CN110624218A - Breathe internal medicine with pulmonary function trainer - Google Patents

Abstract

The invention discloses a pulmonary function training device for respiratory medicine, which structurally comprises a telescopic respiratory tube, a connecting small tube, an air inlet tube, a connecting tube and a control valve, the invention adopts the mutual design of a balloon, a third transparent pipe, a second transparent pipe and a first transparent pipe, utilizes the height of the up-and-down suspension of the balloon to directly and objectively observe the strength of the balloon, enables a patient to be intuitive, and easily controls the rhythm of breathing and inhaling, and achieves the purpose of efficient training effect.

Description

Breathe internal medicine with pulmonary function trainer

Technical Field

The invention relates to the field of medical equipment, in particular to a lung function training device for respiratory medicine.

Background

The pulmonary function rehabilitation training is also called respiratory rehabilitation training and is an important component of the overall pulmonary function rehabilitation scheme of a patient with pulmonary diseases, and the existing pulmonary function training device cannot enable the patient to objectively control the training intensity because the display of the display is complex and troublesome to operate, and the operator needs to press the control piece continuously.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a lung function training device for a respiratory medicine structurally comprises a telescopic breathing tube, a connecting small tube, an air inlet tube, a connecting tube, a control valve, a chassis and a step display system, wherein the step display system is arranged on the top end face of the chassis, the air inlet tube is installed on the chassis on one side of the step display system, the control valve is arranged between the air inlet tube and the step display system, the connecting tube is arranged at the top end of the air tube, the connecting tube and the air tube are connected together, the connecting small tube is horizontally installed on the side face of the connecting tube, the telescopic breathing tube is nested at the tail end of the connecting small tube, and the telescopic breathing tube is movably connected with the oral cavity of a.

As a further optimization of the technical scheme, the ladder display system is provided with a communicating vessel, a third transparent tube, a second transparent tube, a first transparent tube, a balloon and an air placing device, the third transparent tube, the second transparent tube and the first transparent tube are arranged on the top end face of the chassis from left to right, the first transparent tube is adjacent to the air inlet tube, the top ends of the second transparent tube and the first transparent tube are communicated through the communicating vessel, the bottoms of the first transparent tube and the air inlet tube are communicated through the air placing device, the air placing device is provided with a control valve, the bottoms of the third transparent tube and the second transparent tube are connected through the air placing device, the balloons are arranged inside the third transparent tube, the second transparent tube and the first transparent tube, and the balloons are movably matched with the third transparent tube, the second transparent tube and the first transparent tube.

As a further optimization of the technical scheme, the three transparent tubes, the second transparent tube and the first transparent tube are consistent in size and height.

As a further optimization of the technical scheme, the diameter of the balloon ball is smaller than the diameters of the sections of the third transparent tube, the second transparent tube and the first transparent tube.

As a further optimization of the technical scheme, the communicating vessel is composed of a U-shaped tube, a communicating tube and a floating plug, the U-shaped tube is placed in an inverted manner, the communicating tube is installed at two ends of the bottom of the U-shaped tube, the bottom of the communicating tube is embedded in the top ends of the second transparent tube and the first transparent tube, the floating plug is arranged inside the communicating tube connected with the first transparent tube, and the floating plug and the communicating tube are in sliding fit.

As a further optimization of the technical scheme, the floating plug is of an inverted T-shaped structure, the horizontal length of the horizontal end of the floating plug is smaller than the diameter of the communicating pipe, and the vertical end of the floating plug is of a structure with a wide upper part and a narrow lower part.

As the further optimization of the technical scheme, the air feeder is provided with an embedded opening, a jacking pipe, branch blocks and a through pipe, the embedded opening is formed in the chassis, the jacking pipe is arranged in the middle of the right side of the embedded opening, the inner wall of the embedded opening is provided with more than two branch blocks, the branch blocks are distributed in a circular equidistant mode, the through pipe is installed at the bottom of the jacking pipe, and the other end of the through pipe is communicated with the bottom of the jacking pipe of another air feeder.

As a further optimization of the technical scheme, the height of the jacking pipe is lower than that of the support block.

Advantageous effects

Compared with the prior art, the lung function training device for the respiratory medicine has the following advantages:

1. the invention adopts the mutual design of the balloon, the third transparent tube, the second transparent tube and the first transparent tube, and utilizes the height of the balloon suspended from top to bottom to directly and objectively observe the intensity of the balloon, so that a patient can visually observe the rhythm of breathing and sucking easily, and the aim of high-efficiency training effect is achieved.

2. According to the three-gear step type design, only when the balloon in the first transparent tube rises to push the floating plug upwards, the breathing gas can possibly enter the second transparent tube to enable the balloon in the tube to rise, and when the balloon in the third transparent tube rises to push the balloon upwards, the breathing gas can possibly enter the third transparent tube to enable the balloon in the tube to rise, so that the objective change of the breathing intensity is realized, and the observation is also facilitated.

3. The invention adopts the control valve, is opened and closed at one time and does not need to be pressed all the time for measurement.

