CN113397493A - Human health monitoring device and using method thereof - Google Patents

Abstract

The invention provides a human health monitoring device and a using method thereof, belonging to the technical field of the health monitoring device, the human health monitoring device comprises a first shell, wherein the left and right ends of the first shell are fixedly connected with first connecting belts, the left and right ends of the two first connecting belts are fixedly connected with a plurality of second connecting belts, the lower end of the first shell is fixedly connected with a temperature sensor, one end of each second shell is provided with a connecting groove, the other ends of the second shells are movably hinged with connecting plates through hinge shafts, the front and rear ends of the connecting plates are fixedly connected with a plurality of fixing rods, a rotating mechanism is arranged in each second shell, a plurality of groups of rotating clamping mechanisms are respectively connected with the second shells to realize the length adjustment of the rotating clamping mechanisms, the lower ends of the connecting plates are fixedly connected with racks, and the connecting plates can be controlled to slide in the connecting grooves when the rotating mechanisms run through the meshing connection between the racks and gears, facilitating its adjustment.

Description

Human health monitoring device and using method thereof

Technical Field

The invention belongs to the technical field of health monitoring devices, and particularly relates to a human health monitoring device and a using method thereof.

Background

The normal adult pulse rate is 60-100 times/min under the condition of quiet and waking, the elderly are slow, the women are faster, the children are faster, and the children <3 years old are more than 100 times/min. The normal pulse rate is regular, and the pulse rate of patients with sinus arrhythmia can change with respiration. The speed is increased during air suction; slowing down upon exhalation. Normal pulse wave: it is composed of three parts of ascending branch (percussion wave), wave crest (tidal wave) and descending branch (dicrotic wave). Ascending branches occur early in the contraction of the left ventricle and result from the impact of the left ventricular ejection on the aortic wall. The peak of the wave, also called tidal wave, appears in the middle and late stages of contraction, and is partially reversed while blood is moving towards the distal end of the artery. Caused by impact against the arterial wall. The descending branch occurs in the diastole of the ventricle, blood turns back from the periphery to the near end and then goes forward, and the aorta wall is elastically retracted, so that the blood flow continuously flows to the peripheral artery. There is a marked counterpulsation wave on the descending branch, which tends to be less pronounced in cases of pronounced aortic sclerosis.

In the prior art, for people with cardiovascular diseases, the pulse rate is very important to change, the pulse rate of a human body needs to be detected in a hospital, and people cannot observe the change of the pulse rate at any time, so that the health condition of the people cannot be judged.

Disclosure of Invention

The invention aims to provide a human body health monitoring device and a using method thereof, and aims to solve the problems that in the prior art, the pulse rate of a human body needs to be detected in a hospital, and people cannot observe the pulse rate change of the human body constantly, so that the health condition of the human body cannot be judged.

In order to achieve the purpose, the invention provides the following technical scheme:

a human health monitoring device comprising:

the temperature sensor comprises a first shell, a second shell and a temperature sensor, wherein the left end and the right end of the first shell are both fixedly connected with first connecting belts, the left end and the right end of the two first connecting belts are both fixedly connected with a plurality of second connecting belts, and the lower end of the first shell is fixedly connected with the temperature sensor;

the length adjusting device comprises a plurality of second shells, a plurality of connecting rods, a plurality of rotating clamping mechanisms, a plurality of groups of rotating clamping mechanisms and a plurality of connecting plates, wherein one end of each of the plurality of second shells is provided with a connecting groove, the other end of each of the plurality of second shells is movably hinged with a connecting plate through a hinge shaft, the front end and the rear end of each of the plurality of connecting plates are fixedly connected with a plurality of fixing rods, the plurality of second shells are internally provided with the rotating mechanisms, the plurality of groups of rotating clamping mechanisms are respectively connected with the plurality of second shells to realize the length adjustment of the plurality of second shells, and the lower ends of the plurality of connecting plates are fixedly connected with racks;

the third connecting belt is fixedly connected to the close ends of the plurality of second shells;

the pulse sensor is fixedly connected to the upper end of the third connecting belt;

the plurality of groups of fixing mechanisms are respectively arranged in the plurality of second shells and are respectively connected with the plurality of connecting plates to realize clamping connection;

the pulse monitoring system is arranged in the pulse sensor and is attached to the wrist of a person to realize pulse monitoring;

a pressure monitoring system disposed within the third connecting band, the pressure monitoring system being connected to the rotating mechanism to effect adjustment thereof, and

the temperature sensing system is arranged in the first shell and connected with the first shell to monitor the temperature of the first shell.

