CN112657144A - Respiration training device for department of respiration and use method - Google Patents

Abstract

The invention discloses a respiration training device for a respiration department and a using method thereof, wherein the respiration training device comprises a rack, a first bottom plate, a fixed suspension, an oxygen inhalation assembly, a second bottom plate, a guardrail frame, a top frame, a respiration assembly and a disinfection assembly; the breathing training device is simple in structure and small in size; the breathing training device can conveniently perform breathing and inspiration training, has good training effect, and is convenient for observing the breathing and breathing effects; moreover, oxygen supplementation can be carried out after the completion of the inspiration and expiration training, thereby improving the training effect; simultaneously, also have sterile function, can be with the cover disinfection of breathing in after using, improve the sanitary safety effect of using.

Description

Respiration training device for department of respiration and use method

Technical Field

The invention relates to the field of medical equipment, in particular to a respiration training device for a respiration department and a using method thereof.

Background

When a person inhales normally, the diaphragm contracts and the external intercostal muscles contract, and when the person inhales forcefully, the person also needs to inhale auxiliary muscles such as the trapezius muscles and the scalene muscles, so that the chest is widened and lifted as a result of the contraction of the muscles, and the chest space is expanded to the limit; the mechanism of exhalation is due to pressure differences as with inhalation, but exhalation is due to the pressure in the lungs being greater than atmospheric pressure. When the diaphragm and the external intercostal muscles are relaxed, the thoracic cavity becomes small, the pressure in the lung becomes large, and therefore air is spitted out of the body; however, when the external air flow is impeded, or for some patients who have or suffer from chronic lung disease, exhalation is not entirely a relaxing process, requiring the participation of the exhalation muscles; when the patient exhales forcefully, the intercostal muscles and the abdominal muscles responsible for the exhalation begin to contract; the contraction of the internal intercostal muscles enables the ribs to move downwards, and the contraction of the abdominal muscles also enables the ribs to move downwards to press the internal organs of the abdominal cavity, so that the diaphragm is forced to protrude upwards, the volume of the thoracic cavity is reduced to the minimum, the internal pressure of the lung is increased to the maximum, and the carbon dioxide in the body can be exhaled in a large amount.

For patients in the respiratory department, when a user inhales through breathing training, the user needs to exert effort to resist the resistance of the inhalation so as to increase the inspiratory muscle strength and the respiratory muscle strength and tolerance; when a user can exercise the muscles of the lung through breathing training, the strength and the tolerance of the muscles of the expiration can be improved, and the vital capacity is enhanced; respiratory training is a significant aid to the efficiency of gas exchange in the body. The respiratory training device in the prior art has a simple and crude structure, a single function and inconvenient use; when in use, the operation difficulty is large, and the training is not easy, so that the design of the respiratory training device for the department of respiration and the use method are necessary.

Disclosure of Invention

The invention aims to provide a respiration training device for a respiration department and a using method thereof, which have simple structure and small volume; the breathing training device can conveniently perform breathing and inspiration training, has good training effect, and is convenient for observing the breathing and breathing effects; moreover, oxygen supplementation can be carried out after the completion of the inspiration and expiration training, thereby improving the training effect; simultaneously, also have sterile function, can be with the cover disinfection of breathing in after using, improve the sanitary safety effect of using.

The purpose of the invention can be realized by the following technical scheme:

a respiration training device for a respiration department comprises a rack, a first bottom plate, a fixed suspension, an oxygen inhalation assembly, a second bottom plate, a guardrail frame, a top frame, a respiration assembly and a disinfection assembly, wherein the first bottom plate is fixedly installed on one side of the top end surface of the rack through screws, the fixed suspension is installed on one side of the top end surface of the first bottom plate, the oxygen inhalation assembly is installed on one side of the fixed suspension, the second bottom plate is fixedly installed on the other side of the top end surface of the rack through screws, the guardrail frame is fixedly installed on the outer side of the top of the second bottom plate through screws, the top frame is installed above the top of the guardrail frame, the disinfection assembly is fixedly installed on the top end surface of the top frame, and the respiration assembly is installed in the center of the top of;

