and the second supporting column (2-2) are provided with foldable weight sensors (2-13), a controllable sliding screw rod (2-6) vertically penetrates through and is arranged in a threaded hole formed in the middle part of the connecting rod (2-7) through threads, the middle parts of the controllable sliding screw rod (2-6) and the connecting rod (2-7), a lifting motor (2-5) is arranged on the connecting rod (2-7), and an output shaft of the lifting motor (2-5) faces downwards and is coaxially connected with a controllable sliding screw rod (2-6);

the adjustable shielding enclosure (3) comprises two groups of shielding enclosure groups, the two groups of shielding enclosure groups are respectively arranged on two sides of a screen board of the control display component (1), each group of shielding enclosure groups comprises a plurality of foldable baffles (3-1), hinge shafts (3-2) and enclosure sliding strips (3-5), adjacent foldable baffles (3-1) are hinged into a whole through the hinge shafts (3-2), the surface of the foldable baffle (3-1) farthest away from the support frame (2) in each group of shielding enclosure groups is provided with a standard color card and a scale with calibration parameters, the inner side surface of the foldable baffle (3-1) closest to the support frame (2) is provided with a vertical strip-shaped convex block as an enclosure sliding strip (3-5), and the enclosure sliding strips (3-5) of the two groups of shielding enclosure groups are respectively and fixedly embedded in the first support column (2-1), The outer sliding rail (2-10) of the second supporting column (2-2); the top end of the foldable baffle (3-1) is provided with a folding motor (3-3), and the output shaft of the folding motor (3-3) is connected to the hinge shaft (3-2) to drive the hinge shaft (3-2) to rotate and control.

2. The self-service vital sign collection device of claim 1, wherein:

the control display part (1) is embedded in an inner sliding rail (2-9) of the support frame through a screen panel sliding bar (1-9); the adjustable shielding enclosure (3) is externally embedded in an outer slide rail (2-10) of the integral supporting frame of the device through an enclosure slide bar (3-5).

3. The self-service vital sign collection device of claim 1, wherein:

the grip strength detector (1-1) is of a structure with two cylindrical rod pieces and is used for holding the two cylindrical rod pieces by hand to detect the grip strength.

4. The self-service vital sign collection device of claim 1, wherein:

the foldable baffle (3-1) is a non-light-transmitting plate.