CN218900739U

CN218900739U - Cardiopulmonary training instrument

Info

Publication number: CN218900739U
Application number: CN202222389459.8U
Authority: CN
Inventors: 孔晴
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-09-08
Filing date: 2022-09-08
Publication date: 2023-04-25
Anticipated expiration: 2032-09-08

Abstract

The utility model discloses a heart-lung training instrument, which comprises a base, wherein a cylinder body is fixedly arranged on the top surface of the base, a cylinder cover is arranged at the open end of the cylinder body, the cylinder cover is detachably connected with the cylinder body, a stop ring is arranged on the inner wall of the cylinder body, the inner cavity of the cylinder body is divided into an air cavity and a movable cavity by the stop ring, an air port is formed in the position, corresponding to the air cavity, of the peripheral wall of the cylinder body, an air pipe is arranged at the air port, the air pipe is communicated with the air cavity, a lifting plate is arranged in the movable cavity, the peripheral wall of the lifting plate is in sealing connection with the inner wall of the cylinder body, a training column is arranged on the top surface of the lifting plate, the training column penetrates through the cylinder cover, an adjusting rod is arranged on the cylinder cover, the adjusting rod penetrates through the cylinder cover and extends into the cylinder body, the adjusting rod is in threaded connection with the cylinder cover, an elastic piece is arranged between the adjusting rod and the lifting plate, one end of the elastic piece is fixedly connected with the adjusting rod, and the other end of the elastic piece is fixedly connected with the lifting plate. The utility model provides a cardiopulmonary training instrument which performs cardiopulmonary training in a breathing mode, is convenient and safe to operate, and is capable of adjusting the training intensity and high in applicability.

Description

Cardiopulmonary training instrument

Technical Field

The utility model relates to the technical field of training equipment, in particular to a heart-lung training instrument.

Background

Cardiopulmonary training is very important for people's daily lives, and the heart and lung can be directly related to the risk of occurrence of various chronic diseases. The heart and lung training can increase the maximum oxygen uptake and cardiac output of a human body, reduce the resting heart rate and the exercise heart rate with suboptimal intensity, increase the quantity of hemoglobin and myoglobin for oxygen transportation, increase heart rate reserves, increase capillary vessel density and strengthen connective tissues.

Many cardiopulmonary patients need cardiopulmonary rehabilitation training to recover cardiopulmonary function in the rest period after performing cardiopulmonary surgery, and more common cardiopulmonary rehabilitation training has cardiopulmonary stretch training or some simple aerobic training. Because the body function of the patient is poor after the operation is finished, if the patient is injured due to aerobic training through movement, the rehabilitation efficiency is reduced.

Disclosure of Invention

The utility model aims to provide a cardiopulmonary training instrument which is convenient and safe to operate and capable of adjusting the training intensity and has strong applicability.

The utility model discloses a heart-lung training instrument, which adopts the following technical scheme:

the utility model provides a cardiopulmonary training instrument, includes the base, the fixed barrel that is equipped with in top surface of base, the open end of barrel is equipped with the cover, the cover can dismantle with the barrel and be connected, the inner wall of barrel is equipped with the stop ring, the inner chamber of barrel divide into air cavity and movable chamber through the stop ring, the perisporium of barrel corresponds the position of air cavity and has seted up the gas port, gas port department is equipped with the trachea, trachea and air cavity intercommunication, the movable intracavity is equipped with the lifter plate, the perisporium and the inner wall sealing connection of barrel of lifter plate, the top surface of lifter plate is equipped with the training post, the training post passes the cover, be equipped with the regulation pole on the cover, the regulation pole passes the cover and extends to in the barrel, regulation pole and cover threaded connection, be equipped with the elastic component between regulation pole and the lifter plate, elastic component one end and regulation pole fixed connection, the elastic component other end and lifter plate fixed connection.

As the preferable scheme, the number of the adjusting rods is two, the two adjusting rods are symmetrically arranged relative to the axial center line of the cylinder cover, and the number of the elastic pieces is equal to that of the adjusting rods.

As an optimal scheme, the cylinder cover is in buckling connection with the cylinder body.

As an optimal scheme, one end of the air pipe far away from the air cavity is detachably communicated with an air tap.

As the preferred scheme, the fixed pipe that is equipped with of top surface of base, the activity is pegged graft in the fixed pipe has the bracing piece, the top of bracing piece is equipped with the striking board, the striking board is located the training post directly over.

As a preferable scheme, a plurality of adjusting holes are formed in the peripheral wall of the fixed pipe at intervals in the axial direction, positioning holes are formed in the peripheral wall of the supporting rod, the positioning holes are matched with the adjusting holes, a limiting rod is arranged at the adjusting holes, and the limiting rod penetrates through the adjusting holes and the positioning holes.

