CN109363657B

CN109363657B - Mine worker is cardiopulmonary function detection device for motion

Info

Publication number: CN109363657B
Application number: CN201811026869.8A
Authority: CN
Inventors: 徐永生; 孙建中; 杨茂林; 万力群; 黄依涵
Original assignee: Shangrao Normal University
Current assignee: Shangrao Normal University
Priority date: 2018-09-04
Filing date: 2018-09-04
Publication date: 2021-04-20
Anticipated expiration: 2038-09-04
Also published as: CN109363657A

Abstract

The invention discloses a heart and lung function detection device for movement of mine workers, and relates to the technical field of detection equipment; a partition board is arranged above the interior of the safety helmet, a PCB is fixed on the partition board, and a control analysis module, a detection module, a power supply module and a storage module are arranged on the PCB; the power supply module is respectively and electrically connected with the control analysis module, the detection module and the storage module, and the control analysis module is connected with the detection module and the storage module; the switch is connected with the power supply module, and the switch, the power supply module, the control analysis module, the detection module and the storage module form an electric loop; the switch is embedded in the hindbrain spoon part of the safety helmet. The heart and lung exercise real-time detection device is convenient to carry, can also detect the heart and lung exercise functions of mine workers in real time, and is high in practicability.

Description

Mine worker is cardiopulmonary function detection device for motion

Technical Field

The invention relates to the technical field of detection equipment, in particular to a heart and lung function detection device for mine staff movement.

Background

The heart and lung function is the ability of the human heart to pump blood and the lung to inhale oxygen, and the ability of the two directly influences the activities of organs and muscles of the whole body, which is very important. When examining heart lung, often need go to the hospital and detect with different instruments, it needs more time to detect, and it is also inconvenient to use, the mine worker is owing to work for a long time in mine environment, it can face the invasion and attack of various mine exploitation dusts, consequently need often to move cardiopulmonary function to the mine worker and detect, in order to guarantee the healthy of mine worker, nevertheless too frequent detection and too loaded down with trivial details check out test set can bring the puzzlement for the testing process, treat to improve urgently.

Disclosure of Invention

The invention aims to provide the heart and lung function detection device for the movement of the mine workers, which is simple in structure, reasonable in design and convenient to use, is convenient to carry, can detect the heart and lung function of the movement of the mine workers in real time, and is higher in practicability.

In order to achieve the purpose, the invention adopts the technical scheme that: the breathing mask comprises a safety helmet, a partition plate, a PCB (printed circuit board), a telescopic corrugated pipe, a breathing mask, a first magnetic ring, a second magnetic ring and a switch; a partition board is arranged above the interior of the safety helmet, a PCB is fixed on the partition board, and a control analysis module, a detection module, a power supply module and a storage module are arranged on the PCB; the power supply module is respectively and electrically connected with the control analysis module, the detection module and the storage module, and the control analysis module is connected with the detection module and the storage module; the switch is connected with the power supply module, and the switch, the power supply module, the control analysis module, the detection module and the storage module form an electric loop; the switch is embedded in the hindbrain spoon part of the safety helmet; the upper end of the telescopic corrugated pipe penetrates through one side of the top of the safety helmet, the lower end of the telescopic corrugated pipe is connected with a respirator, a second magnetic ring is fixed on the edge of an outer opening of the respirator, and the second magnetic ring is matched with a first magnetic ring fixed on a back brain spoon part of the safety helmet for suction.

Furthermore, the top outer wall of safety helmet inlay and be equipped with the photovoltaic board, this photovoltaic board is connected with the power module who sets up on the PCB board.

Furthermore, a wireless sending module is further arranged on the PCB and connected with the storage module and the power supply module.

Furthermore, a groove body is formed in the upper surface of the brim of the safety helmet, a heart rate monitoring bracelet is movably embedded in the groove body, a wireless transmitter is fixed on the heart rate monitoring bracelet and is connected with a control chip in the heart rate monitoring bracelet, meanwhile, the wireless transmitter is connected with a wireless receiving module arranged on the PCB, and the wireless receiving module is connected with a wireless sending module and a power supply module; the groove body is movably embedded with a gland, and one side of the gland is hinged on the side edge of the groove body through a hinge.

Further, the clitellum one end of rhythm of the heart monitoring bracelet pass through the elasticity rope to be fixed on the inside wall of cell body.

