CN113546378A - Marathon-based heart-lung exercise device and exercise method thereof - Google Patents

Abstract

The invention belongs to the technical field of cardiopulmonary exercise, and particularly relates to a cardiopulmonary exercise device based on marathon and an exercise method thereof. According to the invention, through the arranged temperature adjusting assembly, a user can conveniently control and start the semiconductor refrigerator or the micro-power heating wire according to the requirement, the internal temperature of the air duct is adjusted, the display processing is carried out on the temperature display screen on the controller by means of the temperature sensor, and the internal temperature in the air duct is adjusted.

Description

Marathon-based heart-lung exercise device and exercise method thereof

Technical Field

The invention relates to the technical field of cardiopulmonary exercise, in particular to a cardiopulmonary exercise device based on marathon and an exercise method thereof.

Background

The heart and lung function is good, and the health operation can be realized by reflecting the main functions of the body. Cardiopulmonary function refers to a person's ability to take oxygen and convert it into energy. The whole process involves the functions of blood production and pumping of the heart, the ability of the lungs to take oxygen and exchange gas, the efficiency of the blood circulation system to carry oxygen to various parts of the body, and the function of the muscles to use this oxygen. The whole body of a human body needs to rely on oxygen to burn energy stored in the body, so that the energy is changed into heat energy, and organs and muscles can move only by obtaining the heat energy. Oxygen is inhaled from the lungs, so the lung volume and activity times are important; the heart is responsible for delivering oxygen to various organs and parts through the blood circulation system, so the strength of the heart pulsation affects the blood flow. The requirement of oxygen is very large when the human body moves, so the exercise capacity of the heart and the lung can be tested most.

The marathon long distance race is a very popular long distance race event in the world, and has a distance of 26 miles 385 yards, and is converted into 42.195 kilometers. The traditional Chinese medicine composition comprises three types of full-range marathon, half-range marathon and quarter marathon. The game of marathons is the most popular for the whole course, and marathons are generally mentioned, i.e. for the whole course. In the marathon competition, there are high demands on the cardiopulmonary function of the competitors. Marathon sportsman often need carry out cardiopulmonary exercise to guarantee the intensity of self cardiopulmonary function, traditional cardiopulmonary exercise device theory of generality is comparatively simple, in its training process, the influence factor of control regulation is comparatively single, generally only temper personnel at the respiratory resistance that adapts to the difference, improve the cardiopulmonary function of self, thereby it is good inadequately to temper the effect, in addition, marathon has the match throughout the year, therefore temper personnel at different temperatures, the adaptability of different respiratory resistance, just seem to be especially important.

There is therefore a need for a marathon-based cardiopulmonary exercise device and method of exercising that addresses the above-mentioned problems.

Disclosure of Invention

The invention provides a cardiopulmonary exercise device based on marathon and an exercise method thereof, and aims to solve the technical problems that the principle of the traditional cardiopulmonary exercise device is simple, and the influence factor of control and adjustment is single in the training process.

The invention provides a Malassen-based cardiopulmonary exercise device, which comprises an air duct, a breathing component, an adjusting mechanism and a storage running component, wherein the breathing component is fixedly connected to one end of the air duct, the adjusting mechanism is arranged in the air duct, a first supporting plate and a second supporting plate are respectively and fixedly arranged on two sides of the outer wall of the bottom of the air duct, reinforcing components are respectively arranged at two ends of one opposite side of the first supporting plate and the second supporting plate, the air duct comprises a bucket-shaped end, a first inclined plane end, a flat plane end and a second inclined plane end, the adjusting mechanism comprises a threaded support rod connected to the air duct through threads, a guide block is fixedly arranged on the inner wall of one end of the first inclined plane end, two ends of the guide block are respectively connected with a guide rod in a sliding manner, the end parts of the two guide rods are fixedly provided with a same movable end plate, and a balance component is arranged on the movable end plate close to the edge, the temperature control device is characterized in that the same connecting spring is fixedly mounted on one side, opposite to the guide block, of the movable end plate, a second air duct and a first air duct are fixedly mounted on the outer wall of one side of the movable end plate and the inner wall of one end of the second inclined plane end respectively, and a temperature adjusting assembly is mounted on the inner wall of one end of the second inclined plane end.

