CN211270703U - Respirator wearing monitoring device - Google Patents

Abstract

The utility model provides a monitoring devices is worn to respirator, including central processing unit, data acquisition module, rhythm of the heart monitoring devices, respirator, telecontrol equipment, the inside respirator that is equipped with of central processing unit wears monitoring program, and telecontrol equipment can set up different speed, slope, simulation low strength motion, medium strength motion and high strength motion. The respirator is equipped with face guard pressure sensor and gas cylinder pressure sensor, the utility model provides a monitoring devices is worn to the respirator can carry out real-time detection, record and save breathing frequency, respiratory resistance, air consumption and live time isoparametric with the respirator person of wearing under various intensity of motion to carry out the analysis.

Description

Respirator wearing monitoring device

Technical Field

The utility model relates to a respirator monitoring devices technical field specifically is a monitoring devices is worn to respirator.

Background

The air respirator is a self-sufficient open type air respirator, which is widely applied to departments such as fire fighting, chemical engineering, ships, petroleum, smelting, warehouses, laboratories, mines and the like, and is used for fire extinguishment, rescue and relief work and rescue work of firemen or rescue personnel safely and effectively under various environments such as dense smoke, toxic gas, steam or oxygen deficiency.

During the use process of the respirator, on one hand, due to the difference of performances among various respirators, and on the other hand, due to the difference of lung capacity and breathing habits among various wearers, the air consumption time in the respirator air cylinders of different wearers is different. Therefore, it is necessary to detect the ventilator by a detection instrument to determine the usage time of the ventilator. However, the existing detecting instrument detects the breathing condition of the human body by controlling the movement of the artificial lung through a computer program, and the detection result cannot completely reflect the performance condition of the respirator when the human body wears the respirator for breathing, so that a user is difficult to accurately master the performance and the use time of various respirators when using the respirator, and even the life safety of the wearer is damaged.

SUMMERY OF THE UTILITY MODEL

To the problem pointed out in the background art, the utility model aims to provide a respiratory organ that can carry out real-time detection, record and save respiratory frequency, respiratory resistance, air consumption and live time isoparametric of respirator person of wearing under various intensity of motion to the analysis wears monitoring devices.

The technical scheme of the utility model is realized like this:

the utility model provides a monitoring devices is worn to respirator, includes central processing unit, data acquisition module, heart rate monitoring devices, respirator, its characterized in that: the monitoring device comprises a central processing device and is characterized in that a respirator wearing monitoring program is arranged in the central processing device, the central processing device is electrically connected with a data acquisition module, a heart rate monitoring device is electrically connected with the data acquisition module, the respirator comprises a breathing mask and a gas cylinder, the mask is provided with a sampling port and a mask pressure sensor, the mask pressure sensor is connected with the sampling port through a hose, a gas cylinder pressure sensor is arranged at an outlet of the gas cylinder, and the mask pressure sensor and the gas cylinder pressure sensor are electrically connected with the data acquisition module.

By adopting the technical scheme, when a tester tests, the heart rate monitoring device, the mask pressure sensor and the gas cylinder pressure sensor transmit collected data to the data acquisition module, the data acquisition module transmits the collected data to the central processing equipment, a respirator arranged in the central processing equipment is used for wearing a monitoring program to draw curves of respiratory resistance, gas cylinder pressure, heart rate, service time and alarm pressure on the central processing equipment immediately, the test is finished, the test data is analyzed, the respiratory habits of users are evaluated, further improvement suggestions are given, a corresponding test report is generated, and a test result is stored for later query and analysis.

The utility model discloses further set up to: the respirator is characterized by further comprising an alarm and a microphone, wherein the alarm is located on the respirator, and the microphone is electrically connected with the data acquisition module.

By adopting the technical scheme, the microphone is used for picking up the alarm sound of the alarm, so that the alarm pressure of the alarm and the remaining time after the alarm are determined.

The utility model discloses further set up to: the cloud disk is electrically connected with the central processing equipment.

By adopting the technical scheme, the central processing equipment can transmit the data and the test result to the cloud disk.

The utility model discloses further set up to: the central processing equipment is provided with a detachable storage module, and the storage module is electrically connected with the central processing equipment and the data acquisition module.

By adopting the technical scheme, the data acquisition module stores the test data to the storage module in the test process, after the test is finished, the storage module is connected with the computer, the test data is analyzed and processed by the respirator wearing monitoring program, and a test report is generated.

The utility model discloses further set up to: also included is an exercise device for testing.

By adopting the technical scheme, the movement device can set different speeds and slopes to simulate low-intensity movement, medium-intensity movement and high-intensity movement.