the breathing assembly comprises a first observation tube, an infrared distance measuring device, an exhaust guide tube, a lifting tube, a gas baffle plate, a tension spring, a second observation tube, a floating ball, a gas guide tube, a valve seat, a rotating baffle plate, a limiting clamp plate and a second gas suction cover, wherein the first observation tube and the second observation tube are respectively fixedly installed on the top end surface of a second bottom plate through screws, the lifting tube is fixedly installed at the center of the inner side of the first observation tube and the center of the inner side of the second observation tube, the infrared distance measuring device is fixedly installed at the bottom of the lifting tube, the exhaust guide tube is installed on the outer wall of the bottom of the lifting tube in an inserting mode, the tension spring is installed at the top of the inner side of the lifting tube in the first observation tube in a connecting mode, the gas baffle plate is installed on the end surface of the bottom of the tension spring in a connecting mode, the floating ball is, the one end of air duct is connected and is installed the valve seat, the inside central authorities of valve seat install the rotation baffle, the inside of valve seat is located the outside fixed mounting who rotates the baffle and is had spacing cardboard, two the one end of air duct is provided with the discharge, and the one end grafting of discharge installs the second cover of breathing in.

As a further scheme of the invention: oxygen uptake subassembly includes oxygen cylinder, air outlet valve, oxygen hose, joint frame and first gas hood of inhaling, the top end face at first bottom plate is installed to the oxygen cylinder, the air outlet valve is installed in the top connection of oxygen cylinder, the top connection of air outlet valve installs oxygen hose, two the joint frame passes through screw fixed mounting in the terminal surface one side of fixed suspension, and oxygen hose's one end is pegged graft and is installed the inside at the joint frame, oxygen hose's the other end is pegged graft and is installed first gas hood of inhaling.

As a further scheme of the invention: the disinfection component comprises a disinfection box, a disinfection lamp plate, a disinfection chamber and a box door cover plate, the disinfection box is fixedly installed on the top end face of the top frame through screws, the disinfection chamber is arranged inside the disinfection box, the disinfection lamp plate is fixedly installed at the bottom of the inner side of the disinfection chamber through screws, and the box door cover plate is fixedly installed on one side of the disinfection box through hinges.

As a further scheme of the invention: the terminal surface central authorities of guardrail frame fixedly mounted have the crossbeam pole, and the outside fixed mounting of crossbeam pole has the display, display and infrared distance meter electric connection.

As a further scheme of the invention: the top of the rotating baffle is provided with a rotating pin in an inserting mode, and one end of the rotating pin is arranged inside the valve seat in an inserting mode.

As a further scheme of the invention: the center of the top end face of the guardrail frame is fixedly provided with a support rod and an inclined strut frame through welding, and the tops of the support rod and the inclined strut frame are fixedly connected with the top frame.

As a further scheme of the invention: the bottom end face of the rack is all fixedly provided with bearing seats all around, and the bottom end face of each bearing seat is attached with an anti-skidding bottom pad.