Preferably, the adjusting mechanism further comprises a snap ring plate fixedly installed on the outer wall of one side of the inclined plane end, the inner wall of the snap ring plate is rotatably connected with an adjusting outer disc, adjusting holes distributed equidistantly are formed in the opposite side of the adjusting outer disc and the opposite side of the inclined plane end II, and the adjusting holes are circular.

Preferably, the center of the circle of the adjusting outer disc is provided with a through hole with a section specification larger than that of the threaded support rod, an outer cylinder is fixedly mounted on the outer wall of one side of the adjusting outer disc, and a semi-convex ring used for conveniently rotating the outer cylinder and adjusting the outer disc is fixedly mounted on the outer wall of the circumference of the outer cylinder.

Preferably, the temperature adjusting assembly comprises a temperature sensor fixedly mounted on the inner wall of one end of the hopper-shaped end, and the inner wall of the inclined plane end II is respectively and fixedly mounted with a heat conducting ring plate and a micro-power heating wire.

Preferably, the temperature adjusting assembly further comprises heat exchange annular sheets fixedly mounted on the inner walls of the heat conducting annular plate and the micro-power heating wire, and the heat exchange annular sheets are respectively and fixedly mounted on opposite sides of the heat conducting annular plate and the micro-power heating wire with connecting longitudinal sheets distributed equidistantly.

Preferably, the installing port has been seted up on one side that two tops of inclined plane end are close to the heat conduction ring board, and the inner wall fixed mounting of installing port has a semiconductor cooler, the refrigeration end of semiconductor cooler is towards the heat conduction ring board, one side fixed mounting that is close to the top of backup pad one has the installation diaphragm, and the relative one side fixed mounting of installation diaphragm and bucket form end has the controller, the surface of controller is provided with temperature monitor, the signal input part passing signal line and temperature sensor's of controller signal output part electric connection.

Preferably, the breathing assembly comprises a connecting hose fixedly connected with the air duct, a breathing mask is fixedly mounted at the end of the connecting hose, and an elastic belt is fixedly mounted at one end of the breathing mask.

Preferably, accomodate formula running assembly includes fixed mounting in the bottom board of backup pad one and two bottoms of backup pad, and one side outer wall of bottom board has the base plate through hinged joint, there is the frame seat one end of base plate through hinged joint, and the inside of frame seat is provided with the motion area, the one end inner wall that the frame seat is close to the motion area is fixed with the backing plate, there is electric telescopic handle two frame seat and relative one side of base plate through hinged joint, and the relative one side both ends of frame seat and backup pad one all have electric telescopic handle one through hinged joint, electric telescopic handle one is close to the one end outer wall fixed mounting of backup pad one and has the rubber chimb that the equidistance distributes.

Preferably, the balance assembly includes that the equidistance is seted up in the chamber groove of moving the end plate, and the equal fixed mounting in bottom in chamber groove has compression spring, the equal fixed mounting of compression spring's the other end have with chamber inslot wall sliding connection's traveller, and the tip of traveller all rotates and is connected with the pulley, strengthen the subassembly and include the oval circle at backup pad one and two relative one side both ends, and oval circle and backup pad one and two relative one side equal fixed mounting of backup pad have a side branch.

The invention also discloses an exercise method of the cardiopulmonary exercise device based on the marathon, which comprises the following steps:

the method comprises the following steps: a user rotates the outer barrel with the semi-convex ring on the surface, so that the mutual positions of the two corresponding adjusting holes on the outer disc and the air barrel are adjusted and adjusted, and preliminary air inlet adjusting treatment is carried out; the user starts the electric telescopic rod by control, the base plate and the frame seat are placed to be in a horizontal state, after the operation is finished, the user stands on the moving belt to heat up, an included angle between the moving belt and the horizontal direction is adjusted by the electric telescopic rod II according to needs, the cardio-pulmonary capacity of the user in long uphill slope and long downhill slope is simulated, the user wears the respiratory mask by the elastic belt, and the user can maintain body balance by supporting the electric telescopic rod I and matching with the rubber convex edge on one surface of the electric telescopic rod;

step two: a user controls and starts the semiconductor refrigerator or the micro-power heating wire according to the requirement, adjusts the internal temperature of the air duct, displays the temperature on a temperature display screen on the controller by means of a temperature sensor, and adjusts the internal temperature in the air duct by utilizing the heat exchange action of the heat exchange ring sheets and the connecting longitudinal sheets; thereby training the cardio-pulmonary ability of the person at different air temperatures;

step three: the user of service rotates the screw thread and supports the pole as required to under guide block, guide bar and balanced subassembly's effect, make the removal end plate be close to inclined plane end one, thereby constantly reduce the inside ventilation ability of dryer, improve air resistance, thereby temper personnel cardiopulmonary ability under different oxygen content, and temper personnel self cardiopulmonary respiratory ability under the high resistance.

