CN215538247U

CN215538247U - Device is tempered with vital capacity to department of respiration

Info

Publication number: CN215538247U
Application number: CN202121003520.XU
Authority: CN
Inventors: 陈水琴; 其他发明人请求不公开姓名
Original assignee: First Peoples Hospital of Xiaoshan District
Current assignee: First Peoples Hospital of Xiaoshan District
Priority date: 2021-05-12
Filing date: 2021-05-12
Publication date: 2022-01-18
Anticipated expiration: 2031-05-12

Abstract

The utility model belongs to the technical field of medical equipment, and particularly relates to a spirometric exercise device for a department of respiration, aiming at the problems that the existing spirometric exercise device is still inconvenient to integrally adjust and poor in use experience, the utility model provides a scheme which comprises a training box, wherein the training box is made of aluminum alloy with an open rectangular structure, anti-skid rubber is adhered to the bottom end of the training box, the upper end surface of the training box is connected with a rectangular sealing cover through a screw, two round holes are formed in the surface of the rectangular sealing cover in a penetrating mode, and a connecting pipe is placed inside the training box.

Description

Device is tempered with vital capacity to department of respiration

Technical Field

The utility model relates to the technical field of medical equipment, in particular to a vital capacity exercise device for a respiration department.

Background

Spirometry refers to the volume of gas that tries to exhale after maximum inspiration; comprises three parts of tidal volume, supplementary inspiration volume and supplementary expiration volume; tidal volume refers to the volume inhaled or exhaled by the lungs in one respiratory cycle, the maximum volume inhaled outside the tidal volume is the inspiratory supplement volume, the maximum volume exhaled outside the tidal volume is the expiratory supplement volume, and the volume remaining in the lungs after the maximum exhalation is the residual volume.

_AIn general, the stronger the body, the larger it is. Studies have shown that it is highly correlated with the maximum oxygen uptake. The device is commonly used as an index for evaluating the quality of a human body, so the exercise of the lung capacity becomes one of the ways for strengthening the lung function, but the existing lung capacity exercise device still has the problems of inconvenient overall adjustment and poor use experience, and therefore the device for exercising the lung capacity for the department of respiration is provided for solving the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems that the existing vital capacity exercise device is still inconvenient to integrally adjust and poor in use experience, and provides the vital capacity exercise device for the department of respiration.

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

a vital capacity exercise device for a department of respiration comprises a training box, wherein the training box is made of aluminum alloy with an open rectangular structure, anti-skid rubber is adhered to the bottom end of the training box, the upper end face of the training box is connected with a rectangular sealing cover through a screw, two circular openings are formed in the surface of the rectangular sealing cover in a penetrating mode, a connecting pipe is placed inside the training box, one end of the connecting pipe penetrates through one circular opening to be connected with a guide pipe, and the other end of the connecting pipe penetrates through the other circular opening to be connected with an air outlet pipe; one end of the guide pipe is hermetically and spirally connected with an expiration nozzle, and one end of the air outlet pipe is hermetically and spirally connected with a side pipe; the surface of the side tube is provided with a plurality of openings in a penetrating way, and the surface of each opening is connected with a test strip through a connecting port; one end of the connecting pipe is connected with a connecting pipe through a flow blocking disc, the flow blocking disc is made of medical plastics in an annular structure, threads are arranged on the outer wall of the flow blocking disc, and every two adjacent flow blocking discs are connected through the connecting pipe.

Preferably, the surface of the flow blocking disc is provided with a plurality of flow blocking holes, and flow blocking balls are clamped on the surface of the flow blocking holes; the flow blocking holes are uniformly distributed on the surface of the flow blocking disc, and anti-skid rubber is attached to the inner wall of each flow blocking hole.

Preferably, the medical silica gel of spheroid structure is adopted to the choked flow ball, the spheroid diameter of choked flow ball with the inner wall diameter of choked flow hole keeps unanimous, the great week of choked flow hole with the inner wall laminating of choked flow hole.