The working principle of the invention is as follows: the cardiopulmonary detection PCB is arranged inside the safety helmet, the respiratory mask for sampling and the bellows are arranged outside the safety helmet, mine workers need to wear the safety helmet at any time when working, so that devices with the detection function can be carried along without occupying the rest parts of the body, when a certain time interval is reached, the mine workers can directly turn on a switch of a brain spoon part behind the safety helmet, turn on all modules on the PCB to work, take the respiratory mask down from the brain spoon part behind the safety helmet and place the respiratory mask in a mouth to exhale by aiming at the respiratory mask, and the bellows have the universal property and the elasticity, so that the respiratory mask can be effectively ensured to be sent to the mouth, inhaled gas enters the detection module on the PCB to be detected, detected data is transmitted to the control analysis module, and the control analysis module uploads the analyzed data to the storage module, storing the detection data; mine staff can detect the heart and lung functions of the self-movement in real time in the working process.

After adopting the structure, the invention has the beneficial effects that: the heart and lung function detection device for the movement of the mine workers, which is disclosed by the invention, is convenient to carry, can also be used for detecting the heart and lung function of the movement of the mine workers in real time, and has stronger practicability.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic diagram of the structure of the hindbrain scoop of the present invention.

Fig. 3 is a schematic structural view of a respiratory mask and a bellows according to the present invention.

FIG. 4 is a block diagram of a control module according to the present invention.

Description of reference numerals:

the device comprises a safety helmet 1, a groove body 1-1, a partition plate 2, a PCB 3, a telescopic bellows 4, a respiratory mask 5, a first magnetic ring 6, a second magnetic ring 7, a control analysis module 8, a photovoltaic panel 9, a gland 10, an elastic rope 11, a detection module 12, a power module 13, a wireless sending module 14, a wireless receiving module 15, a storage module 16, a wireless transmitter 17, a heart rate monitoring bracelet 18 and a switch 19.

Detailed Description

The invention will be further described with reference to the accompanying drawings.

Referring to fig. 1 to 4, the technical solution adopted by the present embodiment is: the breathing mask comprises a safety helmet 1, a partition plate 2, a PCB 3, a telescopic bellows 4, a breathing mask 5, a first magnetic ring 6, a second magnetic ring 7 and a switch 19; a partition plate 2 is glued on the upper portion inside the safety helmet 1, a PCB 3 is fixed on the partition plate 2 through screws, and a control analysis module 8, a detection module 12, a power supply module 13 and a storage module 16 are arranged on the PCB 3; the power module 13 is respectively electrically connected with the control analysis module 8, the detection module 12 and the storage module 16, and the control analysis module 8 is connected with the detection module 12 and the storage module 16; the switch 19 is connected with the power supply module 13, and the switch 19, the power supply module 13, the control analysis module 8, the detection module 12 and the storage module 16 form an electric loop; the switch 19 is embedded in the hindbrain spoon part of the safety helmet 1; the upper end of concertina ripple pipe 4 run through the setting in 1 top one side of safety helmet, and the junction utilizes sealed glue to realize sealing, the lower extreme of concertina ripple pipe 4 is connected with respiratory mask 5, and the junction utilizes sealed glue to realize sealing, respiratory mask 5's outer mouthful edge gluing is fixed with No. two magnetic rings 7, No. two magnetic rings 7 with glue fix and inhale with a magnetic ring 6 of spoonful portion behind safety helmet 1 and match and establish, switch 19's outside is located to this magnetic ring 6 cover, utilize a magnetic ring 7 and No. two magnetic rings 8, be fixed in respiratory mask 5 the back spoonful portion of safety helmet 1.

Further, the top outer wall of safety helmet 1 inlay and be equipped with photovoltaic board 9, the radian at 1 top of safety helmet of this photovoltaic board 9 is the same with the radian at 1 top of safety helmet, in order to guarantee that it can laminate at the top of the head of safety helmet 1, above-mentioned photovoltaic board 9 is connected with power module 13 that sets up on PCB board 3 (above-mentioned power module 13 wears to establish in the top of the head of safety helmet 1 for interconnecting link between the battery two), photovoltaic board 9 can absorb outside solar energy outdoors, and convert it into the electric energy storage in power module 13, provide the electric energy deposit.