A method for using a respiration training device for a respiration department is characterized in that a frame can have a stable anti-skidding supporting effect through a bearing seat and an anti-skidding bottom pad arranged at the bottom of the bearing seat; the fixed suspension and the oxygen inhalation assembly on the top of the first bottom plate can be used for oxygen inhalation therapy, the breathing assembly on the top of the second bottom plate is used for breathing training, and the disinfection assembly on the top of the top frame can be used for disinfecting the first air inhalation cover and the second air inhalation cover, so that the sanitary safety is improved; when training is carried out, the second air suction cover is attached to the mouth part and the nose part, when air is sucked, the rotating baffle can be limited through the limiting clamping plate in the valve seat connected with the air guide pipe at the top of the first observation cylinder, the rotating baffle is prevented from rotating, the second air suction cover can be sucked up through the suction force in the valve seat connected with the air guide pipe at the top of the second observation cylinder, the second air suction cover rotates in the valve seat through the rotating pin, the continuous suction force can suck up the floating ball of the lifting pipe in the second observation cylinder through the valve seat, the floating ball is lifted up in the lifting pipe, the lifting distance of the floating ball can be measured through the infrared range finder in the second observation cylinder, the display on one side of the guardrail frame is used for displaying, the outside air is communicated with the outside through the exhaust guide pipe on one side of the second observation cylinder, when air is exhaled, the air is blown to the air guide pipe through the air collection pipe, inside the valve seat connected with the gas guide tube at the top of the first observation tube, gas can blow to the rotating baffle inside the valve seat, the gas is conveyed to the inside of the lifting tube inside the first observation tube through the gas guide tube at the top of the first observation tube, the gas pushes the tension spring and the gas baffle to move downwards, the distance of the gas baffle moving downwards can be measured through the infrared distance measuring device inside the first observation tube and then is displayed through the display on one side of the guardrail frame, after the use is finished, the first gas suction cover and the oxygen hose can be taken off from the clamping frame on one side of the fixed suspension frame, the gas outlet valve is opened, so that the oxygen inside the oxygen tank can be conveyed to a user through the oxygen hose to supplement oxygen, the second gas suction cover and the first gas suction cover after the use are placed inside the disinfection chamber inside the disinfection box, then the box door cover plate is closed, the second gas suction cover and the first gas suction cover can be disinfected and sterilized through the disinfection lamp plate, thereby improving the hygienic use.

The invention has the beneficial effects that: the respiration training device for the department of respiration has a simple structure and a small volume; when the breathing training device is used, the breathing assembly can be used for conveniently carrying out expiration and inspiration training, the training effect is good, and the inspiration and expiration effects can be conveniently observed; meanwhile, the disinfection component has a disinfection function, so that the used air suction cover can be disinfected, and the sanitary and safe effect of use is improved; the using method of the invention has simple and rapid operation steps in the using process, is convenient for people of different ages to use, and can supplement oxygen after completing the inspiration and expiration training through the oxygen inhalation component, thereby improving the training effect.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a first overall structural schematic of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a third overall structural schematic of the present invention;

FIG. 4 is an overall front view of the present invention;

FIG. 5 is an overall side view of the present invention;

in the figure: 1. a frame; 2. a first base plate; 3. a fixed suspension; 4. an oxygen inhalation assembly; 5. a second base plate; 6. a guardrail frame; 7. a top frame; 8. a respiratory component; 9. a sterilizing assembly; 10. a load bearing seat; 41. an oxygen tank; 42. an air outlet valve; 43. an oxygen hose; 44. a clamping frame; 45. a first inspiratory mask; 81. a first observation cylinder; 82. an infrared range finder; 83. an exhaust conduit; 84. a lifting pipe; 85. a gas baffle; 86. a tension spring; 87. a second observation tube; 88. floating the ball; 89. an air duct; 810. a valve seat; 811. rotating the baffle; 812. a limiting clamping plate; 813. a second suction hood; 91. a sterilizing box; 92. a sterilizing lamp panel; 93. a sterilization chamber; 94. a cover plate of the box door.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood 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.

