CN219539373U - Training device integrating expiration and inspiration functions - Google Patents

Abstract

The utility model discloses a trainer integrating the functions of breathing and breathing, which is characterized by comprising: a container; the bottle cap is internally provided with a first air hole and a second air hole; the first air pipe is inserted into the first air hole or the second air hole, and the bottom end of the first air pipe is immersed into the liquid in the container; a second air pipe; the second air pipe is inserted into the other air hole opposite to the first air pipe; alternatively, the bottom end of the second air tube is connected to the top end of the first air tube. When in use, an operator injects water level with proper height into the container, and the resistance is adjusted by means of the change of the water pressure of the water. The first air pipe and the second air pipe are flexibly and freely assembled to be switched to the expiration training function or the inspiration training function, and the air pipe is convenient to assemble and disassemble, so that the utility model integrates expiration and inspiration functions simultaneously, can be used for different training crowds simultaneously, has higher flexibility of products, and can provide better expiration and inspiration training effects.

Description

Training device integrating expiration and inspiration functions

Technical Field

The utility model relates to the field of medical appliances, in particular to a trainer integrating the functions of breathing and breathing.

Background

Respiratory training devices are often used for autogenous cutting patients or people who need to strengthen the cardiopulmonary function, and perform the training of the expiratory and inspiratory functions in the rehabilitation stage. The resistance preset by the trainer is resisted during inspiration so as to enhance the inspiratory muscle strength of a patient, thereby enhancing the strength and tolerance of respiratory muscles, improving the dyspnea problem by training the respiratory muscles, improving the heart and lung functions of the patient and further improving the exercise efficiency; can exercise related muscles during expiration, improve strength and tolerance of the expiratory muscles, improve sputum excretion, strengthen vital capacity and help maintain good physical condition.

The traditional respiratory trainer has single training function, can not integrate inspiration training and expiration training at the same time, has greatly limited training effect for patients, greatly reduces the flexibility of products and has high cost; meanwhile, the number of the components is large, excessive plastic garbage is generated during discarding, and great pollution is brought to the environment.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model aims to provide a trainer integrating the functions of breathing and inhaling, which can solve the problem of single training effect of the traditional breathing trainer.

The utility model is realized by the following technical scheme:

a trainer integrating exhalation and inhalation functions, comprising: a container in which a liquid is contained; the bottle cap is fastened to the container, a first air hole and a second air hole are formed in the bottle cap, and the first air hole and the second air hole are both communicated with the inner cavity of the container and the outside atmosphere; the first air pipe is inserted into the first air hole or the second air hole, and the bottom end of the first air pipe is immersed into the liquid in the container; a second air pipe; the second air pipe is inserted into another air hole opposite to the first air pipe, and the bottom end of the second air pipe is communicated with the inner cavity of the container and is far away from the liquid; alternatively, the bottom end of the second air pipe is connected to the top end of the first air pipe.

Further, the trainer integrating the functions of breathing and inhaling further comprises: a mouthpiece; the mouthpiece is secured to the top end of the second trachea.

Further, the trainer integrating the functions of breathing and inhaling further comprises: an autogenous cutting connecting piece; the autogenous cutting connecting piece comprises a tee joint; an air cutting interface for accessing an air cutting opening of a patient is arranged at one port of the tee joint, and a first one-way valve and a second one-way valve are respectively arranged in the other two ports; the conduction direction of the first one-way valve faces the inner side of the tee joint, and the conduction direction of the second one-way valve faces the outer side of the tee joint; one end of the autogenous cutting interface and one end of the second one-way valve are opposite ends; one end where the second one-way valve is located is connected to the top end of the second air pipe.

