CN215427203U - Respiratory function training all-in-one machine - Google Patents

Abstract

The utility model relates to the technical field of medical instruments, in particular to a respiratory function training all-in-one machine which comprises a respiratory training main body, wherein the respiratory training main body comprises a breathing pipe, a breathing cavity, a blowing cavity, a breathing floating ball movably arranged in the breathing cavity and a blowing floating ball movably arranged in the blowing cavity, the breathing pipe is provided with a suction port, a blowing port and a suction and blowing port, the top end of the breathing cavity is communicated with the suction and blowing port through the suction port, and the bottom end of the blowing cavity is communicated with the suction and blowing port through the blowing port. The utility model has simple structure, low manufacturing cost and convenient operation, integrates air blowing and air suction training together, can realize continuous air blowing and air suction training and is beneficial to a trainer to more conveniently carry out respiratory function training.

Description

Respiratory function training all-in-one machine

Technical Field

The utility model relates to the technical field of medical instruments, in particular to a respiratory function training all-in-one machine.

Background

Respiration refers to the process of gas exchange between the body and the external environment. The respiratory process of a person includes outer and inner breaths, the outer breath including lung ventilation and lung ventilation. As the old people have weak lung function and reduced lung capacity along with the increase of the age, the lung capacity of the old people is easy to be reduced, or the lung capacity of the old people is easy to be reduced when patients just finish lung surgery, throat surgery and the like, the old people or the patients need to be subjected to breathing training by the breathing training device so as to recover or improve the lung function of the old people or the patients. However, some existing spirometric trainers can only train expiration or inspiration independently, and cannot train expiration and inspiration uninterruptedly. Therefore, the drawbacks are obvious, and a solution is needed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model aims to provide a respiratory function training all-in-one machine which is simple in structure, low in manufacturing cost and convenient and fast to operate, integrates air blowing and air suction training together, can realize continuous air blowing and air suction training and is beneficial to a trainer to more conveniently perform respiratory function training.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a respiratory function training all-in-one, its is including breathing the training main part, breathe the training main part and include the breathing tube, inhale the chamber, blow the chamber, the activity sets up in the intracavity of breathing in floater and the activity sets up in the floater of blowing in the intracavity, the breathing tube is provided with the induction port, blows the mouth and inhales the mouthpiece, inhale the top in chamber via the induction port with inhale the mouthpiece intercommunication, blow the bottom in chamber via the blowing mouth with inhale the mouthpiece intercommunication.

Further, the air suction port is provided with an air suction one-way air valve.

Further, the air blowing port is provided with an air blowing one-way air valve.

Further, the air suction port is communicated with the top end of the air suction cavity through a connecting air pipe.

Furthermore, the suction and blowing port is connected with a suction and blowing pipe.

Further, the air suction and blowing pipe is connected with an air suction and blowing nozzle.

Furthermore, the breathing tube, the inspiration cavity and the blowing cavity are enclosed into a triangular structure.

Furthermore, the quantity of the air suction cavities and the quantity of the air suction floating balls are multiple, the air suction cavities are arranged in parallel, the top ends of the air suction cavities are sequentially communicated, and one air suction floating ball is accommodated in one air suction cavity.

Furthermore, the number of the air blowing cavities and the number of the air blowing floating balls are multiple, the air blowing cavities are arranged in parallel, the bottom ends of the air blowing cavities are sequentially communicated, and one air blowing floating ball is contained in one air blowing cavity.

Further, the bottom of the breathing training main body is connected with a supporting seat.

The utility model has the beneficial effects that: in practical application, the breathing training main body is placed on a supporting surface (such as a table top and the like) or a trainer directly holds the breathing training main body by hand, a mouth of the trainer contains a suction-blowing opening, when the trainer blows air to the suction-blowing opening (exhales), blown air (positive pressure airflow) enters the air blowing cavity through the air blowing opening, the positive pressure airflow blows an air blowing floating ball positioned at the bottom end of the air blowing cavity towards the top end direction of the air blowing cavity, so that the air blowing floating ball moves upwards along the air blowing cavity, and the rising height of the air blowing floating ball in the air blowing cavity depends on the air volume blown by the trainer; when a trainer inhales air from the inhaling mouth, the inspiratory air flow (negative pressure air flow) enters the inspiratory cavity through the inhaling mouth, the negative pressure air flow can suck the inspiratory floating ball positioned at the bottom end of the inspiratory cavity towards the top end direction of the inspiratory cavity, so that the inspiratory floating ball moves upwards along the inspiratory cavity, and the rising height of the inspiratory floating ball in the inspiratory cavity depends on the air quantity inhaled by the trainer; the trainee continuously switches between air blowing and air suction of the air suction opening to realize continuous air blowing and air suction training. The utility model has simple structure, low manufacturing cost and convenient operation, integrates air blowing and air suction training together, can realize continuous air blowing and air suction training and is beneficial to a trainer to more conveniently carry out respiratory function training.