To sum up, the beneficial effects of the utility model are that: the utility model discloses a monitoring devices is worn to respirator when wearing the respirator through to true human body, respiratory frequency under various motion intensity, respiratory resistance, the air consumption, alarm pressure and live time isoparametric carry out real-time detection, record and save, then carry out the analysis to the data of testing result, can discover whether the person of wearing has incorrect breathing mode, can form correct breathing mode through the training, extension respirator live time, make the person of wearing can accurately master the actual performance state of the respirator of various models when using the respirator, including the live time, alarm pressure and remaining time after reporting to the police, guarantee the person of wearing's life safety.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be 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 these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention;

fig. 2 is a schematic structural diagram of a second embodiment of the present invention.

Reference numerals: 1. a central processing device; 2. a data acquisition module; 3. a heart rate monitoring device; 4. a respirator; 5. a respirator wear monitoring program; 6. a motion device; 7. a mask pressure sensor; 8. a gas cylinder pressure sensor; 9. an alarm; 10. a microphone; 11. a cloud disk; 12. a person wearing the device; 13. and a storage module.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The first embodiment is as follows:

a monitoring device is worn to respirator, as shown in fig. 1, includes central processing unit 1, data acquisition module 2, heart rate monitoring devices 3, respirator 4, telecontrol equipment 6, cloud dish 11, and central processing unit 1 is the computer, and its inside is equipped with respirator and wears monitoring program 5, and telecontrol equipment 6 is the treadmill, and telecontrol equipment 6 can set up different speed, slope, simulates low intensity motion, medium intensity motion and high intensity motion. Central processing unit 1 is connected with 2 electricity of data acquisition module, and heart rate monitoring devices 3 is connected with 2 electricity of data acquisition module, and respirator 4 includes respirator and gas cylinder, and respirator is equipped with sample connection and face guard pressure sensor 7, and face guard pressure sensor 7 adopts the hose to be connected with the sample connection, and the exit of gas cylinder is equipped with gas cylinder pressure sensor 8, and face guard pressure sensor 7 and gas cylinder pressure sensor 8 all are connected with 2 electricity of data acquisition module. The cloud disk 11 is electrically connected with the central processing device 1, and the central processing device 1 can transmit data and test results to the cloud disk 11.

Heart rate monitoring devices 3, face guard pressure sensor 7, the data transmission that gas cylinder pressure sensor 8 will gather gives data acquisition module 2, data transmission to central processing unit 1 that will gather by data acquisition module 2, wear monitoring program by setting up in the inside respirator 4 of central processing unit 1 and draw the curve of respiratory resistance, gas cylinder pressure, the heart rate, the pressure that service time and warning begin immediately on central processing unit 1, the test is finished, carry out the analysis to test data, assess user's breathing habit, and give the suggestion of further improvement, generate corresponding test report, store the test result and use for inquiry analysis later.

The respirator is characterized by further comprising an alarm 9 and a microphone 10, wherein the alarm 9 is mounted on the respirator 4, and the microphone 10 is electrically connected with the data acquisition module 2. The microphone 10 is used to pick up the alarm sound of the alarm 9 and thereby determine the alarm pressure of the alarm 9 and the time remaining after the alarm.

The respirator wearing monitoring device comprises the following use methods:

1) preparation before use: filling compressed air into an air bottle of a respirator 4, connecting the air bottle with the respirator 4 in an installing manner, and detecting whether the respirator 4 works normally or not;

2) use of: opening the central processing equipment 1, entering a respirator wearing monitoring program 5, inputting related information such as the name, age and the like of a tested person, wearing a respirator 4 by a wearing person 13, standing the sports device 6 and finishing related setting of the sports device 6, starting the sports device 6, clicking a starting test key of the respirator wearing monitoring program 5 to start testing, and when an alarm 9 starts alarming, automatically recording alarming pressure by the respirator wearing monitoring program 5;

3) and (4) ending: when the pressure of the gas cylinder is 1MPa, the respirator 4 wears a monitoring program to automatically finish the test, test data and analysis results are displayed on a screen, a trainer can store the test data and the test results, a test report can be printed, and the test data and the analysis results can be uploaded to the cloud disk 11 to be shared by other users.

Example two:

a respirator wearing monitoring device is shown in figure 2 and comprises a central processing device 1, a data acquisition module 2, a heart rate monitoring device 3, a respirator 4, a movement device 6 and a cloud disk 11, wherein the cloud disk 11 is electrically connected with the central processing device 1, and the central processing device 1 can transmit data and a test result to the cloud disk 11. The central processing equipment 1 is a computer, a respirator wearing monitoring program 5 is arranged in the central processing equipment, the motion device 6 is a treadmill, and the motion device 6 can be set to different speeds and slopes to simulate low-intensity motion, medium-intensity motion and high-intensity motion.