The beneficial effects of the invention are as follows:

1. according to the cardiopulmonary exercise device based on the marathon and the exercise method thereof, through the arranged adjusting mechanism, a user rotates the outer barrel with the semi-convex ring on the surface, so that the mutual positions of the two corresponding adjusting holes on the outer disc and the air barrel are adjusted, and preliminary air inlet adjusting treatment is performed; starting electric telescopic handle one through the control that sets up, can put base plate and frame seat to the horizontality, make things convenient for the user of service to stand and heat up on the motion area, and adjust the contained angle of motion area and horizontal direction through electric telescopic handle two as required, the cardiopulmonary ability of simulation personnel when long upslope and long downhill path, the user of service conveniently wears respiratory mask through the elastic webbing, user of service can utilize the rubber chimb of holding an electric telescopic handle cooperation electric telescopic handle surface to maintain body balance.

2. According to the cardiopulmonary exercise device based on the marathon and the exercise method thereof, through the arranged temperature adjusting assembly, a user can conveniently control and start the semiconductor refrigerator or the micro-power heating wire according to the requirement, the adjusted internal temperature of the air duct is displayed on the temperature display screen on the controller by means of the temperature sensor, and the internal temperature in the air duct is adjusted; thereby training the cardio-pulmonary ability of the person at different air temperatures; through the heat exchange ring piece that sets up and connect vertical piece, be favorable to improving the heat transfer effect of the device and air to make things convenient for the inside temperature that sets for that reaches fast of dryer.

3. This device is tempered to cardiopulmonary based on marathon and method of tempering thereof through setting up the screw thread and supporting the pole, makes things convenient for the user of service as required, rotates the screw thread and supports the pole, under guide block, guide bar and balanced subassembly's effect, makes the removal end plate be close to inclined plane end one to constantly reduce the inside ventilation ability of dryer, improve air inlet resistance, thereby temper the cardiopulmonary ability of personnel under different oxygen content, and temper personnel self cardiopulmonary respiratory ability under high resistance.

4. According to the cardio-pulmonary exercise device based on the marathon and the exercise method thereof, the air duct I and the air duct II are arranged, so that the air entering the air duct can be guided well, the air can be in full contact with the temperature adjusting component conveniently, and the speed of the air reaching the set temperature is further increased; through the reinforcing component who sets up, be favorable to improving the holistic structural stability of the device.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a marathon-based cardiopulmonary exercise device according to the present invention;

fig. 2 is a schematic perspective view of a marathon-based cardiopulmonary exercise device according to the present invention;

fig. 3 is a schematic cross-sectional view of two half portions of an air duct of a marathon-based cardiopulmonary exercise device according to the present invention;

fig. 4 is a schematic cross-sectional view of a half of an air duct of a marathon-based cardiopulmonary exercise device according to the present invention;

fig. 5 is an enlarged schematic view of a portion a of the marathon-based cardiopulmonary exercise device of fig. 4 according to the present invention;

FIG. 6 is a semi-sectional schematic view of an adjustable outer plate of a marathon-based cardiopulmonary exercise device according to the present invention;

fig. 7 is a schematic perspective view of a guide block of a cardiopulmonary exercise device based on marathon according to the present invention.

In the figure: 1. an air duct; 101. a bucket-shaped end; 102. a first inclined plane end; 103. a planar end; 104. a second inclined end; 2. a temperature sensor; 3. a respiratory component; 301. an elastic band; 302. a respiratory mask; 303. a connecting hose; 4. a controller; 5. installing a transverse plate; 6. a stowable running component; 601. a rubber flange; 602. a substrate; 603. a first electric telescopic rod; 604. a frame seat; 605. a motion belt; 606. a base plate; 607. a second electric telescopic rod; 7. a bottom end plate; 8. a first support plate; 801. a second support plate; 9. a reinforcement assembly; 901. an elliptical ring; 902. a side strut; 10. a guide block; 11. a guide bar; 12. a connecting spring; 13. moving the end plate; 1301. a compression spring; 1302. a cavity groove; 1303. a traveler; 1304. a pulley; 14. a first air duct; 15. a threaded prop rod; 16. an outer cylinder; 1601. a semi-convex ring; 17. adjusting the outer disc; 1701. an adjustment hole; 18. a snap ring plate; 19. a second air duct; 20. a semiconductor refrigerator; 21. a heat conductive ring plate; 22. heat exchange ring sheets; 23. connecting the longitudinal pieces; 24. micropower heating wire.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1