Preferably, the connecting pipe adopts PVC of columnar structure, the connecting pipe is "W" structure distribution and is in the inside of training case, be located the inside of training case the connecting pipe with training case is disconnected.

Preferably, the side pipe is made of medical plastics with a columnar structure, and the bottom end face of the side pipe is higher than that of the training box; the surface of the opening is screwed with a sealing plug, and the sealing plug is made of medical plastics with a kettle plug structure; the connecting port is made of medical plastic with a columnar structure; the test strip is made of high-density polyethylene with a strip-shaped structure, and is adhered to the outer wall of the connecting port in a surrounding mode.

Compared with the prior art, the utility model has the advantages that:

(1) when the scheme is used, the bottom end of the expiration nozzle is connected to the outer wall of the upper end of the guide pipe in a rotating mode, the expiration nozzle is made of medical plastics of a funnel structure, connecting threads are arranged on the inner wall of the expiration nozzle, a user blows air to the guide pipe through the expiration nozzle, the guide pipe conveys air flow to the connecting pipe through the flow blocking disc, the air exhaled by the user finally enters the connecting pipe, the air flows along the connecting pipe in the connecting pipe after entering the connecting pipe, then enters the side pipe through the air outlet pipe and finally enters a connecting port arranged on the surface of the opening through the side pipe, and after the connecting port receives the air, a test strip on the outer wall of the connecting port receives the air blowing to generate fluttering;

(2) when the device needs to increase the requirement on vital capacity exercise, a screw driver is used for removing a sealing cover on the surface of the training box, then flow blocking discs are added on the original mounting structure, and every two flow blocking discs are connected through a connecting pipe; the outer wall of the flow blocking disc at the uppermost end is connected to the inner wall of the guide pipe, the sealing cover is connected to the surface of the training box through the screw, and when a user blows air, the air needs to reach the inside of the connecting pipe for a longer time, so that the purpose of increasing the exercise intensity is achieved;

(3) when the device needs to reduce the requirement on vital capacity exercise, the sealing cover on the surface of the training box is removed through a screwdriver, then the choked flow balls are placed on the choked flow disc which is originally installed, the number of the choked flow balls is determined according to the exercise intensity which needs to be increased, after the choked flow balls are placed, the outer wall of the uppermost choked flow disc is connected to the inner wall of the guide pipe, and then the sealing cover is connected to the surface of the training box through screws;

(4) the adjustable joint is convenient to adjust, high in adjusting and fitting degree and capable of bringing stable use experience to users.

Drawings

Fig. 1 is a schematic structural diagram of a respiratory capacity exercise device according to the present invention;

fig. 2 is a schematic structural diagram of a connecting tube of a respiratory capacity exercise device according to the present invention;

fig. 3 is a schematic structural diagram of a flow blocking plate of a respiratory capacity exercise device according to the present invention.

In the figure: the test strip comprises a training box 1, a guide tube 2, a breathing nozzle 3, an air outlet tube 4, a connecting tube 5, a flow blocking disc 51, a flow blocking hole 511, a flow blocking ball 512, a connecting tube 52, an opening 6, a side tube 7, a connecting port 8 and a test strip 9.

Detailed Description

The technical solutions in the embodiments will be described clearly and completely with reference to the drawings in the embodiments, and it is obvious that the described embodiments are only a part of the embodiments, but not all embodiments.

Example one

Referring to fig. 1-3, a vital capacity exercise device for a department of respiration comprises a training box 1, wherein the training box 1 is made of aluminum alloy with an open rectangular structure, anti-slip rubber is adhered to the bottom end of the training box 1, the upper end surface of the training box 1 is connected with a rectangular sealing cover through a screw, two circular openings are formed in the surface of the rectangular sealing cover in a penetrating manner, a connecting pipe 5 is placed inside the training box 1, one end of the connecting pipe 5 penetrates through one circular opening to be connected with a guide pipe 2, and the other end of the connecting pipe 5 penetrates through the other circular opening to be connected with an air outlet pipe 4; one end of the guide pipe 2 is hermetically and spirally connected with an expiration nozzle 3, and one end of the air outlet pipe 4 is hermetically and spirally connected with a side pipe 7; a plurality of open holes 6 are formed on the surface of the side tube 7 in a penetrating way, and the surface of each open hole 6 is connected with a test strip 9 through a connecting port 8; one end of the connecting pipe 5 is connected with a connecting pipe 52 through a flow blocking disc 51, the flow blocking disc 51 is made of medical plastics with an annular structure, the outer wall of the flow blocking disc 51 is provided with threads, and every two adjacent flow blocking discs 51 are connected through the connecting pipe 52.