4. The floating plug adopts a design of being wide at the top and narrow at the bottom, and when the floating plug rises, gas can enter the U-shaped pipe from two sides of the horizontal end of the floating plug, so that the connectivity of the second transparent pipe and the first transparent pipe is ensured.

5. The air placing device not only serves as a communicated air pipe, but also can form a stably placed base by utilizing the height difference between the top pipe and the support block, so that the balloon can be conveniently placed and does not roll everywhere.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic perspective view of a lung function training device for respiratory medicine of the present invention.

Fig. 2 is a schematic cross-sectional view of a lung function training device for respiratory medicine according to the present invention.

FIG. 3 is an enlarged view of B in FIG. 2 according to the present invention.

Fig. 4 is a schematic cross-sectional view of the communicating vessel of the present invention in use.

FIG. 5 is an enlarged view of the structure A in FIG. 2 according to the present invention.

Fig. 6 is a partial perspective view of the gas holder of the present invention.

In the figure: the device comprises a telescopic breathing tube 1, a connecting small tube 2, an air inlet tube 3, a connecting tube 4, a control valve 5, a chassis 6, a ladder display system 7, a communicating vessel 71, a third transparent tube 72, a second transparent tube 73, a first transparent tube 74, a balloon 75, an air holder 76, a U-shaped tube 711, a connecting tube 712, a floating plug 713, a caulking 761, a top tube 762, a supporting block 763 and a through tube 764.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Examples

Referring to fig. 1-3, the invention provides a lung function training device for department of respiratory medicine, which comprises a telescopic breathing tube 1, a connecting small tube 2, an air inlet tube 3, a connecting tube 4, a control valve 5, a chassis 6 and a step display system 7, wherein the step display system 7 is arranged on the top end face of the chassis 6, the air inlet tube 3 is arranged on the chassis 6 on one side of the step display system 7, the control valve 5 is arranged between the air inlet tube 3 and the step display system 7, the connecting tube 4 is arranged at the top end of the air tube 3, the connecting tube 4 is connected with the air tube 3, the connecting small tube 2 is horizontally arranged on the side face of the connecting tube 4, the telescopic breathing tube 1 is nested at the tail end of the connecting small tube 2, and the telescopic breathing tube 1 is movably connected with the oral cavity.

The ladder display system 7 is provided with a communicating vessel 71, a third transparent tube 72, a second transparent tube 73, a first transparent tube 74, a balloon 75 and an air placing device 76, the third transparent pipe 72, the second transparent pipe 73 and the first transparent pipe 74 are arranged on the top end surface of the chassis 6 from left to right, the first transparent pipe 74 is adjacent to the air inlet pipe 3, the top ends of the second transparent pipe 73 and the first transparent pipe 74 are communicated through a communicating vessel 71, the bottom parts of the first transparent pipe 74 and the air inlet pipe 3 are communicated through an air placing vessel 76, the gas holder 76 is provided with a control valve 5, the bottoms of the third transparent pipe 72 and the second transparent pipe 73 are connected through the gas holder 76, the third transparent tube 72, the second transparent tube 73 and the first transparent tube 74 are internally provided with a balloon 75, the balloon 75 is movably matched with the third transparent tube 72, the second transparent tube 73 and the first transparent tube 74.

The three transparent tubes 72, the second transparent tube 73 and the first transparent tube 74 are identical in size and height.

The diameter of the balloon 75 is smaller than the diameters of the sections of the third transparent tube 72, the second transparent tube 73 and the first transparent tube 74, so that the balloon 75 can conveniently move in a vertically suspended manner and cannot be blocked.

The communicating vessel 71 is provided with a U-shaped tube 711, a communicating tube 712 and a floating plug 713, the U-shaped tube 711 is placed in an inverted manner, the communicating tube 712 is installed at two ends of the bottom of the U-shaped tube 711, the bottom of the communicating tube 712 is embedded at the top ends of the second transparent tube 73 and the first transparent tube 74, the floating plug 713 is arranged inside the communicating tube 712 connected with the first transparent tube 74, and the floating plug 713 and the communicating tube 712 are in sliding fit.

The floating plug 713 is of an inverted T-shaped structure, the horizontal length of the horizontal end of the floating plug 713 is smaller than the inner diameter of the communicating pipe 712, the vertical end of the floating plug 713 is of a structure with a wide upper part and a narrow lower part, once the floating plug 713 rises, gas can enter the U-shaped pipe 711 from two sides of the horizontal end of the floating plug 713, and connectivity between the second transparent pipe 73 and the first transparent pipe 74 is ensured.

The air holder 76 is provided with an embedding opening 761, a jacking pipe 762, supporting blocks 763 and a through pipe 764, wherein the embedding opening 761 is arranged on the chassis 6, the jacking pipe 762 is arranged in the middle of the embedding opening 761, the inner wall of the embedding opening 761 is provided with more than two supporting blocks 763, the supporting blocks 763 are distributed in a circular and equidistant mode, the through pipe 764 is installed at the bottom of the jacking pipe 762, and the other end of the through pipe 764 is communicated with the bottom of the jacking pipe 762 of another air holder 76.

The height of the top pipe 762 is lower than that of the support block 763, a stably placed base is formed by the height difference between the top pipe and the support block, the balloon 75 can be placed conveniently, and the balloon cannot roll everywhere.