As a preferable scheme of the present invention, each of the rotating mechanisms includes a fixed groove, a belt, a first rotating shaft, a micro motor, and two gears, the gears are disposed on a lower inner wall of the connecting groove, the first rotating shaft is rotatably connected between front and rear inner walls of the fixed groove, the two gears are both fixedly connected to a circumferential surface of the first rotating shaft, the micro motor is fixedly connected to the lower inner wall of the fixed groove, and the belt is drivingly connected to the first rotating shaft and a circumferential surface of an output shaft of the micro motor.

As a preferred scheme of the present invention, each of the clamping mechanisms includes an insertion rod, an electric telescopic rod, a cross slide rod, a cross slot, a slide slot, two limit slide rods, and first springs, the cross slot is disposed on an upper inner wall of the connecting slot, the slide slot is disposed in the second housing, the cross slot is communicated with the slide slot, the electric telescopic rod is fixedly connected to a right inner wall of the slide slot, the insertion rod is fixedly connected to a left end of a thin rod of the electric telescopic rod, the cross slide rod is slidably connected in the cross slot, both the limit slide rods are fixedly connected between upper and lower inner walls of the cross slot, the cross slide rod is slidably connected to circumferential surfaces of the two limit slide rods, and the two first springs are respectively sleeved on circumferential surfaces of the two limit slide rods.

As a preferred embodiment of the present invention, the pulse monitoring system includes a pulse sensor module, a signal processing module and a display screen module, the pulse sensor is disposed in the pulse sensor, the signal processing module is disposed in the first housing, the display screen module is disposed in the display panel, the pulse sensor module is electrically connected to the signal processing module, and the signal processing module is electrically connected to the display screen module.

As a preferred embodiment of the present invention, the pressure monitoring system includes a pressure sensor module, an operation module, a PLC control module, an operation module, a plurality of motor modules, and a telescopic rod module, the pressure sensor module is fixedly connected to a third connecting band, the operation module, the PLC control module, and the operation module are all disposed in the first housing, the plurality of motor modules are respectively disposed in the plurality of micro motors, and the plurality of telescopic rod modules are respectively disposed in the plurality of electric telescopic rods.

As a preferable scheme of the present invention, the temperature sensing system includes a temperature sensing module and a signal module, the temperature sensing module is disposed in the temperature sensor, the signal module is disposed in the first housing, and the temperature sensing module is electrically connected to the signal module.

As a preferable scheme of the present invention, the adjacent ends of the plurality of second housings are respectively provided with an elastic groove, the plurality of elastic grooves are respectively connected with an anti-slip plate in a sliding manner, and four second springs are respectively fixedly connected between the plurality of elastic grooves and the anti-slip plate.

As a preferable aspect of the present invention, both the front end and the rear end of the third connecting band are fixedly connected with a plurality of connecting buckles.

As a preferable aspect of the present invention, a plurality of second connecting belts are fixedly connected to upper ends of the plurality of second housings, respectively, and upper ends of the plurality of second connecting belts are fixedly connected to the two first connecting belts, respectively.

As a preferred aspect of the present invention, a method for using a human health monitoring device, which is characterized by using a human health monitoring device according to any one of claims 1 to 9, comprises the steps of:

s1, wearing the device: firstly, the device is sleeved at the wrist of a user, the pressure sensor module in the third connecting band is used for detecting the pressure from the device to the wrist, when the pressure is too low, the radius of the device is too large and the device is not attached to the surface of the wrist of the user, the pressure to be adjusted can be calculated by the operation module, then the operation of the motor module and the telescopic link module can be controlled by the PLC control module, the motor module can drive the operation of the rotating mechanism, the micro motor in the rotating mechanism sequentially drives the belt, the first rotating shaft and the gear to operate, the rack arranged on the surface of the connecting plate is meshed with the gear, the sliding distance between the connecting plate and the connecting groove can be controlled by the operation of the micro motor, the thin rod of the electric telescopic rod for operating the electric telescopic rod is controlled by the telescopic link module to move leftwards after the sliding is finished, and the splicing rod is driven to move leftwards, the cross slide bar can be extruded downwards at this moment to with the dead lever joint of connecting plate surface mounting, realize that it is fixed, the pressure sensor module can be adjusted according to the elasticity degree of device cladding in people's hand.