As shown in fig. 1-5, a respiration training device for a respiration department comprises a frame 1, a first bottom plate 2, a fixed suspension 3, an oxygen inhalation module 4, a second bottom plate 5, a guardrail frame 6, a top frame 7, a respiration module 8 and a disinfection module 9, wherein the first bottom plate 2 is fixedly installed on one side of the top end surface of the frame 1 through screws, the fixed suspension 3 is installed on one side of the top end surface of the first bottom plate 2, the oxygen inhalation module 4 is installed on one side of the fixed suspension 3, the second bottom plate 5 is fixedly installed on the other side of the top end surface of the frame 1 through screws, the guardrail frame 6 is fixedly installed on the outer side of the top of the second bottom plate 5 through screws, the top frame 7 is installed above the top of the guardrail frame 6, the disinfection module 9 is fixedly installed on the top end surface of the top frame 7, and the respiration module;

the respiration component 8 comprises a first observation tube 81, an infrared distance measuring device 82, an exhaust guide pipe 83, a lifting tube 84, a gas baffle plate 85, a tension spring 86, a second observation tube 87, a floating ball 88, a gas guide pipe 89, a valve seat 810, a rotating baffle 811, a limiting clamping plate 812 and a second gas suction cover 813, wherein the first observation tube 81 and the second observation tube 87 are respectively fixedly installed on the top end surface of the second bottom plate 5 through screws, the lifting tube 84 is fixedly installed at the center of the inner sides of the first observation tube 81 and the second observation tube 87, the infrared distance measuring device 82 is fixedly installed at the bottom of the lifting tube 84, the exhaust guide pipe 83 is installed on the outer wall of the bottom of the lifting tube 84 in an inserting manner, the tension spring 86 is installed at the top of the inner side of the lifting tube 84 in the first observation tube 81 in a connecting manner, the gas baffle plate 85 is installed at the end surface of the bottom of the tension spring 86 in a connecting manner, the gas-guide pipe 89 is installed in the grafting of the top of lift pipe 84, and the one end of gas-guide pipe 89 is connected and is installed valve seat 810, and the inside central authorities of valve seat 810 install rotation baffle 811, and the inside of valve seat 810 is located the outside fixed mounting who rotates baffle 811 and has spacing cardboard 812, and the one end of two gas-guide pipes 89 is provided with the collecting duct, and the one end grafting of collecting duct installs the second cover 813 of breathing in.

As an embodiment of the present invention, the oxygen inhalation module 4 includes an oxygen tank 41, an air outlet valve 42, an oxygen hose 43, a clamping frame 44 and a first oxygen inhalation mask 45, the oxygen tank 41 is installed on the top end surface of the first base plate 2, the air outlet valve 42 is installed on the top of the oxygen tank 41 in a connected manner, the oxygen hose 43 is installed on the top of the air outlet valve 42 in a connected manner, the two clamping frames 44 are fixedly installed on one side of the end surface of the fixed suspension 3 through screws, one end of the oxygen hose 43 is installed in the clamping frame 44 in an inserted manner, the other end of the oxygen hose 43 is installed in a first oxygen inhalation mask 45 in an inserted manner, after the first oxygen inhalation mask 45 and the oxygen hose 43 are taken off from the clamping frame 44 on one side of the fixed suspension 3, the air outlet valve 42 is opened, so that oxygen in the oxygen tank 41 can.

As an embodiment of the present invention, the sterilization assembly 9 includes a sterilization box 91, a sterilization lamp panel 92, a sterilization chamber 93, and a box door cover plate 94, the sterilization box 91 is fixedly mounted on the top end surface of the top frame 7 by screws, the sterilization chamber 93 is formed inside the sterilization box 91, the sterilization lamp panel 92 is fixedly mounted on the bottom of the inner side of the sterilization chamber 93 by screws, the box door cover plate 94 is fixedly mounted on one side of the sterilization box 91 by hinges, the second suction hood 813 and the first suction hood 45 after use are placed inside the sterilization chamber 93 inside the sterilization box 91, and then the box door cover plate 94 is closed, so that the second suction hood 813 and the first suction hood 45 can be sterilized and disinfected by the sterilization lamp panel 92, thereby improving the sanitation of use.

