CN212593818U

CN212593818U - Lung cancer postoperative respiratory training ware

Info

Publication number: CN212593818U
Application number: CN202020906730.9U
Authority: CN
Inventors: 冯静; 陈成; 刘麾
Original assignee: First People's Hospital Of Guiyang (guiyang Emergency Medical Center)
Current assignee: First People's Hospital Of Guiyang (guiyang Emergency Medical Center)
Priority date: 2020-05-26
Filing date: 2020-05-26
Publication date: 2021-02-26
Anticipated expiration: 2030-05-26

Abstract

The utility model discloses a lung cancer postoperative breathing training device, which comprises a device shell, a first training device, a second training device and a ventilation component, wherein the first training device and the second training device are arranged at the upper end of the device shell in parallel, and the ventilation component is movably connected with the first training device and the second training device respectively; the second training device comprises a device shell, an adjusting component arranged on the device shell, and a training air bag arranged on the device shell and positioned on the inner side of the adjusting component; a connecting air duct assembly is laid in the device shell, and the air duct assembly is connected with the first training device and the training air bag through the connecting air duct assembly; the utility model has the advantages of reasonable design, the adjusting part of adoption can bring the training requirement of different intensity, thereby can satisfy training person's training demand effectively and more do benefit to the rehabilitation of whole training period.

Description

Lung cancer postoperative respiratory training ware

Technical Field

The utility model relates to an auxiliary medical instrument technical field, concretely relates to lung cancer postoperative respiratory training ware.

Background

Lung cancer surgery generally involves removal of part or all of the lung tissue on one side, pain and dyspnea often cause fear to the patient, and in particular, a reduction in respiratory function severely affects the quality of life of the patient. In fact, the body of our people has strong plasticity and compensatory ability, and even if the whole lung is removed, the pulmonary vascular bed is reduced by half, and the pulmonary arterial pressure can still be maintained in a normal range under a resting state. The breathing exercise is simple and effective, is carried out by the patient himself, can effectively relieve tension and pain after operation, is beneficial to the recovery of breathing function, and improves the life quality of the patient. When the patient is awake after the operation, the patient can start to practice after the illness state is stable.

The breathing training device is a physiotherapy auxiliary product aiming at pulmonary complications, and is particularly suitable for rehabilitation training of pulmonary hand.

The breathing training device in the prior art mostly has the problem of single function and no adjusting function, and is very difficult to carry out rehabilitation training of different degrees aiming at the rehabilitation process in the actual use, thereby leading to the problem of poor rehabilitation effect.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems, the utility model provides a lung cancer postoperative breathing training device; the utility model relates to a possess regulatory function's training equipment, can carry out the respiratory training of different intensity according to the different rehabilitation training phase of user, possess better training effect.

The technical scheme of the utility model is that: a lung cancer postoperative breathing trainer comprises a device shell, a first training device, a second training device and a ventilation assembly, wherein the first training device and the second training device are arranged at the upper end of the device shell in parallel, and the ventilation assembly is movably connected with the first training device and the second training device respectively; the second training device comprises a device shell, an adjusting component arranged on the device shell, and a training air bag arranged on the device shell and positioned on the inner side of the adjusting component; a connecting air duct assembly is laid in the device shell, and the air duct assembly is connected with the first training device and the training air bag through the connecting air duct assembly.

Further, the first training equipment comprises 2-5 training cavity pipes which are arranged in parallel and are sequentially communicated, and piston balls which are movably placed in the training cavity pipes and can float up and down in the training cavity pipes; the training cavity tube body is made of medical transparent plastic materials, and the strength of air blowing can be observed visually through the floating height of the piston ball.

Furthermore, the adjusting assembly comprises two adjusting bottom plates which are arranged oppositely, a plurality of spring assemblies of which one ends are respectively and uniformly arranged on the inner side surfaces of the two adjusting bottom plates oppositely, and an air bag mounting plate arranged at the other end of each spring assembly; two adjusting grooves are oppositely formed in the side face of the equipment shell, the two opposite adjusting bottom plates can be respectively installed on the two adjusting grooves through adjusting bolts, and the relative distance between the two opposite adjusting bottom plates can be adjusted through the adjusting bolts; the maximum filling distance reference of the air bag can be effectively changed by utilizing the adjusting bottom plate; and the spring assembly can provide better elastic force, and can form a force which is opposite to the exhaled gas in actual use, so that the training is facilitated.

Furthermore, the connecting air duct comprises a first air duct used for connecting the ventilation assembly and the first training device, a second air duct used for connecting the ventilation assembly and the training air bag, and a third duct used for deflating the training air bag; and a one-way valve is arranged at the joint of the third conduit and the training air bag, and a reverse one-way valve is arranged at the joint of the second air duct and the training air bag.

Furthermore, the ventilation assembly, the first air duct and the second air duct are connected through a three-way valve; in actual use, the actual selection can be performed through the three-way valve, and a user can switch between the first training device and the second training device.