In this embodiment, a plurality of choke holes 511 are formed in the surface of the choke disc 51, and choke balls 512 are fastened on the surface of the choke holes 511; the flow blocking holes 511 are uniformly distributed on the surface of the flow blocking disc 51, and the inner wall of each flow blocking hole 511 is adhered with anti-skid rubber; the flow blocking ball 512 is made of medical silica gel with a ball structure, the diameter of the ball body of the flow blocking ball 512 is consistent with that of the inner wall of the flow blocking hole 511, and the large circumference of the flow blocking hole 511 is attached to the inner wall of the flow blocking hole 511.

In this embodiment, the connection pipe 5 is made of PVC having a columnar structure, the connection pipe 5 is distributed in the training box 1 in a W-shaped structure, and the connection pipe 5 located in the training box 1 is not connected to the training box 1.

In this embodiment, the side tube 7 is made of medical plastic with a columnar structure, and the bottom end surface of the side tube 7 is higher than that of the training box 1; the surface of the opening 6 is screwed with a sealing plug, and the sealing plug is made of medical plastics with a kettle plug structure.

In this embodiment, the connection port 8 is made of medical plastic having a columnar structure; the test strip 9 is made of high-density polyethylene with a strip-shaped structure, and the test strip 9 is adhered to the outer wall of the connecting port 8 in a surrounding mode.

In the embodiment, when the device is used, the bottom end of the expiration nozzle 3 is screwed on the outer wall of the upper end of the guide tube 2, the expiration nozzle 3 is made of medical plastics with a funnel structure, the inner wall of the expiration nozzle 3 is provided with connecting threads, a user blows air to the guide tube 2 through the expiration nozzle 3, the guide tube 2 transmits air flow to the connecting tube 52 through the flow blocking disc 51, the air exhaled by the user finally enters the connecting tube 5, the air flows along the position of the connecting tube 5 in the connecting tube 5 after entering the connecting tube 5, then enters the side tube 7 through the air outlet tube 4, and finally enters the connecting port 8 arranged on the surface of the opening 6 through the side tube 7, and after the connecting port 8 receives the air, the test strip 9 on the outer wall of the connecting port 8 receives the air blowing to generate fluttering; when the device needs to increase the requirement on vital capacity exercise, a screw driver is used for removing a sealing cover on the surface of the training box 1, then flow blocking discs 51 are added on the original installation structure, and every two flow blocking discs 51 are connected through a connecting pipe 52; the outer wall of the flow blocking disc 51 at the uppermost end is connected to the inner wall of the guide pipe 2, the sealing cover is connected to the surface of the training box 1 through screws, and when a user blows air, the air needs to reach the inside of the connecting pipe 5 for a longer time, so that the purpose of increasing the exercise intensity is achieved.