Further, the trainer integrating the functions of breathing and inhaling further comprises: an autogenous cutting connecting piece; the autogenous cutting connecting piece comprises a tee joint; an air cutting interface for accessing an air cutting opening of a patient is arranged at one port of the tee joint, and a first one-way valve and a second one-way valve are respectively arranged in the other two ports; the conduction direction of the first one-way valve faces the inner side of the tee joint, and the conduction direction of the second one-way valve faces the outer side of the tee joint; one end of the autogenous cutting interface and one end of the second one-way valve are opposite ends; one end where the first one-way valve is located is connected to the top end of the second air pipe.

Further, the trainer integrating the functions of breathing and inhaling further comprises: a seal ring; the bottle cap is screwed on the bottleneck position of the container through threads, and the sealing ring is tightly arranged between the bottle cap and the container.

Further, a step structure is arranged on the first air hole, and a matched step structure is correspondingly arranged on the periphery of the first air pipe and the periphery of the second air pipe.

Further, a step structure is arranged on the second air hole, and a matched step structure is correspondingly arranged on the periphery of the first air pipe and the periphery of the second air pipe.

Further, the mouthpiece is sleeved at the top end of the second air pipe.

Further, one end of the tee joint where the second one-way valve is located is sleeved on the second air pipe.

Further, one end of the tee joint where the first one-way valve is located is sleeved on the second air pipe.

Compared with the prior art, the utility model has the following beneficial effects: when in use, an operator injects water level with proper height into the container, and the resistance is adjusted by means of the change of the water pressure of the water. The first air pipe and the second air pipe are flexibly and freely assembled, so that the device can adapt to different requirements of users, can be switched to an expiration training function or an inspiration training function, is convenient to assemble and disassemble, integrates the expiration and inspiration functions, can be used for different training crowds, has higher flexibility and wider application range, and can provide better expiration and inspiration training effects; meanwhile, the number of components is small, the economical efficiency is high, and the environmental protection degree is high.

Drawings

FIG. 1 shows a cross-sectional view of a first embodiment;

FIG. 2 shows a cross-sectional view of a second embodiment;

FIG. 3 shows a cross-sectional view of a third embodiment;

FIG. 4 is a cross-sectional view of a fourth embodiment;

FIG. 5 is a cross-sectional view of a fifth embodiment;

FIG. 6 is a cross-sectional view showing a sixth embodiment;

fig. 7 shows a cross-sectional view of the closure.

In the figure: 10. a container; 11. a liquid; 20. a bottle cap; 21. a first air hole; 22. a second air hole; 23. a step structure; 30. a first air tube; 40. a second air pipe; 50. a mouthpiece; 60. an autogenous cutting connecting piece; 61. an autogenous cutting interface; 62. a first one-way valve; 63. a second one-way valve; 70. and (3) sealing rings.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, the following embodiments or technical features may be arbitrarily combined to form new embodiments.

In the description of the present utility model, it is to be understood that the terms "center", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", etc,

The orientation or positional relationship indicated by "inner", "outer", etc. is based on the orientation or positional relationship shown in the drawings, is merely for convenience of description and to simplify the description, and does not indicate or imply that the device or element in question must have a specific orientation, be constructed and operate in a specific orientation, and therefore should not be construed as limiting the utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

The utility model discloses a trainer integrating breathing training and inspiration training, which can adapt to different training crowds through different combination forms, thereby achieving the flexible, free and changeable training effect.

Embodiment one:

is suitable for the inspiration training of non-autogenous users (including the general population).

The embodiment comprises the following steps: container 10, cap 20, first gas tube 30, second gas tube 40, and mouthpiece 50. The container 10 is internally provided with liquid 11 which can be directly injected with water; the bottle cap 20 is fastened at the open position of the container 10, a first air hole 21 and a second air hole 22 are formed in the bottle cap 20, and the first air hole 21 and the second air hole 22 are through holes and are communicated with the inner cavity of the container 10 and the outside atmosphere; the first air pipe 30 is inserted into the first air hole 21 or the second air hole 22, the first air pipe 30 is a long pipe, and the bottom end of the first air pipe 30 is immersed into the liquid 11 in the container 10; the second air pipe 40 is inserted into another air hole opposite to the first air pipe 30, the second air pipe 40 is a short pipe, and the bottom end of the second air pipe 40 is communicated with the inner cavity of the container 10 and is far away from the liquid level, and is not contacted with the liquid 11. The mouthpiece 50 is sleeved on the top end of the second air tube 40, and the non-autogenous patient does not need to be connected with the air tube through the autogenous interface 61, so that the air can be inhaled through the mouthpiece 50 directly.

