CN220070685U - Portable breathing training ware - Google Patents

Abstract

The utility model discloses a movable respiration training device, which comprises a respiration pipe fitting and tapered slotted holes symmetrically arranged on the outer wall of the respiration pipe fitting, wherein the tapered slotted holes comprise wide parts and narrow parts, a closed pipe is rotatably arranged on the outer wall of the respiration pipe fitting in a threaded manner, the closed pipe moves along the wide parts to the narrow parts to shield the tapered slotted holes, and an opening and closing assembly used for opening and closing the end parts of the respiration pipe fitting is arranged at the second end of the respiration pipe fitting. According to the respiration training device, the closed pipe moves along the wide part to the narrow part so as to shield the conical slotted hole, the sizes of the conical slotted holes are controlled so as to adapt to different people, when a user holds the first end of the respiration pipe fitting for inhalation training, the opening and closing assembly controls the respiration pipe fitting to be closed when in exhalation at the moment, so that a trainer can inhale and block the respiration, and similarly, the opening and closing assembly controls the respiration pipe fitting to be closed when in exhalation when in inhalation, so that the trainer can exhale and block the respiration, and the respiration pipe fitting is short and portable.

Description

Portable breathing training ware

Technical Field

The utility model relates to the technical field of breath trainers, in particular to a mobile breath trainer.

Background

During normal inhalation, the diaphragm contracts and the external intercostal muscles contract, and when the person inhales forcefully, inhalation auxiliary muscles such as trapezius muscles and oblique muscles are needed to assist, and as a result, the chest is lifted up to the limit by the contraction of the muscles, and therefore, the inhalation muscles are required to be exercised.

At present, most respiratory training machines adopt the basic principle of impedance training, and a user needs to expend effort to resist the impedance set by the training machine when inhaling through the respiratory training machine so as to increase the respiratory muscle strength and tolerance.

However, some breath trainers cannot adjust the inhaled or exhaled air holes, so that the breath trainers are poor in adaptability, and meanwhile, the breath trainers are large in size and inconvenient to move and train.

Disclosure of Invention

The utility model aims to provide a mobile respiratory trainer which is convenient to carry and respiratory training during exercise, and can adjust the breathing holes of inhalation or exhalation so as to adapt to people with different training degrees.

In order to achieve the above object, the present utility model provides the following technical solutions: the utility model provides a portable respiratory training ware, includes breathe the pipe fitting and the outer wall symmetry has seted up the toper slotted hole thereof, and the toper slotted hole includes wide portion and narrow portion, the outer wall screw thread rotation of breathing the pipe fitting is provided with the sealed pipe, the sealed pipe is followed wide portion and is removed to narrow portion in order to shield the toper slotted hole, the second end of breathing the pipe fitting is provided with the subassembly of opening and close that is used for opening and close the pipe fitting tip.

Preferably, the first end of the breathing tube is provided with a tube, and the end of the tube is provided with a balloon member.

Preferably, the air guide channel communicated with the air bag member is formed in the containing pipe, a first single-pass valve and a second single-pass valve are respectively arranged at two ends of the air guide channel, an air inflation pipe is communicated between the first single-pass valve and the second single-pass valve, and the first end of the air inflation pipe is fixedly provided with a pressing air bag.

Preferably, an air outlet channel communicated with the air bag piece is formed in the containing pipe, and a closed rubber plug is movably arranged on the air outlet channel.

Preferably, the second end of the breathing tube is provided with a limiting ring edge.

Preferably, the opening and closing assembly comprises a vent pipe and threaded rings arranged at two ends of the vent pipe, and further comprises a mounting plate arranged in the vent pipe and an arc rubber flap symmetrically and fixedly arranged on the outer wall of one side of the mounting plate, wherein the mounting plate is provided with a main air hole, one side edge of the arc rubber flap is mutually attached to form a cone part, and one side edge of the arc rubber flap is rotationally arranged at the second end of the breathing pipe fitting through threads of the threaded rings so that the pointed cone end of the cone part faces the second end of the breathing pipe fitting.

Preferably, the other threaded ring is rotatably disposed at the second end of the breathing tube so that the pointed cone end of the cone member is opposite the second end of the breathing tube.

Preferably, clamping rods are symmetrically arranged on the mounting plate in a sliding mode, the first ends of the clamping rods are respectively clamped and arranged in clamping grooves symmetrically formed in the inner wall of the vent pipe, and main springs are respectively and fixedly arranged on the clamping rods.

Preferably, the breathing tube is a rigid plastic tube.

Preferably, the balloon member is a medical balloon.

