CN114642404A

CN114642404A - Pilot physical fitness health monitoring equipment and operation method thereof

Info

Publication number: CN114642404A
Application number: CN202210265765.2A
Authority: CN
Inventors: 钟勉; 杨鸣亮; 周超; 李波; 涂晓光; 杨天阔
Original assignee: Civil Aviation Flight University of China
Current assignee: Civil Aviation Flight University of China
Priority date: 2022-03-17
Filing date: 2022-03-17
Publication date: 2022-06-21

Abstract

The invention discloses a physical fitness health monitoring device for pilots and an operation method thereof, the physical fitness health monitoring device comprises a watch case and an intelligent bracelet main body, wherein a first watchband and a second watchband are respectively and rotatably connected with two ends of the watch case, a camera assembly, a body temperature sensor, a sweat detection sensor, an optical heart rate sensor, a GSM communication module, a brain wave sensor and a central processing unit are integrated in the case through a circuit board, and parts are powered through a mobile power supply to work, so that the volume of a monitoring device is greatly reduced, the cost of the monitoring device is reduced, the case is internally arranged in the watch case, the first watchband and the second watchband are rotatably connected through two ends of the watch case, clamping columns on the first watchband are matched with clamping buckles and clamping holes on the second watchband, the monitoring device is conveniently worn on the wrist of pilots, the carrying and the use of flight personnel are convenient, and corresponding emergency medicines are arranged in a storage chamber in the case, time is strived for first aid.

Description

Pilot physical fitness health monitoring equipment and operation method thereof

Technical Field

The invention relates to the technical field of monitoring, in particular to a pilot physical fitness monitoring device and an operation method thereof.

Background

Physical health monitoring of pilots is particularly important because pilots are important wealth for airlines and countries, which is a difficult culture of pilots. The health hierarchical management of pilots has become a main working direction and an important working project of each airline company, and besides the specified physical examination, the health management is also quite necessary to master the daily health condition of the pilots. Modern high-end medical equipment, though can be very easy acquisition pilot's healthy condition, but during pilot daily life and flight training, high-end equipment's physical examination is convenient relatively poor, and the physical examination cost is very high, pursuing portable, shared space is little, low cost, can dress on the pilot, and can realize carrying out the medical system who monitors to the various health parameters of disease, it is very important to the healthy hierarchical management of pilot.

Therefore, a need exists for a pilot-based health monitoring device that improves the ease and cost of monitoring health parameters and addresses emergency situations.

Disclosure of Invention

The invention aims to provide a device for monitoring physical fitness of pilots and an operation method thereof, so as to solve the problems in the prior art.

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

the utility model provides a pilot physical fitness health monitoring equipment and operation method thereof, includes watchcase and intelligent bracelet main part, its characterized in that: the two ends of the watchcase are respectively and rotatably connected with a first watchband and a second watchband, the two sides of the connecting section of the first watchband and the second watchband and the watchcase are symmetrically provided with chutes, the chutes are in sliding connection with second clamping columns, one ends of the second clamping columns in the first watchband and the second watchband are fixedly connected with sliders, the sliders are arranged at one ends of large diameters of the chutes and are in sliding connection with the inner walls of the chutes, springs are arranged between the side walls of the sliders and the bottom of the inner walls of the chutes, the side walls of the watchcase are symmetrically and fixedly connected with two groups of connectors at the positions of the first watchband and the second watchband, the connectors are provided with second clamping holes in a penetrating way, the outer ends of the second clamping columns are arranged in the second clamping holes, the second clamping columns are rotatably connected with the inner walls of the second clamping holes, the smart bracelet body is fixedly connected in the watchcase, the smart bracelet body comprises a shell, and one end in the shell is provided with a storage chamber, casing top rotates at the apotheca opening part and is connected with the end cover, fixedly connected with circuit board in the casing, circuit board top fixedly connected with charge interface, liquid crystal display, camera subassembly and brain wave sensor, circuit board bottom fixedly connected with body temperature sensor, sweat detect sensor, optics rhythm of the heart sensor, GSM communication module, GPS module and central processing unit, a plurality of support columns of shells inner wall bottom fixedly connected with, the circuit board passes through bolt and support column threaded connection, shells inner wall bottom one end fixedly connected with portable power source, the watchcase top is run through and is seted up second through-hole, third through-hole, fourth through-hole and eighth through-hole, fifth through-hole, sixth through-hole and seventh through-hole have been seted up to the watchcase bottom, the watchcase lateral wall runs through and has seted up first through-hole.