S2, real-time monitoring: the device is worn and is accomplished the back and attached in user's wrist below through the pulse sensor, can monitor human pulse frequency, pulse frequency passes through the pulse sensor module and turns into the signal processing module of electrical property number transmission for in the first casing with the electrical property number, signal processing module converts the electrical property number into digital signal and presents the monitoring data through the display screen module in the display panel, and can monitor human body temperature through the attachment of temperature sensor and user's wrist upper surface, the signal module in the temperature sensing module transmits the monitoring data with the electrical property number for in the first casing, signal module presents the received signal through the form of display screen module with digit and waveform image, supply looking over of user and doctor.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the pulse rate detection device, the signal module converts received signals into digital signals, the digital signals are displayed in the form of digital and waveform images through the display screen module, and the detected waveform images can be provided for a doctor to analyze, so that the physical condition of the user can be better judged.

2. According to the invention, the left end surface of the plug-in rod and the upper end surface of the cross slide rod are matched inclined surfaces, the cross slide rod can be extruded to slide downwards by moving the plug-in rod leftwards, so that the cross slide rod can be clamped with a fixed rod fixed in a connecting plate, when the plug-in rod is driven by the electric telescopic rod to move rightwards, the cross slide rod can move upwards under the action of the elastic force of the first spring, so that the cross slide rod is reset, the limit slide rod can play a limiting role, the cross slide rod can move more stably, and the stability of the device in use is improved.

3. According to the invention, the sliding distance of the connecting plate in the connecting groove can be controlled through the pressure monitoring system through the arranged rotating mechanism, so that the radius of the device can be adjusted, the device is suitable for the requirements of different people, the human body pulse frequency can be displayed on the display screen through the arranged pulse monitoring system in a digital signal mode for the observation of a user, the human body temperature can be monitored through the arranged temperature sensing system, the human body temperature is displayed through the display screen, and the human body temperature can be monitored in real time through the device, so that the actual requirements are met.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a perspective view of a second housing of the present invention;

FIG. 4 is a cross-sectional view of a second housing in accordance with the present invention;

FIG. 5 is a flow chart of the pulse monitoring system of the present invention;

FIG. 6 is a flow chart of the pressure monitoring system of the present invention;

FIG. 7 is a flow chart of the temperature sensing system of the present invention.

In the figure: 1. a display panel; 2. a first housing; 3. a first connecting belt; 4. a second connecting band; 5. a second housing; 6. a third connecting band; 7. a pulse sensor; 8. an anti-skid plate; 9. connecting a buckle; 10. a temperature sensor; 11. a connecting plate; 12. a rack; 1201. connecting grooves; 1202. fixing grooves; 1203. a belt; 1204. a gear; 13. fixing the rod; 1301. a cross slide bar; 1302. a plug rod; 1303. an electric telescopic rod; 1304. a limiting slide bar; 1305. a first spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1-7, the present invention provides the following technical solutions:

a human health monitoring device comprising:

the temperature sensor comprises a first shell 2, wherein the left end and the right end of the first shell 2 are fixedly connected with first connecting belts 3, the left end and the right end of each of the two first connecting belts 3 are fixedly connected with a plurality of second connecting belts 4, and the lower end of the first shell 2 is fixedly connected with a temperature sensor 10;

the length adjusting device comprises a plurality of second shells 5, wherein one ends of the second shells 5 are respectively provided with a connecting groove 1201, the other ends of the second shells 5 are respectively hinged with a connecting plate 11 through a hinge shaft, the front end and the rear end of each connecting plate 11 are respectively and fixedly connected with a plurality of fixing rods 13, rotating mechanisms are respectively arranged in the second shells 5, a plurality of groups of rotating clamping mechanisms are respectively connected with the second shells 5 to realize the length adjustment of the second shells, and the lower ends of the connecting plates 11 are respectively and fixedly connected with a rack 12;

a third connecting band 6, wherein the third connecting band 6 is fixedly connected to the near ends of the plurality of second shells 5;

the pulse sensor 7 is fixedly connected to the upper end of the third connecting belt 6;

the plurality of groups of clamping mechanisms are respectively arranged in the plurality of second shells 5 and are respectively connected with the plurality of connecting plates 11 to realize clamping;

the pulse monitoring system is arranged in the pulse sensor 7 and is attached to the wrist of a person to realize pulse monitoring;

a pressure monitoring system arranged in the third connecting band 6 and connected with the rotating mechanism to realize the adjustment thereof, and

the temperature sensing system is arranged in the first shell 2 and connected with the first shell 2 to realize temperature monitoring.