Referring to fig. 1-7, a cardiopulmonary exercise device based on marathon, comprising an air duct 1, a breathing assembly 3, an adjusting mechanism and a storage running assembly 6, wherein the breathing assembly 3 is fixedly connected to one end of the air duct 1, the adjusting mechanism is arranged inside the air duct 1, a first support plate 8 and a second support plate 801 are fixedly arranged on two sides of the outer wall of the bottom of the air duct 1 respectively, reinforcing assemblies 9 are arranged at two ends of one opposite side of the first support plate 8 and the second support plate 801, the air duct 1 comprises a hopper-shaped end 101, a first inclined plane end 102, a second plane end 103 and a second inclined plane end 104, the adjusting mechanism comprises a threaded support rod 15 connected to the air duct 1 through threads, a guide block 10 is fixedly arranged on the inner wall of one end of the first inclined plane end 102, two ends of the guide block 10 are both slidably connected with guide rods 11, the end portions of the two guide rods 11 are fixedly provided with the same moving end plate 13, the moving end plate 13 is provided with a balance assembly near the edge, the same connecting spring 12 is fixedly installed on the opposite side of the movable end plate 13 and the guide block 10, a second air duct 19 and a first air duct 14 are respectively fixedly installed on the outer wall of one side of the movable end plate 13 and the inner wall of one end of the second inclined end 104, and a temperature adjusting assembly is installed on the inner wall of one end of the second inclined end 104.

Referring to fig. 1-4, the adjusting mechanism further includes a clamping ring plate 18 fixedly installed on an outer wall of one side of the second inclined plane end 104, an adjusting outer disc 17 is rotatably connected to an inner wall of the clamping ring plate 18, adjusting holes 1701 are formed in opposite sides of the adjusting outer disc 17 and the second inclined plane end 104 and are distributed equidistantly, and the adjusting holes 1701 are circular.

With the above structure, the user rotates the outer barrel 16 with the semi-convex ring 1601 on the surface, thereby adjusting the mutual positions of the adjusting outer disk 17 and the corresponding two adjusting holes 1701 on the air barrel 1, and performing the preliminary air intake efficiency adjusting process.

Referring to fig. 1, 4 and 5, a through hole with a section specification larger than that of the screw abutting rod 15 is formed at the center of the circle of the adjusting outer disc 17, an outer cylinder 16 is fixedly installed on the outer wall of one side of the adjusting outer disc 17, and a semi-convex ring 1601 for facilitating the rotation of the outer cylinder 16 and the adjusting outer disc 17 is fixedly installed on the outer wall of the circumference of the outer cylinder 16.

By means of the structure, the through holes can avoid the influence on the threaded abutting rod 15 when the adjusting outer disc 17 rotates; through the semi-convex ring 1601, the anti-skid performance of the outer barrel 16 can be improved, so that the outer barrel 16 can be conveniently rotated and the outer disk 17 can be conveniently adjusted.

Referring to fig. 1, 4 and 5, the temperature adjustment assembly includes a temperature sensor 2 fixedly mounted on an inner wall of one end of the bucket-shaped end 101, and a heat conductive ring plate 21 and a micro-power heating wire 24 are respectively fixedly mounted on inner walls of the two inclined ends 104.

By means of the structure, the temperature sensor 2 is convenient for users to know the air temperature in the air duct 1; through the arranged heat conducting ring plate 21 and the micro-power heating wire 24, heat exchange, temperature reduction and temperature rise treatment are conveniently carried out.

Referring to fig. 1, 4 and 5, the temperature adjustment assembly further includes heat exchange ring plates 22 fixedly installed on the inner walls of the heat conduction ring plate 21 and the micro-power heating wire 24, and connecting longitudinal plates 23 are respectively and fixedly installed on opposite sides of the heat exchange ring plates 22 and the heat conduction ring plate 21 and the micro-power heating wire 24, and are distributed equidistantly.

By means of the structure, the heat exchange ring pieces 22 and the connecting longitudinal pieces 23 are arranged, so that the heat exchange effect of the device and air is improved, and the inside of the air duct 1 can reach the set temperature quickly.