As a further scheme of the invention: the top of the liquid crystal display screen, the camera assembly and the brain wave sensor penetrates through the top of the shell, the top of the liquid crystal display screen is extended and clamped in the second through hole which is matched with the liquid crystal display screen, the top of the camera component is extended and clamped in the third through hole which is matched with the camera component, the top of the brain wave sensor is extended and clamped in the fourth through hole which is matched with the brain wave sensor, the end cover of the storage chamber is arranged in the eighth through hole matched with the end cover, the top of the brain wave sensor extends out of the top of the watch case, the body temperature sensor, the sweat detection sensor and the optical heart rate sensor all penetrate through the bottom of the shell, the bottom of the body temperature sensor extends and is clamped in the matched seventh through hole, the bottom of the sweat detection sensor extends and is clamped in the matched sixth through hole, the bottom of the optical heart rate sensor extends and is clamped in the matched fifth through hole, and the bottoms of the body temperature sensor and the sweat detection sensor extend out of the bottom of the watch case.

As a still further scheme of the invention: the end cover bottom fixedly connected with dop, the draw-in groove has been seted up at storage cell lateral wall top, draw-in groove lateral wall fixedly connected with and the card strip of dop looks adaptation.

As a still further scheme of the invention: and a groove is formed in the opening position of the end cover of the eighth through hole.

As a still further scheme of the invention: first watchband bottom fixedly connected with first card post, second watchband one end fixedly connected with buckle, equidistant the running through on the second watchband midline is provided with one row of first card holes.

As a still further scheme of the invention: the first watchband, the second watchband and the buckle are made of rubber.

An operation method of a pilot physical fitness monitoring device comprises the following steps:

s1: the diagnosis terminal establishes a flight personnel file, and the monitoring equipment inputs relevant identification information of the flight personnel;

s2: the method comprises the following steps that a flight person obtains monitoring equipment, a camera assembly of the monitoring equipment scans a work ID and a face image of a pilot, and the obtained work ID and the obtained face image of the pilot are sent to a diagnosis terminal through a GSM communication module;

s3: the diagnosis terminal receives the work ID and the face image of the pilot sent by the monitoring equipment, matches the work ID and the face image with information in a preset authentication library, and sends authentication success information to the monitoring equipment after the received work ID and the face image of the pilot are successfully matched with the information in the preset authentication library;

s4: after receiving the successful authentication information sent by the diagnosis terminal, a central processing unit in the monitoring equipment starts a GPS module to obtain the daily track of the pilot, and obtains the real-time body information of the pilot at the determined current position through an optical heart rate sensor, a body temperature sensor, a sweat detection sensor and a brain wave sensor;

s5: the acquired body information of the pilot is sent to a diagnosis terminal through a GSM communication module for diagnosis and is fed back to the working personnel and the pilot;

s6: the pilot himself confirms the physical condition and whether or not to swallow the emergency medicine stored in the storage room according to the fed back diagnosis information.

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

1. the invention integrates the camera assembly, the body temperature sensor, the sweat detection sensor, the optical heart rate sensor, the GSM communication module, the brain wave sensor and the central processing unit into the shell through the circuit board, and supplies power to the components through the mobile power supply to enable the components to work, thereby greatly reducing the volume of the monitoring device and reducing the cost of the monitoring equipment.

2. According to the invention, the clamping column is pressed, the spring is extruded by the clamping column through the sliding block, and the clamping column retracts into the sliding chute, so that the first watchband and the second watchband can be conveniently detached and installed, and the maintenance of equipment is facilitated.

Drawings

FIG. 1 is a schematic diagram of a pilot physical fitness monitoring device.

FIG. 2 is a top view of a pilot physical fitness monitoring device.

FIG. 3 is a cross-sectional view of a smart bracelet body in a pilot physical fitness health monitoring device.

FIG. 4 is a top view of a watch case of a pilot physical fitness monitoring device.

Fig. 5 is a partially enlarged view of a portion a in fig. 3.

Fig. 6 is a partially enlarged view of fig. 2 at B.

FIG. 7 is a block circuit diagram of a pilot physical fitness monitoring device.

FIG. 8 is a method of operating a pilot physical fitness monitoring device.

In the figure: the watch case comprises a watch case 1, a first through hole 2, a charging interface 3, a first watchband 4, a second watchband 5, a first clamping column 6, a buckle 7, a first clamping hole 8, a smart bracelet main body 9, a liquid crystal display screen 10, a camera assembly 11, a case 12, a body temperature sensor 13, a sweat detection sensor 14, an optical heart rate sensor 15, a GSM communication module 16, a brain wave sensor 17, a circuit board 18, a mobile power supply 19, a GPS module 20, a support column 21, a second through hole 22, a third through hole 23, a fourth through hole 24, a fifth through hole 25, a sixth through hole 26, a seventh through hole 27, a central processor 28, a storage chamber 29, an end cover 30, a clamping groove 31, a clamping head 32, a clamping strip 33, a connecting head 34, a second clamping hole 35, a second clamping column 36, a sliding groove 37, a spring 38, a sliding block 39, an eighth through hole 40 and a groove 41.