In the technical scheme, the mobile respiratory training device provided by the utility model has the following beneficial effects: through utilizing the taper slot hole of seting up of breathing pipe fitting upper symmetry, when the gas pocket size of needs adjustment suction or suction, rotate the closed tube through the screw thread so that the closed tube removes in order to shield the taper slot hole along wide portion to narrow portion, the size through control taper slot hole is so that need adapt to different crowds, when the user contains the first end of breathing pipe fitting and breathes in the training, it opens when breathing in to open the subassembly control breathing pipe fitting when breathing in this moment, and then make the training person breathe in and hinder the training, open when breathing in the training of breathing pipe fitting through opening the subassembly control of opening in the same way, and then make the training person breathe in the training of blocking, and breathe the short portable of pipe fitting.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic diagram of an overall structure according to an embodiment of the present utility model;

FIG. 2 is a schematic cross-sectional view of an embodiment of the present utility model;

FIG. 3 is an enlarged schematic view of the structure at A according to an embodiment of the present utility model;

fig. 4 is a schematic diagram of a partial cross-sectional structure according to an embodiment of the present utility model.

Reference numerals illustrate:

1. a respiratory tube; 2. closing the tube; 3. an air bag member; 4. closing the rubber plug; 5. a clamping rod; 6. pressing the air bag; 7. a first one-way valve; 8. a vent pipe; 11. a containing tube; 12. a tapered slot; 13. limit the ring edge; 14. inflating the pipe; 15. an air outlet channel; 16. an air duct; 51. a main spring; 52. a main air hole; 53. a mounting plate; 54. arc rubber flaps; 71. a second one-way valve; 81. a threaded ring.

Detailed Description

In order to make the technical scheme of the present utility model better understood by those skilled in the art, the present utility model will be further described in detail with reference to the accompanying drawings.

As shown in fig. 1-4, a mobile respiratory training device comprises a respiratory tube 1 and tapered slotted holes 12 symmetrically arranged on the outer wall of the respiratory tube 1, wherein the tapered slotted holes 12 comprise wide parts and narrow parts, a closed tube 2 is rotatably arranged on the outer wall of the respiratory tube 1 in a threaded manner, the closed tube 2 moves along the wide parts to the narrow parts to shield the tapered slotted holes 12, and an opening and closing component for opening and closing the end part of the respiratory tube 1 is arranged at the second end of the respiratory tube 1. Through utilizing the toper slotted hole 12 that the symmetry was offered on breathing pipe spare 1, when the gas pocket size of needs adjustment suction or suction, rotate sealed pipe 2 through the screw thread so that sealed pipe 2 remove in order to shield toper slotted hole 12 along wide portion to narrow portion, through the size of control toper slotted hole 12 so that need adapt to different crowds, when the user contains the first end of breathing pipe spare 1 and breathes in the training, it opens when breathing in to open the subassembly control breathing pipe spare 1 when breathing in this moment, and then make the training person breathe in the obstructed training, and the same reason is closed when breathing in the time of opening by opening the subassembly control breathing pipe spare 1, and then make the training person breathe in the obstructed training, and breathe pipe spare 1 shortness portable.

As a further technical solution provided by the present utility model, the first end of the breathing tube member 1 is provided with a tube 11, and the end of the tube 11 is provided with an air bag member 3.

Specifically, as shown in fig. 1, in order to better hold the first end of the breathing tube member 1, the breathing tube member 1 is better held by the mouth of the user by the air bag member 3 provided at the end of the holding tube 11.

Further, a gas guide channel 16 communicated with the air bag member 3 is arranged in the pipe 11, a first single-pass valve 7 and a second single-pass valve 71 are respectively arranged at two ends of the gas guide channel 16, a gas-filling pipe 14 is communicated between the first single-pass valve 7 and the second single-pass valve 71, and a pressing air bag 6 is fixedly arranged at the first end of the gas-filling pipe 14.

Specifically, as shown in fig. 2, the first one-way valve 7 controls the communication between the air duct 16 and the external air, and at the same time, the second one-way valve 71 controls the communication between the air duct 16 and the air bag member 3, so that the air in the pressing air bag 6 enters the air duct 16 by pinching the pressing air bag 6, at this time, the second one-way valve 71 is opened and the first one-way valve 7 is closed, so that the air in the pressing air bag 6 is squeezed into the air bag member 3, at this time, the pressing air bag 6 is released, at this time, the pressing air bag 6 is elastically reset, at this time, the first one-way valve 7 is opened and the second one-way valve 71 is closed, so that the external air enters the air duct 16, along the inflating pipe 14, into the air bag member 3 to reset and deform the air bag member 3, and when the air bag member 3 is contained in the mouth of a user, the breathing pipe member 1 is better held by the mouth of the user by inflating the air bag member 3 by reciprocally pinching the pressing air bag 6.