In use, an operator fills the container 10 with water at a suitable level to adjust the resistance by varying the water pressure. During inhalation, the patient bites the mouthpiece for inhalation, and gas enters the container 10 through the first gas tube 30 and is inhaled by the patient through the second gas tube 40 and the mouthpiece 50; during expiration, the patient releases the mouthpiece to exhale to the outside by himself, and waits for the next inspiration.

Embodiment two:

is suitable for the exhalation training of non-autogenous users (including the general population).

The embodiment comprises the following steps: container 10, cap 20, first gas tube 30, second gas tube 40, and mouthpiece 50. The container 10 is internally provided with liquid 11 which can be directly injected with water; the bottle cap 20 is fastened at the open position of the container 10, a first air hole 21 and a second air hole 22 are formed in the bottle cap 20, and the first air hole 21 and the second air hole 22 are through holes and are communicated with the inner cavity of the container 10 and the outside atmosphere; the first air pipe 30 is inserted into the first air hole 21 or the second air hole 22, the first air pipe 30 is a long pipe, and the bottom end of the first air pipe 30 is immersed into the liquid 11 in the container 10; the bottom end of the second air tube 40 is directly inserted into the top end of the first air tube 30. Mouthpiece 50 is sleeved on top of second trachea 40 and because the non-autogenous patient does not need autogenous cutting interface 61 to access the trachea, exhalation can take place directly through mouthpiece 50.

During exhalation, the patient bites the mouthpiece 50 and exhales, and the gas sequentially enters the liquid 11 through the second gas pipe 40 and the first gas pipe 30 and finally is discharged through the other gas hole; upon inhalation, the patient releases the mouthpiece 50 by himself, breathes ambient air and prepares for the next exhalation.

Embodiment III: is suitable for the inspiration training of the autogenous cutting patient.

The embodiment comprises the following steps: container 10, bottle cap 20, first gas tube 30, second gas tube 40, and tracheostomy connection 60. The container 10 is internally provided with liquid 11 which can be directly injected with water; the bottle cap 20 is fastened at the open position of the container 10, a first air hole 21 and a second air hole 22 are formed in the bottle cap 20, and the first air hole 21 and the second air hole 22 are through holes and are communicated with the inner cavity of the container 10 and the outside atmosphere; the first air pipe 30 is inserted into the first air hole 21 or the second air hole 22, the first air pipe 30 is a long pipe, and the bottom end of the first air pipe 30 is immersed into the liquid 11 in the container 10; the second air pipe 40 is inserted into another air hole opposite to the first air pipe 30, the second air pipe 40 is a short pipe, and the bottom end of the second air pipe 40 is communicated with the inner cavity of the container 10 and is far away from the liquid level, and is not contacted with the liquid 11.

The autogenous cutting connection 60 comprises a tee joint, one of the ports of the tee joint is provided with an autogenous cutting interface 61 for accessing the patient's autogenous cutting, and the other two ports are respectively provided with a first check valve 62 and a second check valve 63. The conducting direction of the first check valve 62 faces the inner side of the tee joint, and the conducting direction of the second check valve 63 faces the outer side of the tee joint; one end of the autogenous cutting interface 61 and one end of the second one-way valve 63 are opposite ends. One end of the first check valve 62 is connected to the top end of the second air pipe 40.