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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1 to 8, in the embodiment of the invention, a device for monitoring physical fitness and health of pilots and an operation method thereof comprise a case 1 and a smart bracelet body 9, wherein a first watchband 4 and a second watchband 5 are respectively rotatably connected to two ends of the case 1, sliding grooves 37 are symmetrically formed in two sides of a connecting section of the first watchband 4 and the second watchband 5 and the case 1, a second clipping column 36 is slidably connected to the sliding grooves 37, a sliding block 39 is fixedly connected to one end of the second clipping column 36 in the first watchband 4 and the second watchband 5, the sliding block 39 is arranged at one end with a large diameter of the sliding groove 37, the sliding block 39 is slidably connected to an inner wall of the sliding groove 37, a spring 38 is arranged between a side wall of the sliding block 39 and the bottom of the inner wall of the sliding groove 37, two groups of connectors 34 are symmetrically and fixedly connected to the side wall of the case 1 at the first watchband 4 and the second watchband 5, a second clipping hole 35 is formed through the connectors 34, an outer end of the second clipping column 36 is arranged in the second clipping hole 35, the second clamping column 36 is rotatably connected with the inner wall of the second clamping hole 35, the intelligent bracelet main body 9 is fixedly connected in the watch case 1, the intelligent bracelet main body 9 comprises a shell 12, one end in the shell 12 is provided with a storage chamber 29, emergency medicines are stored in the storage chamber 29 according to body data obtained by previous training and daily monitoring, the emergency medicines are nitroglycerin and diazepam, the emergency medicines are regularly detected and replaced, the top of the shell 12 is rotatably connected with an end cover 30 at an opening of the storage chamber 29, the shell 12 is internally and fixedly connected with a circuit board 18, the top of the circuit board is fixedly connected with a charging interface 3, a liquid crystal display screen 10, a camera assembly 11 and a brain wave sensor 17, the bottom of the circuit board 18 is fixedly connected with a body temperature sensor 13, a sweat detection sensor 14, an optical heart rate sensor 15, a GSM communication module 16, a GPS module 20 and a central processor 28, and the bottom of the inner wall of the shell 12 is fixedly connected with a plurality of supporting columns 21, the circuit board 18 is in threaded connection with the support column 21 through a bolt, one end of the bottom of the inner wall of the shell 12 is fixedly connected with the mobile power supply 19, the top of the watchcase 1 is provided with a second through hole 22, a third through hole 23, a fourth through hole 24 and an eighth through hole 40 in a penetrating manner, the bottom of the watchcase 1 is provided with a fifth through hole 25, a sixth through hole 26 and a seventh through hole 27 in a penetrating manner, and the side wall of the watchcase 1 is provided with a first through hole 2 in a penetrating manner.

The top of the liquid crystal display screen 10, the top of the camera assembly 11 and the brain wave sensor 17 penetrate through the top of the shell 12, the top of the liquid crystal display screen 10 is extended and clamped in the second through hole 22 matched with the liquid crystal display screen, the top of the camera assembly 11 is extended and clamped in the third through hole 23 matched with the liquid crystal display screen, the top of the brain wave sensor 17 is extended and clamped in the fourth through hole 24 matched with the liquid crystal display screen, the top of the brain wave sensor 17 extends out of the top of the shell 1, the camera assembly 11 scans the work ID and the face image of a pilot, an end cover 30 of the storage chamber 29 is arranged in the eighth through hole 40 matched with the storage chamber, the brain wave sensor 17 is used for monitoring the brain waves of the pilot, the body temperature sensor 13, the sweat detection sensor 14 and the optical heart rate sensor 15 all penetrate through the bottom of the shell 12, the bottom of the body temperature sensor 13 extends and is clamped in the seventh through hole 27 matched with the body temperature sensor, the bottom of the sweat detection sensor 14 extends and is clamped in the sixth through hole 26 matched with the sweat detection sensor, the bottom of the optical heart rate sensor 15 extends and is clamped in the fifth through hole 25 which is matched with the optical heart rate sensor, the bottoms of the body temperature sensor 13 and the sweat detection sensor 14 extend out of the bottom of the watch case 1, the body temperature sensor 13 is used for monitoring the body temperature of a pilot, the sweat detection sensor 14 detects the blood sugar concentration of the pilot through sweat secreted on the body surface of the pilot, and the optical heart rate sensor 15 is used for monitoring the blood pressure, the blood oxygen saturation and the pulse rate of the pilot.