Further, an air outlet channel 15 communicated with the air bag member 3 is arranged in the pipe 11, and a sealing rubber plug 4 is movably arranged on the air outlet channel 15.

Specifically, to deflate the balloon member 3 for removal of the breathing tube 1 from the user's mouth, the air in the balloon member 3 is vented along the air outlet passage 15 by removing the sealing rubber stopper 4 on the containing tube 11, thereby deflating the balloon member 3 for removal of the breathing tube 1 from the user's mouth.

Furthermore, the second end of the breathing tube 1 is provided with a stop collar edge 13.

Specifically, the limiting ring edge 13 is arranged at the second end of the breathing tube 1, so that the closed tube 2 is limited to prevent the closed tube from slipping off the breathing tube 1.

Further, open and close the subassembly and include breather pipe 8 and set up in the screw thread ring 81 at breather pipe 8 both ends, still including setting up mounting panel 53 and the symmetrical fixed mounting arc rubber lamella 54 on the outer wall of mounting panel 53 one side in breather pipe 8, offered the main gas pocket 52 on the mounting panel 53, and arc rubber lamella 54 one side laminating each other in order to form the awl part, one of them screw thread ring 81 screw thread rotates to set up in the second end of breathing pipe spare 1 in order to make the pointed cone end of awl part towards the second end of breathing pipe spare 1.

Specifically, as shown in fig. 2 and 3, one of the threaded rings 81 of the ventilation pipe 8 is threaded and disposed at the second end of the breathing tube 1 so that the pointed cone end of the cone member faces the second end of the breathing tube 1. When a user inhales, the outside air enters the breathing tube 1 along the main air hole 52 and the gaps of the two arc-shaped rubber flaps 54, and part of the air enters the breathing tube 1 along the conical slotted hole 12, so that the user can inhale conveniently, and when the user exhales, one side edges of the two arc-shaped rubber flaps 54 are mutually attached and sealed under the elastic action of the arc-shaped rubber flaps 54, so that most of the air can only flow out from the conical slotted hole 12, and the training of the exhaling impedance is realized by using the conical slotted hole 12.

Further, another threaded ring 81 is threadedly disposed at the second end of the respiratory tube 1 such that the tapered end of the tapered member is opposite the second end of the respiratory tube 1.

Specifically, the other threaded ring 81 of the ventilation pipe 8 is rotatably disposed at the second end of the breathing tube 1 in a threaded manner, so that the pointed cone end of the cone member is opposite to the second end of the breathing tube 1. As shown in fig. 4, by using two arc-shaped rubber flaps 54 with one side being mutually attached and sealed, most of air can only enter the breathing tube 1 from the conical slot 12 when a user inhales, so that the inhalation resistance is trained, and when the user exhales, the exhaled air flows out along the conical slot 12 and the gaps between the main air hole 52 and the two arc-shaped rubber flaps 54.

Further, the mounting plate 53 is symmetrically provided with a clamping rod 5 in a sliding manner, the first ends of the clamping rod 5 are respectively and fixedly connected with the clamping grooves symmetrically formed in the inner wall of the ventilation pipe 8, and the clamping rods 5 are respectively and fixedly provided with a main spring 51.

Specifically, in order to facilitate cleaning the arc-shaped rubber flap 54, as shown in fig. 3, the two clamping rods 5 are respectively stirred to make the two clamping rods 5 close to each other, and then the first ends of the clamping rods 5 are respectively separated from the clamping grooves symmetrically formed in the inner wall of the ventilation pipe 8, at this time, the mounting plate 53 can be taken out from the ventilation pipe 8, so that the arc-shaped rubber flap 54 is cleaned, and when the mounting plate is required to be mounted, the mounting plate 53 is placed in the ventilation pipe 8 again, and the first ends of the clamping rods 5 are clamped into the clamping grooves to be fixed under the pushing of the main spring 51.

Further, the breathing tube 1 is a rigid plastic tube.

Furthermore, the balloon member 3 is a medical balloon.