Drawings

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

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

Description of reference numerals:

1. a breath training subject; 2. a breathing tube; 3. an air suction cavity; 4. an air blowing cavity; 5. a suction floating ball; 6. a blowing floating ball; 7. an air suction port; 8. an air blowing port; 9. a suction and blowing port; 10. an air suction one-way air valve; 11. a blowing one-way air valve; 12. connecting an air pipe; 13. a suction and blowing pipe; 14. a suction and blowing nozzle; 15. a supporting seat; 16. a blowing exhaust hole; 17. and a suction air inlet hole.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

As shown in fig. 1, the respiratory function training integrated machine provided by the utility model comprises a respiratory training main body 1, wherein the respiratory training main body 1 comprises a breathing tube 2, an inhalation cavity 3, a blowing cavity 4, an inhalation floating ball 5 movably arranged in the inhalation cavity 3 and a blowing floating ball 6 movably arranged in the blowing cavity 4, the breathing tube 2 is provided with an air suction port 7, an air blowing port 8 and an inhalation blowing port 9, the top end of the inhalation cavity 3 is communicated with the inhalation blowing port 9 through the air suction port 7, and the bottom end of the blowing cavity 4 is communicated with the inhalation blowing port 9 through the air blowing port 8; at the beginning, the air suction floating ball 5 is positioned at the bottom end of the air suction cavity 3 under the action of gravity, and the air blowing floating ball 6 is positioned at the bottom end of the air blowing cavity 4 under the action of gravity.

In practical application, the breathing training main body 1 is placed on a supporting surface (such as a table top and the like) or a trainer directly holds the breathing training main body 1 by hand, the mouth of the trainer contains a suction-blowing opening 9, when the trainer blows air to the suction-blowing opening 9 (exhale), blown air (positive pressure airflow) enters the air blowing cavity 4 through the air blowing opening 8, the positive pressure airflow blows the air blowing floating ball 6 positioned at the bottom end of the air blowing cavity 4 towards the top end direction of the air blowing cavity 4, so that the air blowing floating ball 6 moves upwards along the air blowing cavity 4, and the rising height of the air blowing floating ball 6 in the air blowing cavity 4 depends on the air volume blown by the trainer; when a trainer inhales the suction and blowing opening 9, an inspiratory air flow (negative pressure air flow) enters the inspiratory cavity 3 through the inspiratory opening 7, the negative pressure air flow inhales the inspiratory floating ball 5 positioned at the bottom end of the inspiratory cavity 3 towards the top end direction of the inspiratory cavity 3, so that the inspiratory floating ball 5 moves upwards along the inspiratory cavity 3, and the rising height of the inspiratory floating ball 5 in the inspiratory cavity 3 depends on the air quantity inhaled by the trainer; the trainee switches between the blowing and the inhaling for the inhaling mouth 9 uninterruptedly to realize the continuous blowing and inhaling training. The utility model has simple structure, low manufacturing cost and convenient operation, integrates air blowing and air suction training together, can realize continuous air blowing and air suction training and is beneficial to a trainer to more conveniently carry out respiratory function training.

In this embodiment, the air suction port 7 is provided with an air suction one-way air valve 10; by additionally arranging the air suction one-way valve 10, the air suction one-way valve 10 can be opened only when a trainer sucks air from the air suction opening 9, and air flow sucked enters the air suction cavity 3; when the trainer blows air to the suction opening 9, the air suction one-way air valve 10 is in a closed state; this structural design is favorable to the training person to blow and breathe in more.

In this embodiment, the air blowing port 8 is provided with an air blowing one-way air valve 11; by additionally arranging the air blowing one-way air valve 11, the air blowing one-way air valve 11 can be opened only when a trainer blows air to the air suction opening 9, and air blowing air flow can enter the air blowing cavity 4; when the trainer inhales the suction mouth 9, the air blowing one-way air valve 11 is in a closed state; this structural design is favorable to the training person to blow and breathe in more.

In this embodiment, the air inlet 7 communicates with the top end of the air suction chamber 3 via a connecting air pipe 12; the structure design has simple air passage, and the air suction port 7 is convenient to be communicated with the top end of the air suction cavity 3.

In this embodiment, the suction and blowing port 9 is connected with a suction and blowing pipe 13, and the suction and blowing pipe 13 is a hose, so that the length of the suction and blowing port 9 is prolonged, and a trainer can conveniently suck or blow air into the suction and blowing port 9.

In this embodiment, the air suction and blowing pipe 13 is connected with an air suction and blowing nozzle 14, so that a trainer can conveniently suck or blow air into the air suction and blowing port 9, and the air suction and blowing nozzle 14 can be conveniently cleaned and sterilized, so that different trainers can conveniently use the air suction and blowing pipe.

In this embodiment, the breathing tube 2, the inhalation cavity 3 and the insufflation cavity 4 are enclosed to form a triangular structure; specifically, the triangular structure is an isosceles triangle structure, so that the LED lamp is firm in structure, not easy to deform, attractive in appearance, simple in structure, light in weight, easy and convenient to use.