The bottom of the end cover 30 is fixedly connected with a clamping head 32, the top of the side wall of the storage chamber 29 is provided with a clamping groove 31, and the side wall of the clamping groove 31 is fixedly connected with a clamping strip 33 matched with the clamping head 32.

The eighth through hole 40 is opened with a groove 41 at the opened portion of the end cap 30.

The bottom of the first watchband 4 is fixedly connected with a first clamping column 6, one end of the second watchband 5 is fixedly connected with a buckle 7, and a row of first clamping holes 8 are arranged on the second watchband 5 at equal intervals in a penetrating manner.

The first band 4, the second band 5 and the clasp 7 are all made of rubber.

The operation method of the invention comprises the following steps:

s2: the flight crew gets the monitoring equipment, a camera assembly 11 of the monitoring equipment scans the work ID and the face image of the pilot, and the obtained work ID and the face image of the pilot are sent to the diagnosis terminal through a GSM communication module 16;

s4: after receiving the successful authentication information sent by the diagnosis terminal, the central processing unit 28 in the monitoring device starts the GPS module 20 to obtain the daily trajectory of the pilot, and obtains the real-time body information of the pilot at the determined current position through the optical heart rate sensor 15, the body temperature sensor 13, the sweat detection sensor 14 and the brain wave sensor 17;

s5: the acquired body information of the pilot is sent to a diagnosis terminal through the GSM communication module 16 for diagnosis and is fed back to the staff and the pilot;

s6: the pilot himself confirms the physical condition and whether or not to swallow the emergency medicine stored in the storage room 29 based on the fed back diagnosis information.

The working principle of the invention is as follows:

when in use, the diagnosis terminal establishes a flight personnel file, the monitoring equipment inputs identification information related to the flight personnel, the flight personnel takes the corresponding monitoring equipment, the flight personnel faces the camera assembly 11 of the monitoring equipment, the camera assembly 11 scans the work ID and the face image of the pilot and sends the obtained work ID and the face image of the pilot to the diagnosis terminal through the GSM communication module 16, the diagnosis terminal receives the work ID and the face image of the pilot sent by the monitoring equipment and matches the work ID and the face image with information in a preset authentication library, the authentication success information is sent to the monitoring equipment after the received work ID and the face image of the pilot are successfully matched with the information in the preset authentication library, the central processing unit 28 in the monitoring equipment starts the GPS module 20 after receiving the authentication success information sent by the diagnosis terminal to obtain the daily track of the pilot, and at the determined current position, real-time body information of a pilot is acquired through the optical heart rate sensor 15, the body temperature sensor 13, the sweat detection sensor 14 and the brain wave sensor 17, the acquired body information of the pilot is sent to a diagnosis terminal through the GSM communication module 16 for diagnosis and is fed back to a worker and the pilot, the pilot confirms the body condition and swallows or not the emergency medicine stored in the storage chamber 29 according to the fed back diagnosis information, the second clamping column 36 is pressed, the second clamping column 36 extrudes the spring 38 through the sliding block 39, and the second clamping column 36 retracts into the sliding groove 37, so that the first watchband 4 and the second watchband 5 can be conveniently detached and installed, and the equipment maintenance is facilitated.