Referring to fig. 1-2, a mounting opening is formed in one side of the top end of the second inclined surface end 104 close to the heat conducting ring plate 21, a semiconductor refrigerator 20 is fixedly mounted on the inner wall of the mounting opening, a refrigerating end of the semiconductor refrigerator 20 faces the heat conducting ring plate 21, a mounting transverse plate 5 is fixedly mounted on one side of the first supporting plate 8 close to the top end, a controller 4 is fixedly mounted on one side of the mounting transverse plate 5 opposite to the bucket-shaped end 101, a temperature display is arranged on the surface of the controller 4, and a signal input end of the controller 4 is electrically connected with a signal output end of the temperature sensor 2 through a signal line.

By means of the structure, the arranged semiconductor refrigerator 20 is convenient to carry out heat exchange and cooling treatment on the interior of the air duct 1 by utilizing the heat conducting annular plate 21; through setting up, controller 4, temperature monitor are favorable to the inside temperature of visual display dryer 1.

Referring to fig. 1-2, the breathing assembly 3 includes a connection hose 303 fixedly connected to the air duct 1, a breathing mask 302 is fixedly mounted at an end of the connection hose 303, and an elastic band 301 is fixedly mounted at one end of the breathing mask 302.

By means of the structure, the user can wear the breathing mask 302 conveniently to do cardiopulmonary exercise.

Referring to fig. 1-2, the retractable running assembly 6 includes a bottom end plate 7 fixedly mounted at the bottom ends of a first supporting plate 8 and a second supporting plate 801, and an outer wall of one side of the bottom end plate 7 is connected to a base plate 602 through a hinge, one end of the base plate 602 is connected to a frame base 604 through a hinge, a moving belt 605 is disposed inside the frame base 604, a backing plate 606 is fixed to an inner wall of one end of the frame base 604 close to the moving belt 605, a second electric telescopic rod 607 is connected to an opposite side of the frame base 604 and the base plate 602 through a hinge, two ends of the opposite side of the frame base 604 and the first supporting plate 8 are both connected to a first electric telescopic rod 603 through hinges, and rubber flanges 601 distributed at equal intervals are fixedly mounted to an outer wall of one end of the first electric telescopic rod 603 close to the first supporting plate 8.

By means of the structure, a user starts the first electric telescopic rod 603 by control, the base plate 602 and the frame seat 604 are placed in a horizontal state, the user can conveniently stand on the moving belt 605 to warm up, an included angle between the moving belt 605 and the horizontal direction is adjusted by the second electric telescopic rod 607 according to needs, and the cardio-pulmonary capacity of the user on a long ascending slope and a long descending slope is simulated; the user can use the rubber convex edge 601 which supports the first electric telescopic rod 603 and is matched with the surface of the first electric telescopic rod 603 to maintain the balance of the body.

Referring to fig. 1-2, the balancing assembly includes a cavity 1302 disposed on the movable end plate 13 at equal intervals, compression springs 1301 are fixedly disposed on the inner bottom of the cavity 1302, slide columns 1303 slidably connected to the inner wall of the cavity 1302 are fixedly disposed on the other ends of the compression springs 1301, pulleys 1304 are rotatably connected to the ends of the slide columns 1303, the reinforcing assembly 9 includes elliptical rings 901 fixedly disposed on two opposite ends of the first support plate 8 and the second support plate 801, and side support rods 902 are fixedly disposed on opposite sides of the elliptical rings 901, the first support plate 8 and the second support plate 801.

By means of the structure, the reinforcing component 9 is arranged, the elliptical ring 901 and the side branch rod 902 can be matched with each other, and the overall structural stability of the device is improved.

Example 2

The embodiment discloses an exercise method of a cardiopulmonary exercise device based on marathon, which comprises the following specific steps:

the method comprises the following steps: a user rotates the outer barrel 16 with the semi-convex ring 1601 on the surface, so that the mutual positions of the adjusting outer disk 17 and the corresponding two adjusting holes 1701 on the air barrel 1 are adjusted, and preliminary air inlet adjusting treatment is carried out; a user starts the first electric telescopic rod 603 by control, the base plate 602 and the frame seat 604 are placed to be in a horizontal state, after the completion, the user stands on the moving belt 605 to warm up, the included angle between the moving belt 605 and the horizontal direction is adjusted by the second electric telescopic rod 607 according to requirements, the cardiopulmonary capacity of the user in long uphill and long downhill is simulated, the user wears the respiratory mask 302 by the elastic belt 301, and the user can maintain the body balance by supporting the first electric telescopic rod 603 and matching the rubber convex edge 601 on the surface of the first electric telescopic rod 603;