When the breathing device is used, the control valve 5 is opened, the telescopic breathing tube 1 is placed in the oral cavity of a patient, in a breathing room, exhaled air passes through the air inlet pipe 3 and the air placing device 76 provided with the control valve 5, enters the first transparent tube 74, the balloon 75 in the first transparent tube 74 rises, the balloon 75 rises to the highest point, the floating plug 713 is lifted by the balloon 75 to lift the floating plug 713, the floating plug 713 adopts a design of being wide at the top and narrow at the bottom, when the floating plug 713 rises, the air enters the U-shaped tube 711 from two sides of the horizontal end of the floating plug 713, the connectivity between the second transparent tube 73 and the first transparent tube 74 is ensured, the breathing air enters the second transparent tube 73 to lift the balloon 75 in the tube, then the air placing device 76 between the third transparent tube 72 and the second transparent tube 73 is connected, the balloon 75 in the third transparent tube rises to lift the balloon 75 in the third transparent tube to lift the breathing air in the third transparent tube 72, the objective change of the breathing intensity is realized, the observation is convenient, in the process, firstly, the air receiver 76 is used as a communicated air pipe, a stably placed base can be formed by utilizing the height difference between the top pipe 762 and the support block 763, the placement of the balloon 75 is convenient, the balloon does not roll around, secondly, the diameter of the balloon 75 is smaller than the diameters of the sections of the third transparent pipe 72, the second transparent pipe 73 and the first transparent pipe 74, the balloon 75 can conveniently move in a vertically suspended mode, and the blocking cannot happen.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides a breathe pulmonary function trainer for internal medicine which characterized in that: the novel multifunctional breathing tube structurally comprises a telescopic breathing tube (1), a connecting small tube (2), an air inlet tube (3), a connecting tube (4), a control valve (5), a chassis (6) and a step display system (7), wherein the step display system (7) is arranged on the top end face of the chassis (6), the air inlet tube (3) is installed on the chassis (6) on one side of the step display system (7), the control valve (5) is arranged between the air inlet tube (3) and the step display system (7), the connecting tube (4) is arranged at the top end of the air tube (3), the connecting small tube (2) is horizontally installed on the side face of the connecting tube (4), the telescopic breathing tube (1) is nested at the tail end of the connecting small tube (2), and the telescopic breathing tube (1) is movably connected.

2. The lung function training device for respiratory medicine according to claim 1, wherein: the ladder display system (7) is provided with a communicating vessel (71), a third transparent tube (72), a second transparent tube (73), a first transparent tube (74), a balloon (75) and an air placing device (76), wherein the third transparent tube (72), the second transparent tube (73) and the first transparent tube (74) are arranged on the top end face of the chassis (6) from left to right, the first transparent tube (74) is adjacent to the air inlet tube (3), the top ends of the second transparent tube (73) and the first transparent tube (74) are communicated through the communicating vessel (71), the air placing device (76) is provided with a control valve (5), the bottoms of the third transparent tube (72) and the second transparent tube (73) are connected through the air placing device (76), and the balloons (75) are arranged inside the third transparent tube (72), the second transparent tube (73) and the first transparent tube (74).

3. The lung function training device for the respiratory medicine according to claim 2, wherein: the three transparent tubes (72), the second transparent tube (73) and the first transparent tube (74) are consistent in size and height.

4. The lung function training device for the respiratory medicine according to claim 2, wherein: the diameter of the balloon (75) is smaller than the diameters of the sections of the third transparent tube (72), the second transparent tube (73) and the first transparent tube (74).

5. The lung function training device for the respiratory medicine according to claim 2, wherein: the communicating device (71) is provided with a U-shaped pipe (711), a communicating pipe (712) and a floating plug (713), the U-shaped pipe (711) is placed in an inverted mode, the communicating pipe (712) is installed at two ends of the bottom of the U-shaped pipe (711), the bottom of the communicating pipe (712) is embedded into the top ends of the second transparent pipe (73) and the first transparent pipe (74), and the floating plug (713) is arranged inside the communicating pipe (712) connected with the first transparent pipe (74).

6. The lung function training device for the respiratory medicine according to claim 5, wherein: the floating plug (713) is of an inverted T-shaped structure, the horizontal length of the horizontal end of the floating plug (713) is smaller than the inner diameter of the communicating pipe (712), and the vertical end of the floating plug (713) is of a structure with a wide upper part and a narrow lower part.

7. The lung function training device for the respiratory medicine according to claim 2, wherein: it inlays mouth (761), push pipe (762), props up piece (763), siphunculus (764) to put gas ware (76) is equipped with, inlays mouth (761) and opens on chassis (6), it is equipped with push pipe (762) to inlay mouthful (761) centre, it is equipped with two or more prop up piece (763) to inlay mouthful (761) inner wall, siphunculus (764) are installed to push pipe (762) bottom, siphunculus (764) other end and another push pipe (762) bottom of putting gas ware (76) are linked together.

8. The lung function training device for the respiratory medicine according to claim 7, wherein: the height of the top pipe (762) is lower than that of the support block (763).