Example two

In the embodiment, when the device is used, the bottom end of the expiration nozzle 3 is screwed on the outer wall of the upper end of the guide tube 2, the expiration nozzle 3 is made of medical plastics with a funnel structure, the inner wall of the expiration nozzle 3 is provided with connecting threads, a user blows air to the guide tube 2 through the expiration nozzle 3, the guide tube 2 transmits air flow to the connecting tube 52 through the flow blocking disc 51, the air exhaled by the user finally enters the connecting tube 5, the air flows along the position of the connecting tube 5 in the connecting tube 5 after entering the connecting tube 5, then enters the side tube 7 through the air outlet tube 4, and finally enters the connecting port 8 arranged on the surface of the opening 6 through the side tube 7, and after the connecting port 8 receives the air, the test strip 9 on the outer wall of the connecting port 8 receives the air blowing to generate fluttering; when the device needs to reduce and trains the requirement to vital capacity, get rid of the closing cap that is located training case 1 surface through the screwdriver, then place choked flow ball 512 on the choking dish 51 of originally installing, the exercise intensity that the quantity of choked flow ball 512 increased as required is confirmed, after placing finished choked flow ball 512, with the outer wall connection of choking dish 51 of the top in the inner wall of using induction pipe 2, pass through the screw connection on the surface of training case 1 with the closing cap again, the user is when taking exercise, gaseous actual radius through choked flow dish 51 diminishes, at the inside gaseous velocity of flow grow of choked flow dish 51, gaseous actual transit time is just faster, therefore gaseous just can arrive the connecting pipe sooner, realize reducing the mesh of training intensity.

The above descriptions are only preferred embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to, replaced or changed.

Claims

1. The spirometry exercise device for the department of respiration comprises a training box (1), wherein the training box (1) is made of aluminum alloy with an open rectangular structure, and anti-slip rubber is adhered to the bottom end of the training box (1), and is characterized in that the upper end face of the training box (1) is connected with a rectangular sealing cover through a screw, two circular open holes are formed in the surface of the rectangular sealing cover in a penetrating mode, a connecting pipe (5) is placed inside the training box (1), one end of the connecting pipe (5) penetrates through one circular open hole to be connected with a guide pipe (2), and the other end of the connecting pipe (5) penetrates through the other circular open hole to be connected with an air outlet pipe (4); one end of the guide pipe (2) is hermetically and spirally connected with an expiration nozzle (3), and one end of the air outlet pipe (4) is hermetically and spirally connected with a side pipe (7); the surface of the side tube (7) is provided with a plurality of open holes (6) in a penetrating way, and the surface of each open hole (6) is connected with a test strip (9) through a connecting port (8); one end of the connecting pipe (5) is connected with a connecting pipe (52) through a flow blocking disc (51), the flow blocking disc (51) is made of medical plastics in an annular structure, the outer wall of the flow blocking disc (51) is provided with threads, and every two adjacent flow blocking discs (51) are connected through the connecting pipe (52).

2. The lung capacity exercise device for the department of respiration as claimed in claim 1, wherein the surface of the choke plate (51) is provided with a plurality of choke holes (511), and the surface of the choke holes (511) is clamped with a choke ball (512); the flow blocking holes (511) are uniformly distributed on the surface of the flow blocking disc (51), and anti-slip rubber is adhered to the inner wall of each flow blocking hole (511).

3. The respiratory lung capacity exercise device of claim 2, wherein the flow blocking ball (512) is made of medical silica gel with a spherical structure, the diameter of the sphere of the flow blocking ball (512) is consistent with the diameter of the inner wall of the flow blocking hole (511), and the large circumference of the flow blocking hole (511) is attached to the inner wall of the flow blocking hole (511).

4. The spirometric exercise device for department of respiration as claimed in claim 1, characterized in that said connecting pipes (5) are made of PVC with a cylindrical structure, said connecting pipes (5) are distributed inside said training box (1) in a "W" structure, said connecting pipes (5) inside said training box (1) are not connected to said training box (1).

5. The spirometric exercise device for department of respiration as claimed in claim 1, characterized in that said side tube (7) is made of medical plastic with a cylindrical structure, the bottom end surface of said side tube (7) is higher than the bottom end surface of said training box (1); the surface of the opening (6) is screwed with a sealing plug, and the sealing plug is made of medical plastics with a kettle plug structure.

6. The spirometric exercise device for department of respiration as claimed in claim 1, characterized in that said connection port (8) is made of medical plastic of cylindrical structure; the test strip (9) is made of high-density polyethylene with a strip-shaped structure, and the test strip (9) is adhered to the outer wall of the connecting port (8) in a surrounding mode.