step two: a user controls and starts the semiconductor refrigerator 20 or the micro-power heating wire 24 according to the requirement, adjusts the internal temperature of the air duct 1, displays the temperature on the temperature display screen of the controller 4 by means of the temperature sensor 2, and adjusts the internal temperature in the air duct 1 by utilizing the heat exchange action of the heat exchange annular sheets 22 and the connecting longitudinal sheets 23; thereby training the cardio-pulmonary ability of the person at different air temperatures;

step three: the user rotates screw thread as required and supports pole 15 to under guide block 10, guide bar 11 and balanced subassembly's effect, make and remove end plate 13 and be close to inclined plane end 102, thereby constantly reduce the inside ventilation ability of dryer 1, improve air inlet resistance, thereby temper the cardiopulmonary ability of personnel under different oxygen content, and temper the cardiopulmonary respiratory ability of personnel self under the high resistance.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. A cardiopulmonary exercise device based on marathon, includes dryer (1), respiratory component (3), adjustment mechanism and accomodates formula running assembly (6), its characterized in that, respiratory component (3) fixed connection is in the one end of dryer (1), and adjustment mechanism sets up in the inside of dryer (1), the bottom outer wall both sides of dryer (1) fixed mounting respectively have backup pad one (8) and backup pad two (801), and the relative one side both ends of backup pad one (8) and backup pad two (801) all install enhancement subassembly (9), dryer (1) includes bucket-shaped end (101), inclined plane end one (102), plane end (103) and inclined plane end two (104), adjustment mechanism includes the screw thread support rod (15) of screw thread connection in dryer (1), and the one end inner wall fixed mounting of inclined plane end one (102) has guide block (10), the equal sliding connection in guide block (10) both ends has guide bar (11), and the tip fixed mounting of two guide bar (11) has same removal end plate (13), removal end plate (13) are close to the edge installation and are provided with balanced subassembly, remove end plate (13) and one side fixed mounting relative of guide block (10) have same coupling spring (12), the one side outer wall of removal end plate (13) and the one end inner wall of inclined plane end two (104) fixed mounting respectively have guide duct two (19) and guide duct one (14), temperature regulation subassembly is installed to the one end inner wall of inclined plane end two (104).

2. The marathon-based cardiopulmonary exercise device of claim 1, wherein the adjusting mechanism further comprises a snap ring plate (18) fixedly installed on an outer wall of one side of the second inclined plane end (104), and an adjusting outer disc (17) is rotatably connected to an inner wall of the snap ring plate (18), the adjusting outer disc (17) and an opposite side of the second inclined plane end (104) are respectively provided with adjusting holes (1701) distributed at equal intervals, and the adjusting holes (1701) are circular.

3. The marathon-based cardiopulmonary exercise device according to claim 2, wherein a through hole with a section size larger than that of the screw abutting rod (15) is formed in a circle center of the adjusting outer disc (17), an outer cylinder (16) is fixedly mounted on an outer wall of one side of the adjusting outer disc (17), and a semi-convex ring (1601) used for facilitating rotation of the outer cylinder (16) and the adjusting outer disc (17) is fixedly mounted on an outer wall of the circumference of the outer cylinder (16).

4. A marathon-based cardiopulmonary exercise device according to claim 1, wherein the temperature adjustment assembly comprises a temperature sensor (2) fixedly mounted on an inner wall of one end of the funnel-shaped end (101), and a heat conduction ring plate (21) and a micro-power heating wire (24) are fixedly mounted on inner walls of the second inclined end (104), respectively.

5. A marathon-based cardiopulmonary exercise device according to claim 4, wherein the temperature adjustment assembly further comprises heat exchange fins (22) fixedly mounted on inner walls of the heat conduction ring plate (21) and the micropower heating wire (24), and connecting longitudinal fins (23) are fixedly mounted on opposite sides of the heat exchange fins (22) and the heat conduction ring plate (21) and the micropower heating wire (24) and are distributed equidistantly.