Furthermore, the connecting air duct also comprises a fourth conduit, a jack is arranged on the device shell, one end of the fourth conduit is connected with the second air duct and the ventilation assembly through a three-way valve, and a one-way valve is arranged at the connection part of the fourth conduit and the three-way valve; the other end of the fourth conduit is connected with the jack, and the jack can be inserted into an external oxygen conduit; the fourth conduit can be connected with an external oxygen source, so that a user can have more comfortable use experience due to sufficient oxygen in actual use.

Further, the ventilation assembly comprises a first through pipe for guiding air and a mouthpiece arranged on the through pipe; the first through pipe adopts a telescopic hose; the mouth-piece can lead the user to do the breathing and inspiration training through the mouth.

Further, the ventilation assembly comprises a second through pipe for guiding air and a breathing mask arranged on the second through pipe; the second through pipe adopts a telescopic hose; can make the user carry out the training of breathing in, breathing in through nose or mouth through respirator, the practicality is stronger.

Compared with the prior art, the utility model discloses beneficial effect: the utility model has reasonable design of the whole structure, the adopted adjusting components can bring the training requirements of different strengths, the adjustment of different strengths can be carried out along with the training period of the user in the actual training, and the training requirements of the trainee can be effectively met, thereby being more beneficial to the rehabilitation of the whole training period; just the utility model discloses easy operation in the use of reality, the practicality is stronger, is fit for a large amount of promotions.

Drawings

Fig. 1 is an external structural schematic diagram of embodiment 1 of the present invention;

fig. 2 is a schematic view of the internal structure of the present invention;

fig. 3 is an external structure diagram of embodiment 2 of the present invention;

the device comprises a device shell, a 10-jack, a 2-first training device, a 21-training cavity pipe, a 22-piston ball, a 3-second training device, a 300-adjusting groove, a 31-adjusting component, a 311-adjusting bottom plate, a 312-spring component, a 313-air bag mounting plate, a 32-training air bag, a 4-ventilation component, a 411-first through pipe, a 412-mouthpiece, a 421-second through pipe, a 422-breathing mask, a 5-connecting air duct component, a 51-first air duct, a 52-second air duct, a 53-third duct and a 54-fourth duct.

Detailed Description

Example 1: as shown in fig. 1 and 2, the lung cancer postoperative breathing training device comprises a device housing 1, a first training device 2 and a second training device 3 which are arranged in parallel at the upper end of the device housing 1, and a ventilation assembly 4 which is movably connected with the first training device 2 and the second training device 3 respectively;

as shown in fig. 1, the first training device 2 comprises 3 training cavity pipes 21 which are arranged in parallel and are sequentially communicated, and piston balls 22 which are movably placed inside the training cavity pipes 21 and can float up and down inside the training cavity pipes 21; the specific material of the training cavity tube 21 is medical transparent plastic;

as shown in fig. 2, the second training device 3 comprises a device housing, an adjustment assembly 31 provided on the device housing, and a training air bag 32 provided on the device housing and located inside the adjustment assembly 31;

the adjusting assembly 31 comprises two oppositely arranged adjusting bottom plates 311, 4 spring assemblies 312 with one ends respectively arranged on the inner side surfaces of the two oppositely arranged adjusting bottom plates 311 in a pairwise opposite mode, and an air bag mounting plate 313 arranged at the other end of each spring assembly 312; two adjusting grooves 300 are oppositely arranged on the side surface of the equipment shell, two opposite adjusting bottom plates 311 can be respectively arranged on the two adjusting grooves 300 through adjusting bolts, and the relative distance between the two opposite adjusting bottom plates 311 can be adjusted through the adjusting bolts;

as shown in fig. 2, a connecting airway tube assembly 5 is laid inside the device shell 1, and the airway tube assembly 4 is respectively connected with the first training device 2 and the training air bag 32 through the connecting airway tube assembly 5;

as shown in fig. 2, the ventilation assembly 4 includes a first through pipe 411 for guiding air, and a mouthpiece 412 provided on the through pipe 411; the first through pipe 411 is a telescopic hose;

as shown in fig. 2, the connecting airway tube 5 comprises a first airway tube 51 for connecting the first through tube 411 and the first training device 2, a second airway tube 52 for connecting the first through tube 411 and the training balloon 32, and a third airway tube 53 for deflating the training balloon 32; a check valve is arranged at the joint of the third conduit 53 and the training air bag 32, and a reverse check valve is arranged at the joint of the second air duct 52 and the training air bag 32; the first duct 411, the first air duct 51, and the second air duct 52 are connected by a three-way valve.

The connecting air duct 5 further comprises a fourth conduit 54, the device shell 1 is provided with a jack 10, one end of the fourth conduit 54 is connected with the second air duct 52 and the ventilation assembly 4 through a three-way valve, and a one-way valve is arranged at the joint of the fourth conduit 54 and the three-way valve; the other end of the fourth conduit 54 is connected to the insertion hole 10, and the insertion hole can be inserted into an external oxygen conduit.