In the embodiment of the invention, a circuit board is fixedly connected between the left and right inner walls of the first shell 2, a signal processing module, a signal module, an operation module and a PLC control module which are arranged in the first shell 2 are all electrically connected in the circuit board, one end of each of two first connecting belts 3 is connected with two ends of the outer shell of the first shell 2, the other end of each of the two first connecting belts is connected with a second connecting belt 4, the second connecting belts 4 are connected with a second shell 5 which is positioned at the upper side, a plurality of second shells 5 are arranged in a side row, the two second shells 5 at the same side are fixed, the second shells 5 and the second shells 5 are connected with a connecting groove 1201 in a sliding manner through the connecting plate 11, limiting blocks are arranged at the front and rear ends of the connecting plate 11, limiting grooves are arranged on the front and rear inner walls of the connecting groove 1201, and are connected in the limiting grooves in a sliding manner to prevent the connecting plate 11 from being separated from the connecting groove 1201, stability when improving this device and using, a plurality of dead levers 13 through setting up be used for with the joint mechanism between be connected, realize the fixed of connecting plate 11, slewing mechanism through the setting can pass through the sliding distance of pressure monitoring system control connecting plate 11 in spread groove 1201, thereby adjust the radius of this device, be fit for different crowds 'needs, pulse monitoring system through the setting, can show human pulse frequency on the display screen with digital signal, user's observation supplies, can monitor human body temperature through the temperature sensing system that sets up, and show human body temperature through the display screen demonstration.

Referring to fig. 4, each group of rotating mechanisms includes a fixed slot 1202, a belt 1203, a first rotating shaft, a micro motor and two gears 1204, the gears 1204 are disposed on the lower inner wall of the connecting slot 1201, the first rotating shaft is rotatably connected between the front and rear inner walls of the fixed slot 1202, the two gears 1204 are both fixedly connected to the circumferential surface of the first rotating shaft, the micro motor is fixedly connected to the lower inner wall of the fixed slot 1202, the belt 1203 is in transmission connection with the circumferential surface of the first rotating shaft and the output shaft of the micro motor, and the micro motor, the pulse sensor 7 and the temperature sensor 10 are all the prior art and are not described herein in detail.

In this embodiment: the micro motor in the rotating mechanism plays a role in driving the rotating mechanism, the first rotating shaft can be driven to rotate through the operation of the micro motor, the first rotating shaft drives the gear 1204 to rotate, the gear 1204 is meshed with the rack 12 and connected with the rack, and the sliding of the connecting plate 11 in the connecting groove 1201 can be controlled through the rotation of the gear 1204, so that the radius of the device can be adjusted.

Referring to fig. 4, each set of clamping mechanism includes a plug rod 1302, an electric telescopic rod 1303, a cross slide bar 1301, a cross slot, a slide slot, two limit slide bars 1304 and a first spring 1305, the cross slot is disposed on an upper inner wall of the connecting slot 1201, the slide slot is disposed in the second housing 5, the cross slot is communicated with the slide slot, the electric telescopic rod 1303 is fixedly connected to a right inner wall of the slide slot, the plug rod 1302 is fixedly connected to a left end of a thin rod of the electric telescopic rod 1303, the cross slide bar 1301 is slidably connected to the cross slot, the two limit slide bars 1304 are both fixedly connected to a position between the upper inner wall and the lower inner wall of the cross slot, the cross slide bar 1301 is slidably connected to circumferential surfaces of the two limit slide bars 1304, and the two first springs 1305 are respectively sleeved on circumferential surfaces of the two limit slide bars 1304.

In this embodiment: after the slewing mechanism operation is accomplished, electric telescopic handle 1303 in the joint mechanism operates and can drive peg 1302 sliding tray to slide in, the left end face of peg 1302 and the up end of cross slide bar 1301 are the assorted inclined plane, move left through peg 1302 and can extrude cross slide bar 1301 and slide down, thereby can make joint between cross slide bar 1301 and the dead lever 13 of connecting plate 11 internal fixation, electric telescopic handle 1303 drives peg 1302 and moves right when, cross slide bar 1301 can move up under the effect of first spring 1305 elasticity, thereby make cross slide bar 1301 reset, spacing effect can be played through the spacing slide bar 1304 that sets up, it is more stable to make cross slide bar 1301 move, stability when improving this device and using.