Working principle: by inserting the first end of the breathing tube 1 into the mouth of a user and positioning the air bag member 3 in the mouth, by pinching the pressing air bag 6 to allow air in the pressing air bag 6 to enter the air guide passage 16, at this time, the second one-way valve 71 is opened and the first one-way valve 7 is closed, so that air in the pressing air bag 6 is pushed into the air bag member 3, at this time, the pressing air bag 6 is released, at this time, the pressing air bag 6 is elastically restored, at this time, the first one-way valve 7 is opened and the second one-way valve 71 is closed, so that external air enters the air guide passage 16, and then, the external air enters the air bag member 3 along the inflating pipe 14 to restore the air bag member 3, and the pressing air bag member 3 is inflated by reciprocating pinching the pressing air bag member 3, so that when the air bag member 3 is contained in the mouth of the user, the breathing tube 1 is better contained in the mouth of the user. When the expiratory training is needed, one of the threaded rings 81 of the breather pipe 8 is in threaded rotation with the second end of the breathing tube 1, so that the pointed cone end of the cone part faces the second end of the breathing tube 1. When a user inhales, the outside air enters the breathing tube 1 along the main air hole 52 and the gaps of the two arc-shaped rubber flaps 54, and part of the air enters the breathing tube 1 along the conical slotted hole 12, so that the user can inhale conveniently, and when the user exhales, one side edges of the two arc-shaped rubber flaps 54 are mutually attached and sealed under the elastic action of the arc-shaped rubber flaps 54, so that most of the air can only flow out from the conical slotted hole 12, and the training of the exhaling impedance is realized by using the conical slotted hole 12. When the inhalation training is needed, the other threaded ring 81 of the breather pipe 8 is arranged at the second end of the breathing pipe fitting 1 in a threaded rotation mode so that the pointed cone end of the cone part is opposite to the second end of the breathing pipe fitting 1. As shown in fig. 4, by using two arc-shaped rubber flaps 54 with one side being mutually attached and closed, most of air can only enter the breathing tube 1 from the conical slot 12 when a user inhales, and thus, the training of the inhalation resistance is achieved.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the utility model, which is defined by the appended claims.

Claims (10)

1. The utility model provides a portable breathing training ware, its characterized in that, including breathing pipe fitting (1) and outer wall symmetry offered toper slotted hole (12), and toper slotted hole (12) are including wide portion and narrow portion, the outer wall screw thread rotation of breathing pipe fitting (1) is provided with sealed pipe (2), sealed pipe (2) remove in order to shield toper slotted hole (12) along wide portion to narrow portion, the second end of breathing pipe fitting (1) is provided with the subassembly of opening and close that is used for opening and close breathing pipe fitting (1) tip.

2. A mobile respiratory training device according to claim 1, characterized in that the first end of the respiratory tube (1) is provided with a containing tube (11), the end of the containing tube (11) being provided with an air bag member (3).

3. The mobile respiratory training device according to claim 2, wherein the air duct (16) communicated with the air bag member (3) is arranged in the pipe (11), a first single-pass valve (7) and a second single-pass valve (71) are respectively arranged at two ends of the air duct (16), the air duct (16) is communicated with an air inflating pipe (14) between the first single-pass valve (7) and the second single-pass valve (71), and the first end of the air inflating pipe (14) is fixedly provided with a pressing air bag (6).

4. The mobile respiratory training device according to claim 2, wherein the tube (11) is provided with an air outlet channel (15) communicated with the air bag member (3), and the air outlet channel (15) is movably provided with a closed rubber plug (4).

5. A mobile respiratory training device according to claim 1, characterized in that the second end of the respiratory tube (1) is provided with a stop collar rim (13).

6. The mobile respiratory training device according to claim 1, wherein the opening and closing assembly comprises a vent pipe (8) and threaded rings (81) arranged at two ends of the vent pipe (8), the mobile respiratory training device further comprises a mounting plate (53) arranged in the vent pipe (8) and arc-shaped rubber flaps (54) symmetrically and fixedly arranged on the outer wall of one side of the mounting plate (53), the mounting plate (53) is provided with a main air hole (52), one side edge of the arc-shaped rubber flaps (54) is mutually attached to form a cone part, and one threaded ring (81) is rotationally arranged at the second end of the respiratory pipe (1) in a threaded manner so that the pointed cone end of the cone part faces the second end of the respiratory pipe (1).

7. A mobile respiratory training apparatus as claimed in claim 6, wherein the further threaded ring (81) is threadedly mounted on the second end of the respiratory tube (1) such that the tapered end of the tapered member is opposite the second end of the respiratory tube (1).

8. The mobile respiratory training device according to claim 6, wherein the mounting plate (53) is symmetrically provided with clamping rods (5) in a sliding manner, the first ends of the clamping rods (5) are respectively clamped in clamping grooves symmetrically formed in the inner wall of the ventilation pipe (8), and the clamping rods (5) are respectively fixedly provided with main springs (51).

9. A mobile respiratory training apparatus as claimed in claim 1, wherein the respiratory tube (1) is a rigid plastic tube.

10. A mobile respiratory training apparatus as claimed in claim 2, wherein the balloon member (3) is a medical balloon.