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 various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a pilot physical fitness health monitoring equipment, includes watchcase (1) and intelligent bracelet main part (9), its characterized in that: the watch case comprises a watch case body (1), wherein two ends of the watch case body (1) are respectively and rotatably connected with a first watchband (4) and a second watchband (5), sliding grooves (37) are symmetrically formed in two sides of a connecting section of the first watchband (4) and the second watchband (5) and the watch case body (1), a second clamping column (36) is connected in the sliding grooves (37) in a sliding mode, a sliding block (39) is fixedly connected to one end, in the first watchband (4) and the second watchband (5), of the second clamping column (36), the sliding block (39) is arranged at one end, with a large diameter, of the sliding groove (37) in the sliding mode, the sliding block (39) is connected with the inner wall of the sliding groove (37) in a sliding mode, a spring (38) is arranged between the side wall of the sliding block (39) and the bottom of the inner wall of the sliding groove (37), two groups of connectors (34) are symmetrically and fixedly connected to the side wall of the first watchcase body (1) and the second watchband (4) and the second watchband (5), and second clamping holes (35) are arranged in a penetrating mode, second card post (36) outer end is built-in second card hole (35), and second card post (36) and second card hole (35) inner wall rotate to be connected, intelligence bracelet main part (9) fixed connection is in watchcase (1), intelligence bracelet main part (9) are including casing (12), one end is provided with apotheca (29) in casing (12), casing (12) top is rotated at apotheca (29) opening part and is connected with end cover (30), fixedly connected with circuit board (18) in casing (12), circuit board top fixedly connected with charge interface (3), liquid crystal display (10), camera subassembly (11) and brain wave sensor (17), circuit board (18) bottom fixedly connected with body temperature sensor (13), sweat detection sensor (14), rhythm of the heart optical sensor (15), GSM communication module (16), GPS module (20) and central processing unit (28), a plurality of support columns (21) of casing (12) inner wall bottom fixedly connected with, circuit board (18) pass through bolt and support column (21) threaded connection, casing (12) inner wall bottom one end fixedly connected with portable power source (19), watchcase (1) top is run through and has been seted up second through-hole (22), third through-hole (23), fourth through-hole (24) and eighth through-hole (40), watchcase (1) bottom is run through and has been seted up fifth through-hole (25), sixth through-hole (26) and seventh through-hole (27), watchcase (1) lateral wall is run through and has been seted up first through-hole (2).

2. The pilot physical fitness monitoring device of claim 1, wherein: the top parts of the liquid crystal display screen (10), the camera assembly (11) and the brain wave sensor (17) penetrate through the top part of the shell (12), the top part of the liquid crystal display screen (10) is in extending clamping connection with the second through hole (22) which is matched with the liquid crystal display screen, the top part of the camera assembly (11) is in extending clamping connection with the third through hole (23) which is matched with the liquid crystal display screen, the top part of the brain wave sensor (17) is in extending clamping connection with the fourth through hole (24) which is matched with the liquid crystal display screen, the end cover (30) of the storage chamber (29) is internally arranged in the eighth through hole (40) which is matched with the storage chamber, the top part of the brain wave sensor (17) extends out of the top part of the shell (1), the body temperature sensor (13), the sweat detection sensor (14) and the optical heart rate sensor (15) all penetrate through the bottom part of the shell (12), the bottom part of the body temperature sensor (13) extends and is in clamping connection with the seventh through hole (27) which is matched with the body temperature sensor (13), and the bottom part of the sweat detection sensor (14) extends and is in clamping connection with the sixth through hole (26) which is matched with the sweat detection sensor, the bottom of the optical heart rate sensor (15) extends and is clamped in the matched fifth through hole (25), and the bottoms of the body temperature sensor (13) and the sweat detection sensor (14) extend out of the bottom of the watch case (1).

3. The pilot physical fitness monitoring device of claim 1, wherein: end cover (30) bottom fixedly connected with dop (32), draw-in groove (31) have been seted up at apotheca (29) lateral wall top, draw-in groove (31) lateral wall fixedly connected with and dop (32) looks adaptation card strip (33).

4. The pilot physical fitness monitoring device of claim 1, wherein: the eighth through hole (40) is provided with a groove (41) at the opening position of the end cover (30).

5. The pilot physical fitness monitoring device of claim 1, wherein: the bottom of the first watchband (4) is fixedly connected with a first clamping column (6), one end of the second watchband (5) is fixedly connected with a buckle (7), and a row of first clamping holes (8) are formed in the second watchband (5) in an equidistant mode in the middle line.

6. The pilot physical fitness monitoring device of claim 1, wherein: the first watchband (4), the second watchband (5) and the buckle (7) are all made of rubber.

7. The method of operating a pilot physical fitness monitoring device of claim 1, wherein: the operation method comprises the following steps:

s2: the method comprises the following steps that a flight person obtains monitoring equipment, a camera assembly (11) of the monitoring equipment scans the working ID and the face image of a pilot, and the obtained working ID and the face image of the pilot are sent to a diagnosis terminal through a GSM communication module (16);

s4: after receiving the successful authentication information sent by the diagnosis terminal, a central processing unit (28) in the monitoring equipment starts a GPS module (20) to obtain the daily trajectory of the pilot, and obtains the real-time body information of the pilot at the determined current position through an optical heart rate sensor (15), a body temperature sensor (13), a sweat detection sensor (14) and a brain wave sensor (17);

s5: the acquired physical information of the pilot is sent to a diagnosis terminal through a GSM communication module (16) for diagnosis and is fed back to the staff and the pilot;

s6: the pilot himself confirms the physical condition and whether or not to swallow the emergency medicine stored in the storage room (29) based on the fed back diagnosis information.