As an embodiment of the present invention, a beam rod is fixedly installed in the center of the end surface of the guardrail frame 6, a display is fixedly installed on the outer side of the beam rod, the display is electrically connected to the infrared distance measuring device 82, and the distance that the air baffle 85 moves down and the distance that the floating ball 88 rises can be measured by the infrared distance measuring device 82 and then displayed by the display on one side of the guardrail frame 6, thereby improving convenience of display.

As an embodiment of the present invention, a rotation pin is inserted into the top of the rotation baffle 811, and one end of the rotation pin is inserted into the valve seat 810, so that the rotation baffle 811 is conveniently rotated, thereby facilitating air intake and air exhaust.

As an embodiment of the present invention, the center of the top end surface of the guardrail frame 6 is fixedly provided with a support rod and an angle bracket by welding, and the tops of the support rod and the angle bracket are fixedly connected with the top frame 7, so that the structural stability of the top frame 7 can be improved by the support rod and the angle bracket.

As an embodiment of the present invention, the bearing seats 10 are fixedly installed around the bottom end surface of the rack 1, and the bottom end surface of the bearing seat 10 is attached with the anti-skid bottom pad, so that the rack 1 has a stable anti-skid supporting effect through the bearing seats 10 and the anti-skid bottom pads installed at the bottom of the bearing seats 10.

A method for using a respiration training device for a respiration department is characterized in that a frame 1 can have a stable anti-skidding supporting effect through a bearing seat 10 and an anti-skidding bottom pad arranged at the bottom of the bearing seat 10; the fixed suspension 3 and the oxygen inhalation assembly 4 on the top of the first bottom plate 2 can be used for oxygen inhalation therapy, the breathing assembly 8 on the top of the second bottom plate 5 is used for breathing training, and the disinfection assembly 9 on the top of the top frame 7 can be used for disinfecting the first air inhalation cover 45 and the second air inhalation cover 813, so that the sanitation and safety are improved; when training is carried out, the second air suction cover 813 is attached to a mouth part and a nose part, when air is sucked, the rotating baffle 811 can be limited through the limiting clamping plate 812 in the valve seat 810 connected with the air guide pipe 89 at the top of the first observation tube 81, the rotating baffle 811 is prevented from rotating, the second air suction cover 813 can be sucked up through suction force in the valve seat 810 connected with the air guide pipe 89 at the top of the second observation tube 87, the second air suction cover 813 can rotate in the valve seat 810 through the rotating pin, the continuous suction force can suck up the floating ball 88 of the lifting pipe 84 in the second observation tube 87 through the valve seat 810, the floating ball 88 can rise in the lifting pipe 84, the distance of the rising of the floating ball 88 can be measured through the infrared distance measuring device 82 in the second observation tube 87, the display device on one side of the guardrail frame 6 can display outside air, and the outside air can flow through the exhaust pipe 83 on one side of the second observation tube 87, when the patient exhales, the exhaled air is blown to the air guide pipe 89 through the air collecting pipe, the air is blown to the rotary baffle 811 inside the air guide pipe 89 at the top of the first observation cylinder 81 inside the valve seat 810, the air is conveyed to the inside of the lifting pipe 84 inside the first observation cylinder 81 through the air guide pipe 89 at the top of the first observation cylinder 81, the air pushes the tension spring 86 and the air baffle 85 to move downwards, the distance of the downward movement of the air baffle 85 can be measured through the infrared distance meter 82 inside the first observation cylinder 81, and then the measured distance is displayed through the display at one side of the guardrail frame 6, after the patient is used, the first air suction hood 45 and the oxygen hose 43 can be taken off from the clamping frame 44 at one side of the fixed suspension 3, the air outlet valve 42 is opened, so that the oxygen inside the oxygen tank 41 can be conveyed to a user through the oxygen hose 43 for oxygen supplement, and the second air suction hood 813 and the first air suction hood 45 after the use are placed inside the disinfection chamber 93 inside the disinfection box 91, then, the door cover 94 is closed, and the second air suction hood 813 and the first air suction hood 45 can be sterilized by the sterilizing lamp panel 92, so that the sanitation in use is improved.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (8)