The heart-lung training instrument disclosed by the utility model has the beneficial effects that: in the initial state of the heart-lung training instrument, the lifting plate is suspended in the cylinder body through the stop ring, so that the air cavity and the movable cavity are in a non-communication state. During training, the patient continuously blows towards the air cavity of the barrel through the air pipe, the air can push the lifting plate in the movable cavity to move upwards after filling the air cavity, then the air enters the movable cavity, the lifting plate is continuously pushed, the elastic piece can be extruded by the lifting plate in the rising process, the reaction force of the elastic piece can generate resistance to rising of the lifting, so that the difficulty is increased for cardiopulmonary training, when the training difficulty needs to be adjusted, the adjusting rod is rotated, the initial compression amount of the elastic piece is changed, the smaller the initial compression amount of the elastic piece is, the smaller the training difficulty is, the larger the initial compression amount of the elastic piece is, the larger the training difficulty is, the patient can gradually adjust the training difficulty according to the recovery condition of the patient, the operation is convenient and the applicability is strong, the lifting plate can drive the training rod to move upwards in the rising process, the patient can intuitively judge the training effect of the patient according to the rising height of the training rod, the patient can train the cardiopulmonary through the breathing mode, the strength of training can be adjusted, and the applicability is strong.

Drawings

FIG. 1 is a schematic diagram of the cardiopulmonary training apparatus of the present utility model.

Fig. 2 is a cross-sectional view of the cardiopulmonary training apparatus of the present utility model.

10. A base; 20. a cylinder; 21. an air cavity; 22. a movable cavity; 23. a stop ring; 30. a cylinder cover; 40. an air pipe; 41. an air tap; 51. a lifting plate; 52. training a column; 53. an adjusting rod; 54. an elastic member; 61. a fixed tube; 62. a support rod; 63. a striking plate; 64. positioning holes; 65. and a limit rod.

Detailed Description

The utility model is further illustrated and described below in conjunction with the specific embodiments and the accompanying drawings:

referring to fig. 1 and 2, a heart-lung training apparatus includes a base 10, a cylinder 20 is fixedly arranged on the top surface of the base 10, a cylinder cover 30 is arranged at the open end of the cylinder 20, the cylinder cover 30 is detachably connected with the cylinder 20, a stop ring 23 is arranged on the inner wall of the cylinder 20, an inner cavity of the cylinder 20 is divided into an air cavity 21 and a movable cavity 22 by the stop ring 23, an air port is formed in the position, corresponding to the air cavity 21, of the peripheral wall of the cylinder 20, an air pipe 40 is arranged at the air port, the air pipe 40 is communicated with the air cavity 21, a lifting plate 51 is arranged in the movable cavity 22, the peripheral wall of the lifting plate 51 is in sealing connection with the inner wall of the cylinder 20, a training column 52 is arranged on the top surface of the lifting plate 51, the training column 52 penetrates through the cylinder cover 30, an adjusting rod 53 is arranged on the cylinder cover 30, the adjusting rod 53 penetrates through the cylinder cover 30 and extends into the cylinder 20, the adjusting rod 53 is in threaded connection with the cylinder cover 30, an elastic piece 54 is arranged between the adjusting rod 53 and the lifting plate 51, one end of the elastic piece 54 is fixedly connected with the adjusting rod 53, and the other end of the elastic piece 54 is fixedly connected with the lifting plate 51.

In the initial state of the heart-lung training instrument, the lifting plate 51 is suspended in the cylinder 20 through the stop ring 23, so that the air cavity 21 and the movable cavity 22 are in a non-communication state. During training, a patient continuously blows air into the air cavity 21 of the cylinder 20 through the air pipe 40, the air can push the lifting plate 51 in the movable cavity 22 to move upwards after filling the air cavity 21, then the air enters the movable cavity 22, the lifting plate 51 is continuously pushed, the elastic piece 54 can be extruded by the lifting plate 51 in the rising process, the reaction force of the elastic piece 54 can generate resistance to rising and falling, so that the difficulty is increased for cardiopulmonary training, when the training difficulty is required to be adjusted, the adjusting rod 53 is rotated, the initial compression amount of the elastic piece 54 is changed, the smaller the initial compression amount of the elastic piece 54 is, the smaller the training difficulty is, otherwise, the larger the initial compression amount of the elastic piece 54 is, the greater the training difficulty is, the patient can gradually adjust the training difficulty according to the self recovery condition, the operation is convenient and high in applicability, the lifting plate 51 can drive the training rod to move upwards in the rising process, the patient can intuitively judge the training effect of the patient by breathing mode, the strength of training can be adjusted, and the applicability is high.

Specifically, referring to fig. 1, the number of the adjusting rods 53 is two, the two adjusting rods 53 are symmetrically arranged relative to the axial center line of the cylinder cover 30, and the number of the elastic members 54 is equal to the number of the adjusting rods 53. The symmetrically distributed adjustment bars 53 and elastic members 54 can further ensure that the lifter plate 51 remains horizontal while providing a plurality of different amounts of resistance to the lifter plate 51.

Specifically, referring to fig. 2, the cap 30 is snap-connected to the barrel 20. The buckle connection structure is stable, easy dismounting, be convenient for barrel 20 internals assembly and change.