Specifically, referring to fig. 5, the pulse monitoring system includes a pulse sensor module, a signal processing module and a display screen module, the pulse sensor is disposed in the pulse sensor 7, the signal processing module is disposed in the first housing 2, the display screen module is disposed in the display panel 1, the pulse sensor module is electrically connected to the signal processing module, and the signal processing module is electrically connected to the display screen module.

In this embodiment: the pulse sensor 7 through setting up is used for measuring pulse frequency and pulse power, and measured data turns into the signal transmission for signal processing module through pulse sensor module with measured data, and signal processing module is data processing to turn into digital signal with the electrical signal and present digital signal and image signal through the display screen module, detect the waveform image and can provide doctor's analysis, thereby make better judgement to user's health.

Specifically please refer to fig. 6, the pressure monitoring system includes a pressure sensor module, an operation module, a PLC control module, an operation module, a plurality of motor modules and a telescopic rod module, the pressure sensor module is fixedly connected in the third connecting band 6, the operation module, the PLC control module and the operation module are all disposed in the first housing 2, the plurality of motor modules are respectively disposed in the plurality of micro motors, and the plurality of telescopic rod modules are respectively disposed in the plurality of electric telescopic rods 1303.

In this embodiment: set up the pressure tank in the third connecting band 6, be equipped with pressure sensor in the pressure tank, can measure this device and the pressure of user's wrist department through the pressure sensor who sets up, then calculate the connecting plate 11 through the operation module and the spread groove 1201 between the sliding distance to control motor module and telescopic link module through PLC control module, realize the regulation to this device radius.

Specifically referring to fig. 7, the temperature sensing system includes a temperature sensing module and a signal module, the temperature sensing module is disposed in the temperature sensor 10, the signal module is disposed in the first housing 2, and the temperature sensing module is electrically connected to the signal module.

In this embodiment: the temperature sensing module is arranged in the temperature sensor 10, the temperature sensor 10 is attached to the surface of the wrist and can monitor the temperature of the human body, and the digital signals are displayed through the display screen module through the signal module, so that a user can check the temperature conveniently.

Referring to fig. 2, the adjacent ends of the second housings 5 are provided with elastic grooves, the elastic grooves are slidably connected with the anti-skid plates 8, and four second springs are fixedly connected between the elastic grooves and the anti-skid plates 8.

In this embodiment: the elastic groove is used for connecting the antiskid plate 8, the antiskid lines are arranged on the surface of the antiskid plate 8, so that the friction force between the device and the wrist of a user can be increased, and the pulse sensor 7 and the temperature sensor 10 are respectively attached to the lower surface and the upper surface of the wrist of the user, thereby providing stable and accurate data.

Specifically referring to fig. 1, the front end and the rear end of the third connecting band 6 are both fixedly connected with a plurality of connecting buckles 9.

In this embodiment: the plurality of connecting buckles 9 are used for reinforcing the pulse sensor 7, so that the stability of the pulse sensor in use is improved.

Specifically, referring to fig. 1, a plurality of second connecting belts 4 are fixedly connected to upper ends of the plurality of second housings 5, respectively, and upper ends of the plurality of second connecting belts 4 are fixedly connected to the two first connecting belts 3, respectively.

In this embodiment: one end of a plurality of second connecting belts 4 is connected with the second shell 5, and the other end is connected with the first connecting belt 3, so that the function of connecting the second shell 5 and the first connecting belt 3 is achieved.