1. The respiration training device for the department of respiration is characterized by comprising a rack (1), a first base plate (2), a fixed suspension (3), an oxygen inhalation component (4), a second base plate (5), a guardrail frame (6), a top frame (7), a respiration component (8) and a disinfection component (9), wherein the first base plate (2) is fixedly installed on one side of the top end surface of the rack (1) through screws, the fixed suspension (3) is installed on one side of the top end surface of the first base plate (2), the oxygen inhalation component (4) is installed on one side of the fixed suspension (3), the second base plate (5) is fixedly installed on the other side of the top end surface of the rack (1) through screws, the guardrail frame (6) is fixedly installed on the outer side of the top of the second base plate (5) through screws, the top frame (7) is installed above the top of the guardrail frame (6), and the disinfection component (9) is fixedly installed on the top end surface of the top frame, a breathing component (8) is arranged in the center of the top of the second bottom plate (5);

the respiration component (8) comprises a first observation cylinder (81), an infrared distance meter (82), an exhaust guide pipe (83), a lifting pipe (84), a gas baffle plate (85), a tension spring (86), a second observation cylinder (87), a floating ball (88), a gas guide pipe (89), a valve seat (810), a rotating baffle plate (811), a limiting clamping plate (812) and a second gas suction cover (813), wherein the first observation cylinder (81) and the second observation cylinder (87) are respectively fixedly installed on the top end surface of the second base plate (5) through screws, the lifting pipe (84) is fixedly installed at the center of the inner sides of the first observation cylinder (81) and the second observation cylinder (87), the infrared distance meter (82) is fixedly installed at the bottom of the lifting pipe (84), the exhaust guide pipe (83) is installed on the outer wall of the bottom of the lifting pipe (84) in an inserting manner, the tension spring (86) is installed at the top of the inner side of the lifting pipe (84) in the first observation cylinder (81), and the bottom terminal surface of tension spring (86) is connected and is installed gas baffle (85), the second is observed a section of thick bamboo (87) the inboard bottom of inside tedge (84) and is installed and float ball (88), air duct (89) are installed in the grafting of the top of tedge (84), valve seat (810) is installed in the connection of the one end of air duct (89), the inside central authorities of valve seat (810) install rotation baffle (811), the inside of valve seat (810) is located the outside fixed mounting who rotates baffle (811) and has spacing cardboard (812), two the one end of air duct (89) is provided with the gas collecting pipe, and the one end of gas collecting pipe is pegged graft and is installed second cover (813) of breathing in.

2. The respiration training device for the department of respiration of claim 1, wherein the oxygen inhalation module (4) comprises an oxygen tank (41), an air outlet valve (42), an oxygen hose (43), a clamping frame (44) and a first air inhalation mask (45), the oxygen tank (41) is installed on the top end face of the first base plate (2), the air outlet valve (42) is installed at the top of the oxygen tank (41), the oxygen hose (43) is installed at the top of the air outlet valve (42), the clamping frame (44) is installed on one side of the end face of the fixed suspension frame (3) through screw fixation, one end of the oxygen hose (43) is installed inside the clamping frame (44) in an inserting mode, and the first air inhalation mask (45) is installed at the other end of the oxygen hose (43) in an inserting mode.

3. The respiration training device for the department of respiration as claimed in claim 1, wherein the disinfection component (9) comprises a disinfection box (91), a disinfection lamp panel (92), a disinfection chamber (93) and a box door cover plate (94), the disinfection box (91) is fixedly mounted on the top end face of the top frame (7) through screws, the disinfection chamber (93) is arranged inside the disinfection box (91), the disinfection lamp panel (92) is fixedly mounted at the bottom of the inner side of the disinfection chamber (93) through screws, and the box door cover plate (94) is fixedly mounted on one side of the disinfection box (91) through hinges.