A storage module 12 is arranged between the central processing device 1 and the data acquisition module 2, and the storage module 12 is electrically connected with the central processing device 1 and the data acquisition module 2. The data acquisition module 2 stores the test data to the storage module 12 in the test process, the central processing unit 1 does not need to be carried during the test, after the test is finished, the storage module 12 is connected with a computer, the test data is analyzed and processed through the respirator wearing monitoring program 5, and a test report is generated.

Heart rate monitoring devices 3 is connected with 2 electricity of data acquisition module, and respirator 4 includes respirator and gas cylinder, and respirator is equipped with sample connection and face guard pressure sensor 7, and face guard pressure sensor 7 adopts the hose to be connected with the sample connection, and the exit of gas cylinder is equipped with gas cylinder pressure sensor 8, and face guard pressure sensor 7 and gas cylinder pressure sensor 8 all are connected with 2 electricity of data acquisition module.

The heart rate monitoring device 3, the face guard pressure sensor 7, the data transmission that gas cylinder pressure sensor 8 will gather gives data acquisition module 2, data transmission to storage module 12 that will gather by data acquisition module 2, after being connected storage module 12 and central processing unit 1, wear monitoring program by respirator 4 that sets up in central processing unit 1 inside and draw the curve of respiratory resistance, gas cylinder pressure, the heart rate, the pressure that service time and warning begin immediately on central processing unit 1, the test is finished, carry out the analysis to test data, assess the breathing habit of user, and give the suggestion of further improvement, generate corresponding test report, store the test result and use for the inquiry analysis of follow-up.

The respirator is characterized by further comprising an alarm 9 and a microphone 10, wherein the alarm 9 is mounted on the respirator 4, and the microphone 10 is electrically connected with the data acquisition module 2. The microphone 10 is used to pick up the alarm sound of the alarm 9 and thereby determine the alarm pressure of the alarm 9 and the time remaining after the alarm.

The respirator wearing monitoring device comprises the following use methods:

1) preparation before use: filling compressed air into an air bottle of a respirator 4, connecting the air bottle with the respirator 4 in an installing manner, and detecting whether the respirator 4 works normally or not;

2) use of: a wearer 13 wears the respirator 4, stands on the sports device 6 and completes the related setting of the sports device 6, starts the sports device 6, transmits the acquired data to the data acquisition module 2 through the heart rate monitoring device 3, the mask pressure sensor 7 and the gas cylinder pressure sensor 8, and transmits the acquired data to the storage module 12 through the data acquisition module 2;

3) and (3) analysis: connecting a storage module 12 with the central processing equipment 1, opening the central processing equipment 1, entering a respirator wearing monitoring program 5, inputting related information such as the name, age and the like of a tested person, clicking a test starting key of the respirator wearing monitoring program 5 to start testing, and when an alarm 9 starts alarming, automatically recording alarming pressure by the respirator wearing monitoring program 5;

4) and (4) ending: when the pressure of the gas cylinder is 1MPa, the respirator 4 wears a monitoring program to automatically finish the test, test data and analysis results are displayed on a screen, a trainer can store the test data and the test results, a test report can be printed, and the test data and the analysis results can be uploaded to the cloud disk 11 to be shared by other users.

The above description is only for the preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a monitoring devices is worn to respirator, includes central processing unit (1), data acquisition module (2), heart rate monitoring devices (3), respirator (4), its characterized in that: the monitoring device is characterized in that a respirator wearing monitoring program (5) is arranged inside the central processing equipment (1), the central processing equipment (1) is electrically connected with the data acquisition module (2), the heart rate monitoring device (3) is electrically connected with the data acquisition module (2), the respirator (4) comprises a breathing mask and a gas cylinder, the mask is provided with a sampling port and a mask pressure sensor (7), the mask pressure sensor (7) is connected with the sampling port through a hose, a gas cylinder pressure sensor (8) is arranged at the outlet of the gas cylinder, and the mask pressure sensor (7) and the gas cylinder pressure sensor (8) are electrically connected with the data acquisition module (2).

2. The respirator wear monitoring device of claim 1, wherein: the respirator is characterized by further comprising an alarm (9) and a microphone (10), wherein the alarm is located on the respirator (4), and the microphone (10) is electrically connected with the data acquisition module (2).

3. The respirator wear monitoring device of claim 1, wherein: the cloud disk (11) is further included, and the cloud disk (11) is electrically connected with the central processing device (1).

4. The respirator wear monitoring device of claim 1, wherein: the central processing device (1) is provided with a detachable storage module (12), and the storage module (12) is electrically connected with the central processing device (1) and the data acquisition module (2).

5. The respirator wear monitoring device of claim 1, wherein: also comprises a movement device (6) for testing.

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