Further, PCB board 3 on still be equipped with wireless sending module 14, this wireless sending module 14 is connected with storage module 16 and power module 13, carries out wireless upload with the detection data in storage module 16 and the heart rate monitoring bracelet 18.

Furthermore, the upper surface of the brim of the safety helmet 1 is provided with a groove body 1-1, a heart rate monitoring bracelet 18 is movably embedded in the groove body 1-1, a wireless transmitter 17 is fixed on the heart rate monitoring bracelet 18, the wireless transmitter 17 is connected with a control chip in the heart rate monitoring bracelet 18, meanwhile, the wireless transmitter 17 is connected with a wireless receiving module 15 arranged on the PCB 3, and the wireless receiving module 15 is connected with a wireless transmitting module 14 and a power module 13; the heart rate monitoring device is characterized in that a gland 10 is movably embedded in the groove body 1-1, one side of the gland 10 is hinged to the side edge of the groove body 1-1 through a hinge, and the gland 10 has the function of protecting a heart rate monitoring bracelet 18.

Furthermore, one end of the annular belt of the heart rate monitoring bracelet 18 is fixed on the inner side wall of the groove body 1-1 through the elastic rope 11, and two ends of the elastic belt 11 are respectively fixed on the groove body 1-1 and the annular belt of the heart rate monitoring bracelet 18 in an adhesive manner.

Further, the elastic band 11 is made of metal spring wires.

Furthermore, the partition board 2 is made of a plastic board with a light material.

The working principle of the specific embodiment is as follows:

a cardiopulmonary detection PCB is arranged inside a safety helmet, a respiratory mask 5 for sampling and a telescopic bellows 4 are arranged outside the safety helmet 1, mine workers need to wear the safety helmet at any time when working, so that devices with detection functions can be carried along, and other parts of the body do not need to be occupied, when a certain time interval is reached, the mine workers can directly turn on a switch 19 of a rear brain spoon part of the safety helmet 1, turn on all modules on the PCB 3 to work, take the respiratory mask 5 off the rear brain spoon part of the safety helmet 1, place the respiratory mask at a mouth and aim at the respiratory mask 5 to exhale, and the telescopic bellows 4 has universality and elasticity, so that the respiratory mask 5 can be effectively ensured to be sent to the mouth, the inhaled gas enters a detection module 12 on the PCB 3 to be detected, and the detected data are transmitted to a control analysis module 8, the control analysis module 8 uploads the analyzed data to the storage module 16, the detected data is stored (the specific model and the working principle of the module are the same as those of each module on the mainboard of the central lung detection equipment in the prior art), and meanwhile, the control analysis module 8 can transmit the stored data in the storage module 16 to a PC (personal computer) upper computer through the wireless transmission module 14, and the data is displayed, stored, compared and processed;

after the cardiopulmonary function is detected, the bellows of the telescopic bellows 4 are compressed until the telescopic bellows 4 is in the shortest state, and then the respiratory mask 5 is sucked and arranged on the first magnetic ring 7 by using the second magnetic ring 8 to be fixed; mine staff also can take out the rhythm of the heart monitoring bracelet 18 of inlaying and establishing in the brim of a hat portion, the magic subsides that utilize 18 clitellum positions of rhythm of the heart monitoring bracelet are worn at the wrist position, detect the heart rate, detected data sends for the wireless receiving module 15 that is located on PCB board 3 through wireless transmitter 17, this wireless receiving module 15 sends data to PC through wireless sending module 14 and holds the host computer, show data, operations such as save and contrast processing, mine staff can be in the course of the work, detect motion cardiopulmonary and rhythm of the heart function of oneself in real time.