It should be noted that the one-way valve and the reverse one-way valve are commercially available medical check valves; the three-way valve adopts the medical three-way valve of selling on the market, and the valve switch of three-way valve all sets up on the lateral wall of casing 1.

When in use, a user places the mouthpiece 412 in the mouth, and then selects the first through pipe 411 to be connected with the first training device 2 or the second training device 3 through the three-way valve among the first through pipe 411, the first air duct 51 and the second air duct 52; when the first through pipe 411 is connected with the first training device 2, the blowing intensity effect can be visually observed through the blowing height of the piston ball 22; when the first through pipe 411 is connected with the second training device 3, the user changes the relative distance between the adjusting bottom plates 311 by adjusting the adjusting bolts, and then breathes; when inhaling, air can be inhaled through the fourth conduit 54, and when the fourth conduit 54 is connected with an external oxygen source, a user can directly inhale oxygen; when exhaling, gaseous through second air duct 52 entering training gasbag 32, because training gasbag 32 both sides receive the oppression of adjusting part 31, consequently the user can reach respiratory training effectively to can adjust and change the relative distance between the adjusting bottom plate 311 and adjust the pressure to training gasbag 32 through adjusting bolt, can make the user carry out the respiratory training of different intensity.

Example 2: the difference from example 1 is: as shown in fig. 3, the ventilation assembly 4 includes a second tube 421 for guiding air, and a breathing mask 422 disposed on the second tube 421; the second tube 421 is a flexible tube.

Claims

1. A lung cancer postoperative breathing trainer comprises a device shell (1), a first training device (2), a second training device (3) and a ventilation assembly (4), wherein the first training device (2) and the second training device (3) are arranged at the upper end of the device shell (1) in parallel, and the ventilation assembly (4) is movably connected with the first training device (2) and the second training device (3) respectively; characterized in that the second training device (3) comprises a device housing, an adjusting component (31) arranged on the device housing, and a training airbag (32) arranged on the device housing and positioned inside the adjusting component (31); a connecting air duct assembly (5) is laid in the device shell (1), and the air duct assembly (4) is connected with the first training device (2) and the training air bag (32) through the connecting air duct assembly (5).

2. The lung cancer postoperative breathing training device according to claim 1, wherein the first training device (2) comprises 2-5 training cavity pipes (21) which are arranged in parallel and are communicated in sequence, and piston balls (22) which are movably placed inside the training cavity pipes (21) and can float up and down inside the training cavity pipes (21).

3. The lung cancer postoperative breathing training device of claim 1, wherein the adjusting assembly (31) comprises two oppositely arranged adjusting bottom plates (311), a plurality of spring assemblies (312) with one ends respectively and uniformly arranged on the inner side surfaces of the two oppositely arranged adjusting bottom plates (311), and an air bag mounting plate (313) arranged at the other end of the spring assemblies (312); two adjusting grooves (300) are oppositely arranged on the side face of the equipment shell, the two opposite adjusting bottom plates (311) can be respectively installed on the two adjusting grooves (300) through adjusting bolts, and the relative distance between the two opposite adjusting bottom plates (311) can be adjusted through the adjusting bolts.

4. The lung cancer postoperative breathing training device according to claim 1, wherein the connecting airway tube assembly (5) comprises a first airway tube (51) for connecting the ventilation assembly (4) and the first training device (2), a second airway tube (52) for connecting the ventilation assembly (4) and the training balloon (32), and a third airway tube (53) for deflating the training balloon (32); and a one-way valve is arranged at the joint of the third conduit (53) and the training air bag (32), and a reverse one-way valve is arranged at the joint of the second air duct (52) and the training air bag (32).

5. The lung cancer postoperative breathing training device of claim 4, wherein the ventilation assembly (4), the first airway tube (51) and the second airway tube (52) are connected through a three-way valve.

6. The lung cancer postoperative breathing training device according to claim 4, wherein the connecting airway tube assembly (5) further comprises a fourth conduit (54), the device housing (1) is provided with a jack (10), one end of the fourth conduit (54) is connected with the second airway tube (52) and the ventilation assembly (4) through a three-way valve, and a one-way valve is arranged at the connection position of the fourth conduit (54) and the three-way valve; the other end of the fourth conduit (54) is connected with the jack (10), and the jack can be inserted into an external oxygen conduit.

7. A lung cancer postoperative breathing training device according to claim 1, wherein the ventilation assembly (4) comprises a first through tube (411) for air guide, and a mouthpiece (412) arranged on the through tube (411); the first through pipe (411) is a telescopic hose.

8. The lung cancer postoperative breathing training device of claim 1, wherein the ventilation assembly (4) comprises a second tube (421) for air guide, and a breathing mask (422) disposed on the second tube (421); the second pipe (421) adopts a telescopic hose.