6. The marathon-based cardiopulmonary exercise device according to claim 5, wherein a mounting opening is formed in a side, close to the heat conducting ring plate (21), of a top end of the second inclined surface end (104), a semiconductor refrigerator (20) is fixedly mounted on an inner wall of the mounting opening, a refrigerating end of the semiconductor refrigerator (20) faces the heat conducting ring plate (21), a mounting transverse plate (5) is fixedly mounted on a side, close to the top end, of the first support plate (8), a controller (4) is fixedly mounted on a side, opposite to the bucket-shaped end (101), of the mounting transverse plate (5), a temperature display is arranged on a surface of the controller (4), and a signal input end of the controller (4) is electrically connected with a signal output end of the temperature sensor (2) through a signal line.

7. A marathon-based cardiopulmonary exercise device according to claim 1, wherein the breathing assembly (3) comprises a connection hose (303) fixedly connected with the air duct (1), and a breathing mask (302) is fixedly mounted at an end of the connection hose (303), and an elastic band (301) is fixedly mounted at one end of the breathing mask (302).

8. The marathon-based cardiopulmonary exercise device according to claim 6, wherein the retractable running component (6) includes a bottom end plate (7) fixedly installed at the bottom ends of the first support plate (8) and the second support plate (801), and one side outer wall of the bottom end plate (7) is connected with a base plate (602) through a hinge, one end of the base plate (602) is connected with a frame base (604) through a hinge, a movement belt (605) is disposed inside the frame base (604), a base plate (606) is fixed on an inner wall of one end of the frame base (604) close to the movement belt (605), the opposite side of the frame base (604) and the base plate (602) is connected with a second electric telescopic rod (607) through a hinge, and both ends of the opposite side of the frame base (604) and the first support plate (8) are connected with a first electric telescopic rod (603) through a hinge, and one end outer wall of the first electric telescopic rod (603) close to the first support plate (8) is fixedly installed with rubber convex edges (601) which are distributed equidistantly ).

9. The marathon-based cardiopulmonary exercise device according to claim 1, wherein the balancing assembly includes cavity grooves (1302) equidistantly formed in the movable end plate (13), compression springs (1301) are fixedly mounted at inner bottoms of the cavity grooves (1302), sliding columns (1303) slidably connected with inner walls of the cavity grooves (1302) are fixedly mounted at other ends of the compression springs (1301), pulleys (1304) are rotatably connected to ends of the sliding columns (1303), the reinforcing assembly (9) includes elliptical rings (901) fixedly mounted at two ends of opposite sides of the first supporting plate (8) and the second supporting plate (801), and side supporting rods (902) are fixedly mounted at two sides of the elliptical rings (901) opposite to the first supporting plate (8) and the second supporting plate (801).

10. The method of exercising with a marathon-based cardiopulmonary exercise device of any one of claims 1-9, comprising the steps of:

the method comprises the following steps: a user rotates the outer cylinder (16) with the surface provided with the semi-convex ring (1601) so as to adjust and adjust the mutual positions of the outer disc (17) and the corresponding two adjusting holes (1701) on the air cylinder (1) and carry out primary air inlet adjusting treatment; a user starts the electric telescopic rod I (603) by control, the base plate (602) and the frame seat (604) are placed to be in a horizontal state, after the heating is finished, the user stands on the moving belt (605) to heat, an included angle between the moving belt (605) and the horizontal direction is adjusted by the electric telescopic rod II (607) according to needs, the cardiopulmonary capacity of the user during long uphill slope and long downhill slope is simulated, the user wears the respiratory mask (302) by the elastic belt (301), and the user can maintain body balance by supporting the electric telescopic rod I (603) and matching the rubber convex edge (601) on the surface of the electric telescopic rod I (603);

step two: a user controls and starts the semiconductor refrigerator (20) or the micro-power heating wire (24) according to the requirement, the internal temperature of the well-adjusted air duct (1) is displayed by a temperature display screen of the temperature sensor (2) on the controller (4), and the internal temperature in the air duct (1) is adjusted by utilizing the heat exchange action of the heat exchange ring sheets (22) and the connecting longitudinal sheets (23); thereby training the cardio-pulmonary ability of the person at different air temperatures;

step three: user of service rotates screw thread as required and supports pole (15) to under guide block (10), guide bar (11) and balanced subassembly's effect, make and remove end plate (13) and be close to inclined plane end one (102), thereby constantly reduce the ventilation ability of dryer (1) inside, improve air inlet resistance, thereby temper the cardiopulmonary ability of personnel under different oxygen content, and temper personnel self cardiopulmonary respiratory ability under the high resistance.

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