Specifically, referring to fig. 1, an air tap 41 is detachably connected to an end of the air tube 40 away from the air cavity 21. The patient can blow towards the inside of the air tube 40 through the air tap 41, the air blowing is convenient, the air tap 41 can be replaced at any time, the use cost is low, and the air tap is clean and sanitary.

Specifically, referring to fig. 1, a fixing tube 61 is fixedly arranged on the top surface of the base 10, a supporting rod 62 is movably inserted in the fixing tube 61, a striking plate 63 is arranged at the top end of the supporting rod 62, and the striking plate 63 is located right above the training column 52. The striking plate 63 is arranged right above the training column 52, a certain distance is reserved between the striking plate 63 and the training column 52, the striking plate 63 can be impacted when a patient blows to push the training column 52 to rise, the training effect is felt more intuitively, the training interestingness is improved, and the achievement feeling and training power of the patient are increased.

Specifically, referring to fig. 1, a plurality of adjusting holes are formed in a peripheral wall of the fixing tube 61, the adjusting holes are disposed along an axial direction of the fixing tube 61 at intervals, a positioning hole 64 is formed in a peripheral wall of the supporting rod 62, the positioning hole 64 is matched with the adjusting hole, a limiting rod 65 is disposed at the adjusting hole, and the limiting rod 65 penetrates through the adjusting hole and the positioning hole 64. The locating holes 64 on the supporting rod 62 correspond to different adjusting holes on the limiting rod 65, and then the limiting rod 65 passes through the adjusting holes and the locating holes 64, so that the hanging height of the striking plate 63 is adjusted, the distance between the striking plate 63 and the training column 52 is adjusted, and the striking difficulty is changed.

The utility model provides a heart-lung training instrument, wherein in an initial state of the heart-lung training instrument, a lifting plate is suspended in a cylinder body through a stop ring, so that an air cavity and a movable cavity are in a non-communication state. During training, the patient continuously blows towards the air cavity of the barrel through the air pipe, the air can push the lifting plate in the movable cavity to move upwards after filling the air cavity, then the air enters the movable cavity, the lifting plate is continuously pushed, the elastic piece can be extruded by the lifting plate in the rising process, the reaction force of the elastic piece can generate resistance to rising of the lifting, so that the difficulty is increased for cardiopulmonary training, when the training difficulty needs to be adjusted, the adjusting rod is rotated, the initial compression amount of the elastic piece is changed, the smaller the initial compression amount of the elastic piece is, the smaller the training difficulty is, the larger the initial compression amount of the elastic piece is, the larger the training difficulty is, the patient can gradually adjust the training difficulty according to the recovery condition of the patient, the operation is convenient and the applicability is strong, the lifting plate can drive the training rod to move upwards in the rising process, the patient can intuitively judge the training effect of the patient according to the rising height of the training rod, the patient can train the cardiopulmonary through the breathing mode, the strength of training can be adjusted, and the applicability is strong.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the scope of the present utility model, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made to the technical solution of the present utility model without departing from the spirit and scope of the technical solution of the present utility model.

Claims

1. The utility model provides a cardiopulmonary training instrument, its characterized in that, includes the base, the fixed barrel that is equipped with in top surface of base, the open end of barrel is equipped with the cover, the cover is connected with the barrel can be dismantled, the inner wall of barrel is equipped with the stop ring, the inner chamber of barrel divide into air cavity and movable chamber through the stop ring, the perisporium of barrel corresponds the position of air cavity and has seted up the gas port, gas port department is equipped with the trachea, trachea and air cavity intercommunication, the movable intracavity is equipped with the lifter plate, the perisporium and the inner wall sealing connection of barrel of lifter plate, the top surface of lifter plate is equipped with the training post, the training post passes the cover, be equipped with the regulation pole on the cover, the regulation pole passes in the cover extends to the barrel, regulation pole and cover threaded connection, be equipped with the elastic component between regulation pole and the lifter plate, elastic component one end and regulation pole fixed connection, the elastic component other end and lifter plate fixed connection.

2. The heart-lung trainer according to claim 1, wherein the number of the adjusting rods is two, the two adjusting rods are symmetrically arranged relative to the axial center line of the cylinder cover, and the number of the elastic pieces is equal to the number of the adjusting rods.

3. The heart-lung trainer according to claim 1, wherein said cover is snap-fit with the barrel.

4. The cardiopulmonary training apparatus of claim 1, wherein the air tube has an air tap in removable communication with an end thereof remote from the air chamber.

5. The heart-lung training instrument according to claim 1, wherein a fixing tube is fixedly arranged on the top surface of the base, a supporting rod is movably inserted in the fixing tube, a striking plate is arranged at the top end of the supporting rod, and the striking plate is located right above the training column.

6. The heart-lung training apparatus according to claim 5, wherein a plurality of adjusting holes are formed in the peripheral wall of the fixing tube, the adjusting holes are arranged at intervals along the axial direction of the fixing tube, positioning holes are formed in the peripheral wall of the supporting rod, the positioning holes are matched with the adjusting holes, a limiting rod is arranged at the adjusting holes, and the limiting rod penetrates through the adjusting holes and the positioning holes.