After adopting above-mentioned structure, this embodiment beneficial effect does: the heart and lung function detection device for the movement of the mine workers has the advantages that the heart and lung function detection device is convenient to carry, can also be used for detecting the heart and lung function of the mine workers in real time, and is high in practicability.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent substitutions made by those skilled in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims

1. The utility model provides a mine worker is cardiopulmonary function detection device for motion which characterized in that: the breathing mask comprises a safety helmet (1), a partition plate (2), a PCB (3), a telescopic corrugated pipe (4), a breathing mask (5), a first magnetic ring (6), a second magnetic ring (7) and a switch (19); a partition plate (2) is arranged above the inner part of the safety helmet (1), a PCB (printed circuit board) (3) is fixed on the partition plate (2), and a control analysis module (8), a detection module (12), a power supply module (13) and a storage module (16) are arranged on the PCB (3); the power supply module (13) is respectively electrically connected with the control analysis module (8), the detection module (12) and the storage module (16), and the control analysis module (8) is connected with the detection module (12) and the storage module (16); the switch (19) is connected with the power supply module (13), and the switch (19), the power supply module (13), the control analysis module (8), the detection module (12) and the storage module (16) form an electric loop; the switch (19) is embedded in the hindbrain spoon part of the safety helmet (1); the upper end of the telescopic corrugated pipe (4) penetrates through one side of the top of the safety helmet (1), the lower end of the telescopic corrugated pipe (4) is connected with a breathing mask (5), a second magnetic ring (7) is fixed on the edge of the outer opening of the breathing mask (5), and the second magnetic ring (7) is matched with a first magnetic ring (6) fixed on the rear brain spoon part of the safety helmet (1) for suction;

the photovoltaic panel (9) is embedded in the outer wall of the top of the safety helmet (1), and the photovoltaic panel (9) is connected with a power module (13) arranged on the PCB (3);

the PCB (3) is also provided with a wireless transmitting module (14), and the wireless transmitting module (14) is connected with the storage module (16) and the power supply module (13);

the upper surface of the brim of the safety helmet (1) is provided with a groove body (1-1), a heart rate monitoring bracelet (18) is movably embedded in the groove body (1-1), a wireless transmitter (17) is fixed on the heart rate monitoring bracelet (18), the wireless transmitter (17) is connected with a control chip in the heart rate monitoring bracelet (18), meanwhile, the wireless transmitter (17) is connected with a wireless receiving module (15) arranged on a PCB (3), and the wireless receiving module (15) is connected with a wireless transmitting module (14) and a power supply module (13); a gland (10) is movably embedded in the groove body (1-1), and one side of the gland (10) is hinged to the side edge of the groove body (1-1) through a hinge;

one end of the ring belt of the heart rate monitoring bracelet (18) is fixed on the inner side wall of the groove body (1-1) through an elastic rope (11);

a cardiopulmonary detection PCB is arranged in the safety helmet, a respiratory mask (5) for sampling and a telescopic corrugated pipe (4) are arranged outside the safety helmet (1), mine workers need to wear the safety helmet at any time when working, so that devices with a detection function can be carried along, and other parts of a body do not need to be occupied, when a certain time interval is reached, the mine workers can directly open a switch (19) of a rear brain spoon part of the safety helmet (1), each module on the PCB (3) is opened to work, the respiratory mask (5) is taken down from the rear brain spoon part of the safety helmet (1) and placed in a mouth to be aligned with the respiratory mask (5) to exhale, and the telescopic corrugated pipe (4) has the advantages of universality and elasticity, so that the respiratory mask (5) can be effectively guaranteed to be sent to the mouth, and inhaled gas enters the detection module (12) on the PCB (3), the detection is carried out, the detected data are transmitted to the control analysis module (8), the control analysis module (8) uploads the analyzed data to the storage module (16), and the detected data are stored; mine workers can detect the heart and lung functions of their own sports in real time in the working process; the control analysis module (8) transmits the stored data in the storage module (16) to a PC (personal computer) end upper computer through the wireless transmission module (14), and the data are displayed, stored, compared and processed; after the cardiopulmonary function is detected, the ripple of the telescopic corrugated pipe (4) is compressed until the telescopic corrugated pipe (4) is in the shortest state, and then the respiratory mask (5) is sucked and arranged on the first magnetic ring (7) by utilizing the second magnetic ring (8) to be fixed;

mine staff will inlay heart rate monitoring bracelet (18) of establishing in the hat brim portion and take out, the magic subsides that utilize heart rate monitoring bracelet (18) clitellum position are worn at the wrist position, detect the heart rate, it sends wireless receiving module (15) that are located on PCB board (3) to detect data through wireless transmitter (17), this wireless receiving module (15) send data to PC end host computer through wireless sending module (14), show data, save and contrast processing operation, mine staff can be in the course of the work, detect motion cardiopulmonary and heart rate function of oneself in real time.