When in suction, the external air enters the first air pipe 30, passes through the liquid 11, enters the second air pipe 40, opens the first one-way valve 62 and flows out from the autogenous cutting interface 61; during expiration, gas enters the autogenous cutting interface 61, the second one-way valve 63 is opened and discharged to the outside air, and the first one-way valve 62 is in a closed state at the moment, so that the liquid 11 is prevented from flowing out of the first gas pipe 30 due to the fact that the gas pressure is increased after entering the container 10, and the liquid 11 flows outwards.

Embodiment four:

is suitable for the expiration training of the autogenous cutting patient.

The embodiment comprises the following steps: container 10, bottle cap 20, first gas tube 30, second gas tube 40, and tracheostomy connection 60. The container 10 is internally provided with liquid 11 which can be directly injected with water; the bottle cap 20 is fastened at the open position of the container 10, a first air hole 21 and a second air hole 22 are formed in the bottle cap 20, and the first air hole 21 and the second air hole 22 are through holes and are communicated with the inner cavity of the container 10 and the outside atmosphere; the first air pipe 30 is inserted into the first air hole 21 or the second air hole 22, the first air pipe 30 is a long pipe, and the bottom end of the first air pipe 30 is immersed into the liquid 11 in the container 10; the bottom end of the second air tube 40 is directly inserted into the top end of the first air tube 30.

The autogenous cutting connection 60 comprises a tee joint, one of the ports of the tee joint is provided with an autogenous cutting interface 61 for accessing the patient's autogenous cutting, and the other two ports are respectively provided with a first check valve 62 and a second check valve 63. The conducting direction of the first check valve 62 faces the inner side of the tee joint, and the conducting direction of the second check valve 63 faces the outer side of the tee joint; one end of the autogenous cutting interface 61 and one end of the second one-way valve 63 are opposite ends. The end of the second check valve 63 is connected to the top end of the second air pipe 40.

During expiration, gas enters from the autogenous cutting interface 61, the gas opens the second one-way valve 63, sequentially passes through the second gas pipe 40 and the first gas pipe 30, enters the liquid 11, and escapes from the other gas hole; during inspiration, external air enters from the first one-way valve 62 and flows out from the autogenous cutting interface 61, and at the moment, the second one-way valve 63 is in a closed state, so that negative pressure generated by inspiration is prevented from causing the liquid 11 to uprush from the container 10, and the choking of the lung of a patient is avoided.

Fifth embodiment:

the device is suitable for the inspiration training of the autogenous cutting patient, and is the interchange of the left and right inserting structures of the third embodiment, and the working principle is the same.

Example six:

the device is suitable for the expiratory training of the autogenous cutting patient, and is the interchange of the left and right inserting structures of the fourth embodiment, and the working principle is the same.

For all the embodiments described above:

preferably, the present utility model further includes a sealing ring 70 for sealing the coupling gap between the bottle cap 20 and the container 10. The cap 20 is screwed onto the neck of the container 10, and the sealing ring 70 is tightly arranged between the cap 20 and the container 10.

Preferably, in order to facilitate the clamping of the air pipes, the first air hole 21 is further provided with a step structure 23, and the peripheries of the first air pipe 30 and the second air pipe 40 are respectively provided with a matched step structure 23. Similarly, the second air hole 22 is also provided with a step structure 23, and the outer circumferences of the first air pipe 30 and the second air pipe 40 are respectively provided with a matched step structure 23.

For embodiment one, embodiment two: the mouthpiece 50 is preferably directly sleeved on the top end of the second air tube 40, which has the advantage of easy disassembly, installation and replacement.

For embodiments three, five: preferably, one end of the tee joint, where the first check valve 62 is located, is directly sleeved on the second air pipe 40, which has the advantages of convenient disassembly, installation and replacement.

For embodiments four, six: preferably, the end of the tee joint where the second one-way valve 63 is located is directly sleeved on the second air pipe 40, and the tee joint has the advantages of convenient disassembly, installation and replacement.