The working principle and the using process of the invention are as follows: when the device is used, the device is firstly sleeved at the wrist of a user, the pressure from the device to the wrist is detected through the pressure sensor module in the third connecting band 6, when the pressure is too small, the radius of the device is too large and the device is not attached to the surface of the wrist of the user, the pressure to be adjusted can be calculated through the operation module at the moment, then the operation of the motor module and the telescopic link module is controlled through the PLC control module, the motor module can drive the operation of the rotating mechanism, the micro motor in the rotating mechanism operates to sequentially drive the belt 1203, the first rotating shaft and the gear 1204 to operate, the rack 12 arranged on the surface of the connecting plate 11 is meshed with the gear 1204, the sliding distance between the connecting plate 11 and the connecting groove 1201 can be controlled through the operation of the micro motor, and the fine rod of the electric telescopic rod 1303 of the electric telescopic rod can be controlled to move leftwards after the sliding is finished, the insertion rod 1302 is driven to move leftwards, the cross slide bar 1301 is pressed downwards and clamped with the fixed rod 13 fixed on the surface of the connecting plate 11 to realize the fixation, the pressure sensor module can be adjusted according to the tightness degree of the device covered on the hand of a person, the device is attached to the lower part of the wrist of the user through the pulse sensor 7 after being worn, the pulse frequency of the person can be monitored, the pulse frequency converts the monitoring data into an electrical signal through the pulse sensor module and transmits the electrical signal to the signal processing module in the first shell 2, the signal processing module converts the electrical signal into a digital signal, the monitoring data is displayed through the display screen module in the display panel 1, the temperature of the person can be monitored through the attachment of the temperature sensor 10 to the upper surface of the wrist of the user, and the temperature sensing module transmits the monitoring data into the signal module in the first shell 2 through the, the signal module presents the form that the signal conversion who receives is digital signal through display screen module with digit and waveform image, detects waveform image and can provide doctor's analysis to do better judgement to user's health, through this device, people also can detect pulse rate without going to the hospital, can observe the pulse rate change of oneself constantly, make things convenient for people to make the judgement to the health status of oneself health, the emergence of prevention disease.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A human health monitoring device, comprising:

the temperature sensor comprises a first shell (2), wherein the left end and the right end of the first shell (2) are fixedly connected with first connecting belts (3), the left end and the right end of each of the two first connecting belts (3) are fixedly connected with a plurality of second connecting belts (4), and the lower end of the first shell (2) is fixedly connected with a temperature sensor (10);

the length adjusting device comprises a plurality of second shells (5), wherein one ends of the plurality of second shells (5) are respectively provided with a connecting groove (1201), the other ends of the plurality of second shells (5) are respectively hinged with a connecting plate (11) through a hinge shaft, the front end and the rear end of the plurality of connecting plates (11) are respectively fixedly connected with a plurality of fixing rods (13), rotating mechanisms are respectively arranged in the plurality of second shells (5), a plurality of groups of rotating clamping mechanisms are respectively connected with the plurality of second shells (5) to realize the length adjustment of the second shells, and the lower ends of the plurality of connecting plates (11) are respectively fixedly connected with a rack (12);

the third connecting belt (6) is fixedly connected to the close ends of the plurality of second shells (5);

the pulse sensor (7), the pulse sensor (7) is fixedly connected to the upper end of the third connecting belt (6);

the multiple groups of fixing mechanisms are respectively arranged in the multiple second shells (5), and are respectively connected with the multiple connecting plates (11) to realize clamping;

the pulse monitoring system is arranged in the pulse sensor (7) and is attached to the wrist of a person to realize pulse monitoring;

a pressure monitoring system arranged in the third connecting band (6), the pressure monitoring system is connected with the rotating mechanism to realize the adjustment thereof, and

the temperature sensing system is arranged in the first shell (2) and is connected with the first shell (2) to monitor the temperature of the first shell.

2. A human health monitoring device as claimed in claim 1, wherein: each group of rotating mechanism comprises a fixing groove (1202), a belt (1203), a first rotating shaft, a micro motor and two gears (1204), the gears (1204) are arranged on the lower inner wall of the connecting groove (1201), the first rotating shaft is rotatably connected between the front inner wall and the rear inner wall of the fixing groove (1202), the two gears (1204) are fixedly connected to the circumferential surface of the first rotating shaft, the micro motor is fixedly connected to the lower inner wall of the fixing groove (1202), and the belt (1203) is in transmission connection with the circumferential surface of the output shaft of the first rotating shaft and the micro motor.