4. The respiration training device for the department of respiration as claimed in claim 1, wherein a beam rod is fixedly mounted in the center of the end surface of the guardrail frame (6), a display is fixedly mounted on the outer side of the beam rod, and the display is electrically connected with the infrared distance meter (82).

5. The respiration training device for department of respiration as claimed in claim 1, wherein the top of the rotation baffle (811) is inserted with a rotation pin, and one end of the rotation pin is inserted with the inside of the valve seat (810).

6. The respiration training device for the department of respiration as claimed in claim 1, wherein the center of the top end surface of the guardrail frame (6) is fixedly provided with a support rod and an inclined bracket by welding, and the tops of the support rod and the inclined bracket are fixedly connected with the top frame (7).

7. The respiration training device for the department of respiration as claimed in claim 1, wherein the bottom end face of the frame (1) is fixedly provided with a bearing seat (10) all around, and the bottom end face of the bearing seat (10) is fitted with an anti-skid bottom pad.

8. The using method of the respiration training device for the department of respiration is characterized in that a rack (1) can have a stable anti-skidding supporting effect through a bearing seat (10) and an anti-skidding bottom pad arranged at the bottom of the bearing seat (10); the oxygen inhalation therapy can be carried out through the fixed suspension (3) and the oxygen inhalation assembly (4) on the top of the first bottom plate (2), the breathing training can be carried out through the breathing assembly (8) on the top of the second bottom plate (5), and the first air inhalation cover (45) and the second air inhalation cover (813) can be sterilized through the sterilizing assembly (9) on the top of the top frame (7), so that the sanitary safety is improved; when training is carried out, the second air suction cover (813) is attached to a mouth part and a nose part, when air is sucked, the rotating baffle (811) can be limited through the limiting clamping plate (812) inside the valve seat (810) connected with the air guide pipe (89) at the top of the first observation tube (81), the rotating baffle (811) is prevented from rotating, the second air suction cover (813) can be sucked up through the suction force inside the valve seat (810) connected with the air guide pipe (89) at the top of the second observation tube (87), the second air suction cover (813) can rotate inside the valve seat (810) through the rotating pin, the continuous suction force can suck up the floating ball (88) of the lifting pipe (84) inside the second observation tube (87) through the valve seat (810), the floating ball (88) is lifted up inside the lifting pipe (84), the distance of the floating ball (88) can be measured through the infrared distance meter (82) inside the second observation tube (87), and then the distance can be displayed through a display on one side of the guardrail frame (6), the outside air is circulated with the outside through an exhaust guide pipe (83) on one side of a second observation cylinder (87), when the outside air exhales, the exhaled air is blown to an air guide pipe (89) through an air collecting pipe, the air can be blown to a rotary baffle plate (811) inside an air valve seat (810) connected with the air guide pipe (89) at the top of a first observation cylinder (81), the air is conveyed to the inside of an ascending and descending pipe (84) inside the first observation cylinder (81) through the air guide pipe (89) at the top of the first observation cylinder (81), the air pushes a tension spring (86) and an air baffle plate (85) to move downwards, the distance of the air baffle plate (85) moving downwards can be measured through an infrared distance measuring device (82) inside the first observation cylinder (81), then the display is displayed through a display on one side of a guardrail frame (6), after the use is completed, a first air suction hood (45) and an oxygen hose (43) can be taken down from a clamping frame (44) on one side of a fixed suspension frame (3), open air outlet valve (42) for the inside oxygen of oxygen cylinder (41) can be carried for the user and carry out the oxygenating through oxygen hose (43), and second after the use cover (813) and first cover (45) of breathing in place inside disinfection room (93) of disinfect box (91), again with chamber door apron (94) closure, can inhale cover (813) and first cover (45) of breathing in to the second through disinfection lamp plate (92) and carry out the disinfection bacterium, thereby improve the sanitary nature of use.

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