The utility model can be flexibly and freely assembled with the first air pipe 30 and the second air pipe 40 to adapt to different demands of users to switch to the expiratory training function or the inspiratory training function, and the air pipe is convenient to assemble and disassemble, so that the utility model integrates the expiratory and inspiratory functions into a whole, can be used for different training crowds at the same time, has higher flexibility and wider application range of products, and can provide better expiratory and inspiratory training effects; meanwhile, the number of components is small, the economical efficiency is high, and the environmental protection degree is high.

The above embodiments are only preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present utility model are intended to be within the scope of the present utility model as claimed.

Claims (10)

1. A trainer integrating exhalation and inhalation functions, comprising:

a container in which a liquid is contained;

the bottle cap is fastened to the container, a first air hole and a second air hole are formed in the bottle cap, and the first air hole and the second air hole are both communicated with the inner cavity of the container and the outside atmosphere;

the first air pipe is inserted into the first air hole or the second air hole, and the bottom end of the first air pipe is immersed into the liquid in the container;

a second air pipe;

the second air pipe is inserted into another air hole opposite to the first air pipe, and the bottom end of the second air pipe is communicated with the inner cavity of the container and is far away from the liquid;

or alternatively, the process may be performed,

the bottom end of the second air pipe is connected to the top end of the first air pipe.

2. The trainer with integrated exhalation and inhalation functions according to claim 1, wherein said trainer with integrated exhalation and inhalation functions further comprises: a mouthpiece; the mouthpiece is secured to the top end of the second trachea.

3. The trainer with integrated exhalation and inhalation functions according to claim 1, wherein said trainer with integrated exhalation and inhalation functions further comprises: an autogenous cutting connecting piece;

the autogenous cutting connecting piece comprises a tee joint; an air cutting interface for accessing an air cutting opening of a patient is arranged at one port of the tee joint, and a first one-way valve and a second one-way valve are respectively arranged in the other two ports; the conduction direction of the first one-way valve faces the inner side of the tee joint, and the conduction direction of the second one-way valve faces the outer side of the tee joint; one end of the autogenous cutting interface and one end of the second one-way valve are opposite ends;

one end where the second one-way valve is located is connected to the top end of the second air pipe.

4. The trainer with integrated exhalation and inhalation functions according to claim 1, wherein said trainer with integrated exhalation and inhalation functions further comprises: an autogenous cutting connecting piece;

the autogenous cutting connecting piece comprises a tee joint; an air cutting interface for accessing an air cutting opening of a patient is arranged at one port of the tee joint, and a first one-way valve and a second one-way valve are respectively arranged in the other two ports; the conduction direction of the first one-way valve faces the inner side of the tee joint, and the conduction direction of the second one-way valve faces the outer side of the tee joint; one end of the autogenous cutting interface and one end of the second one-way valve are opposite ends;

one end where the first one-way valve is located is connected to the top end of the second air pipe.

5. The trainer with integrated exhalation and inhalation functions according to claim 1, wherein said trainer with integrated exhalation and inhalation functions further comprises: a seal ring; the bottle cap is screwed on the bottleneck position of the container through threads, and the sealing ring is tightly arranged between the bottle cap and the container.

6. The trainer integrating functions of exhalation and inhalation according to claim 1, wherein the first air hole is provided with a step structure, and the peripheries of the first air pipe and the second air pipe are correspondingly provided with matched step structures.

7. The trainer integrating functions of exhalation and inhalation according to claim 1, wherein the second air hole is provided with a step structure, and the peripheries of the first air pipe and the second air pipe are correspondingly provided with matched step structures.

8. The trainer with integrated exhalation and inhalation functions according to claim 2, wherein said mouthpiece is sleeved on top of said second trachea.

9. The trainer integrating the functions of breathing and breathing as claimed in claim 3, wherein one end of the tee joint where the second one-way valve is located is sleeved on the second air pipe.

10. The trainer integrating functions of exhalation and inhalation according to claim 4, wherein one end of the tee joint where the first one-way valve is located is sleeved on the second air pipe.