3. A human health monitoring device as claimed in claim 2, wherein: each group of clamping mechanisms comprises an insertion rod (1302), an electric telescopic rod (1303), a cross slide rod (1301), a cross groove, a sliding groove, two limiting slide rods (1304) and a first spring (1305), the cross groove is formed in the upper inner wall of the connecting groove (1201), the sliding groove is formed in the second shell (5), the cross groove is communicated with the sliding groove, the electric telescopic rod (1303) is fixedly connected with the right inner wall of the sliding groove, the inserting rod (1302) is fixedly connected with the left end of the thin rod of the electric telescopic rod (1303), the cross slide bar (1301) is connected in the cross groove in a sliding manner, the two limiting slide bars (1304) are fixedly connected between the upper inner wall and the lower inner wall of the cross groove, and the cross slide bar (1301) is connected to the circumferential surfaces of the two limit slide bars (1304) in a sliding manner, and the two first springs (1305) are respectively sleeved on the circumferential surfaces of the two limit slide bars (1304).

4. A human health monitoring device as claimed in claim 3, wherein: the pulse monitoring system comprises a pulse sensor module, a signal processing module and a display screen module, wherein the pulse sensor is arranged in a pulse sensor (7), the signal processing module is arranged in a first shell (2), the display screen module is arranged in a display panel (1), the pulse sensor module is electrically connected with the signal processing module, and the signal processing module is electrically connected with the display screen module.

5. A human health monitoring device as claimed in claim 4, wherein: pressure monitoring system includes pressure sensor module, operation module, PLC control module, operation module, a plurality of motor module and telescopic link module, pressure sensor module fixed connection is in third connecting band (6), operation module, PLC control module and operation module all set up in first casing (2), and are a plurality of motor module sets up respectively in a plurality of micro motor, and is a plurality of telescopic link module sets up respectively in a plurality of electric telescopic handle (1303).

6. A human health monitoring device as claimed in claim 5, wherein: the temperature sensing system comprises a temperature sensing module and a signal module, the temperature sensing module is arranged in the temperature sensor (10), the signal module is arranged in the first shell (2), and the temperature sensing module is electrically connected with the signal module.

7. The human health monitoring device of claim 6, wherein: a plurality of the second shell (5) is provided with an elastic groove at the near end, a plurality of anti-skid plates (8) are connected in the elastic groove in a sliding manner, and four second springs are fixedly connected between the elastic grooves and the anti-skid plates (8).

8. The human health monitoring device of claim 7, wherein: the front end and the rear end of the third connecting belt (6) are fixedly connected with a plurality of connecting buckles (9).

9. The human health monitoring device of claim 8, wherein: the upper ends of the second shells (5) are fixedly connected with a plurality of second connecting belts (4) respectively, and the upper ends of the second connecting belts (4) are fixedly connected with the two first connecting belts (3) respectively.

10. A method of using a human health monitoring device as claimed in any one of claims 1 to 9, comprising the steps of:

s1, wearing the device: firstly, the device is sleeved at the wrist of a user, the pressure from the device to the wrist is detected through a pressure sensor module in a third connecting band (6), when the pressure is too small, the radius of the device is too large and the device is not attached to the surface of the wrist of the user, the pressure to be adjusted is calculated through an operation module, then a PLC control module is used for controlling the operation of a motor module and a telescopic rod module, the motor module can drive a rotating mechanism to operate, a micro motor in the rotating mechanism operates to sequentially drive a belt (1203), a first rotating shaft and a gear (1204) to operate, a rack (12) arranged on the surface of a connecting plate (11) is meshed with the gear (1204), the sliding distance between the connecting plate (11) and a connecting groove (1201) can be controlled through the operation of the micro motor, and after the sliding is finished, a thin rod of an electric telescopic rod (1303) of an electric telescopic rod is controlled to move leftwards through the micro motor module, drive inserted bar (1302) and remove left, cross slide bar (1301) can be extruded downwards this moment to with connecting plate (11) fixed surface's dead lever (13) joint, realize that it is fixed, the pressure sensor module can be adjusted according to the elasticity degree of device cladding in people's hand.

S2, real-time monitoring: the device wears to accomplish the back and attaches in user's wrist below through pulse sensor (7), can monitor human pulse frequency, pulse frequency passes through pulse sensor module and turns into the signal processing module that the electrical property number transmitted for in first casing (2) with the monitoring data, signal processing module converts the electrical property number into digital signal and presents the monitoring data through the display screen module in display panel (1), and can monitor human body temperature through temperature sensor (10) and user's wrist upper surface are attached, the signal module in temperature sensor module transmits the monitoring data with the electrical property number for first casing (2), signal module converts the signal of accepting into digital signal and presents with the form of digit and waveform image through the display screen module, supply user and doctor's looking over.

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