In this embodiment, the connecting air tube 12 is parallel to the air suction cavity 3, and the connecting air tube 12 is located inside the air suction cavity 3; the structure design ensures that the utility model has simple and compact structure and beautiful appearance.

In this embodiment, the bottom of the respiratory training main body 1 is connected with a support seat 15, and the support seat 15 can support the respiratory training main body 1. Preferably, the bottom of the supporting seat 15 is provided with a non-slip mat, which not only plays a role of non-slip, improves the stability of the present invention placed on a supporting surface (such as a table top, etc.), but also plays a role of buffer protection, shock absorption and noise reduction.

Specifically, the top end of the air blowing cavity 4 is provided with an air blowing exhaust hole 16, and the air blowing exhaust hole 16 exhausts air in the rising process of the air blowing floating ball 6, so that a trainer can perform air blowing training normally; the bottom of the air suction cavity 3 is provided with an air suction inlet hole 17, and the air suction inlet hole 17 is used for air suction in the ascending process of the air suction floating ball 5, so that the training of the trainee can be normally performed.

Specifically, the outer side wall of the air suction floating ball 5 is hermetically connected or attached to the inner wall of the air suction cavity 3, and the outer side wall of the air blowing floating ball 6 is hermetically connected or attached to the inner wall of the air blowing cavity 4.

Example two.

As shown in fig. 2, the present embodiment is different from the first embodiment in that: in this embodiment, the number of the air suction cavities 3 and the number of the air suction floating balls 5 are both multiple, the air suction cavities 3 are arranged in parallel, the top ends of the air suction cavities 3 are sequentially communicated, and one air suction floating ball 5 is accommodated in one air suction cavity 3. Through increasing the quantity of chamber 3 of breathing in, can increase the training intensity of breathing in of training person to make training person can carry out the training of breathing in of different intensity according to the recovered degree of difference.

In this embodiment, the number of the air blowing cavities 4 and the number of the air blowing floating balls 6 are both multiple, the air blowing cavities 4 are arranged in parallel, the bottom ends of the air blowing cavities 4 are sequentially communicated, and one air blowing floating ball 6 is accommodated in one air blowing cavity 4. By increasing the number of the air blowing chambers 4, the air blowing training intensity of the trainer can be increased, so that the trainer can perform air blowing training with different intensities according to different rehabilitation degrees.

The remaining structure of this embodiment is the same as that of the first embodiment, and the same structure is analyzed by the first embodiment, which is not described herein again.

All the technical features in the embodiment can be freely combined according to actual needs.

The above embodiments are preferred implementations of the present invention, and the present invention can be implemented in other ways without departing from the spirit of the present invention.

Claims (10)

1. The utility model provides a respiratory function trains all-in-one which characterized in that: including breathing the training main part, breathe the training main part and include the breathing tube, inhale the chamber, blow the air cavity, the activity sets up the floater of breathing in and the activity that breathes in the intracavity sets up the floater of blowing in the intracavity, the breathing tube is provided with the induction port, blows the mouth and inhales the mouthpiece, the top in the chamber of breathing in is via the induction port and inhale the mouthpiece intercommunication, the bottom in the air cavity is via blowing the mouth and inhaling the mouthpiece intercommunication.

2. The respiratory function training all-in-one machine of claim 1, wherein: the air suction port is provided with an air suction one-way air valve.

3. A respiratory function training all-in-one machine according to claim 1 or 2, wherein: the air blowing port is provided with an air blowing one-way air valve.

4. A respiratory function training all-in-one machine according to claim 1 or 2, wherein: the air suction port is communicated with the top end of the air suction cavity through a connecting air pipe.

5. The respiratory function training all-in-one machine of claim 1, wherein: the suction and blowing port is connected with a suction and blowing pipe.

6. The respiratory function training all-in-one machine of claim 5, wherein: the air suction and blowing pipe is connected with an air suction and blowing nozzle.

7. The respiratory function training all-in-one machine of claim 1, wherein: the respiratory tube, the inspiration cavity and the blowing cavity are enclosed into a triangular structure.

8. The respiratory function training all-in-one machine of claim 1, wherein: the quantity of the chamber of breathing in and the quantity of the floater of breathing in are a plurality of, a plurality of parallel arrangement of chamber of breathing in, and the top in a plurality of chambers of breathing in communicates in proper order, and a floater of breathing in holds and locates a intracavity of breathing in.

9. The respiratory function training all-in-one machine of claim 1, wherein: the quantity of the air blowing cavities and the quantity of the air blowing floating balls are multiple, the air blowing cavities are arranged in parallel, the bottom ends of the air blowing cavities are sequentially communicated, and one air blowing floating ball is contained in one air blowing cavity.

10. The respiratory function training all-in-one machine of claim 1, wherein: the bottom of the respiration training main body is connected with a supporting seat.

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