CN115040842A - Paediatrics is breathed internal medicine lung function and is recovered physiotherapy ware - Google Patents

Abstract

The invention provides a pediatric respiratory medicine lung function rehabilitation physiotherapy device, and belongs to the technical field of pediatric lung function rehabilitation devices. The blowing and sucking shell assembly capable of rotating and adjusting angles is connected to the inner sides of the top ends of two groups of side arms in the base component; an air blowing cover in the air blowing assembly is connected with the main shell in a one-way air inlet mode, and a pediatric patient can blow air into the main shell from the air outlet hole to drive the main training fan to rotate; meanwhile, the main training fan is magnetically connected with the rotary vane component, and the rotary vane can be driven to rotate by magnetic force through the rotation of the main training fan to form the interesting lung function training; simultaneously, the inlet end of the cover that blows still communicates with the air drive of main casing body isolated, blows the power that produces through paediatrics patient self promptly, can drive outside clean air and filter the back from the degerming filter core, and the initiative conveyer belt blows in the cover, has the effectual advantage of rehabilitation training.

Description

Paediatrics is breathed internal medicine lung function and is recovered physiotherapy ware

Technical Field

The invention relates to the technical field of pediatric pulmonary function rehabilitation devices, in particular to a pediatric respiratory internal medicine pulmonary function rehabilitation physical therapy device.

Background

The lung is a very important organ of the human body, and for patients with pathological changes of the lung and airways, doctors can evaluate the severity of the disease to carry out drug treatment.

Compared with adults with healthy lung function, the medicine therapy and physical therapy which can be achieved by some strength can be properly and moderately performed by pediatric patients, so that the medicine therapy can be well assisted, and the rehabilitation of the pediatric patients is accelerated.

The pulmonary function rehabilitation physiotherapy device for the pediatric respiratory medicine comprises a barrel, wherein a blowing pipe is communicated with the wall of one side of the barrel, a blowing nozzle is arranged at one end of the blowing pipe, an inflatable ball is arranged in the barrel at one side close to the blowing pipe, mounting plates are symmetrically and fixedly distributed on the outer surfaces of two sides of the inflatable ball, and automatic rebound assemblies are mounted on the mounting plates; automatic subassembly of kick-backing is including being fixed in the sliding ring on the mounting panel, the slide bar all wears to be equipped with in two sliding rings, and the outside of slide bar is located to sliding ring sliding sleeve, the inside of barrel is run through to the slide bar, its one end is connected with the conch wall bearing of barrel, the other end extends to the outside of barrel, the slide bar is provided with the screw thread along the circumferencial direction on being close to a tip external surface of gas blow pipe, and one section overcoat that has the screw thread is equipped with ball nut, the sliding ring, the spring outside the slide bar is located to fixedly connected with cover between the ball nut, usable patient's the drive of blowing is aerifyd a removal of ball, accomplish the training.

However, in the actual pediatric pulmonary function rehabilitation process, the pediatric patient has the disadvantages of poor attention and poor self-control compared with the adult patient, and the traditional and relatively stiff pulmonary function rehabilitation physical therapy instrument has the training effect in a short time, but loses interest of the pediatric patient after being used for a long time, so that the pediatric patient cannot be matched with the training physical therapy to complete the rehabilitation physical therapy, and the pediatric patient has the disadvantage of poor training and rehabilitation effect.

Disclosure of Invention

In order to solve the problems in the background art, the invention provides a pulmonary function rehabilitation physiotherapy device for pediatric respiratory medicine, which comprises a base component, a blowing and sucking shell assembly, an air blowing assembly, an air inlet assembly and a rotary blade component, wherein the blowing and sucking shell assembly comprises a main shell, a main rotary shaft and a hollow rotary shaft;

the base component is a structural base body and is integrally of a U-shaped structure, one side of a main shell of a cylindrical structure in the blowing and sucking shell assembly is connected with a main rotating shaft, the other side of the main shell is connected with a hollow rotating shaft in a position coaxial with the main rotating shaft, the hollow rotating shaft is communicated with an inner cavity of the main shell, and the main shell is rotatably arranged on the upper part of the inner end of the U-shaped structure of the base component through the main rotating shaft and the hollow rotating shaft;

the main training fan in the air blowing assembly is rotatably arranged in an inner cavity of the main shell, the air blowing cover is positioned on one side of the main shell, the main shell is communicated with an air outlet end of the air blowing cover in a one-way mode, the linkage cavity in the air inlet assembly is arranged on one side of the base component main body and is communicated with the air of the hollow rotating shaft, the linkage fan is transversely and rotatably arranged in the linkage cavity, one side of the linkage cavity is connected with an isolation cavity, an isolation resorption fan is rotatably arranged in the isolation cavity and is connected with a linkage fan shaft, the isolation cavity is communicated with an air inlet end of the air blowing cover in a one-way mode, and a filter hole is formed in the position, corresponding to the air inlet end of the air blowing cover, of the top of the isolation cavity;

the show rotary vane in the rotary vane component is rotatably arranged on the outer main surface of the main shell, and the show rotary vane is connected with the main training fan through magnetic force.

The left side and the right side of the upper end of the base in the base component are symmetrically connected with side arms;

two groups of main rotary positions in the blowing and sucking shell assembly are respectively and coaxially arranged on the corresponding positions of the main rotary shaft and the hollow rotary shaft, the main rotary shaft positioned on one side of the main shell is rotatably connected in one group of main rotary positions, and the hollow rotary shaft positioned on the other side of the main shell is rotatably connected in the other group of main rotary positions;

the middle position of the inner bottom surface of the main shell is also connected with an inner rotary cylinder, and the outer side surfaces of the main shell and the inner rotary cylinder are covered with a main cover together;

a main rotary gear is fixedly inserted at the outer shaft end of the main rotary shaft, a driving gear is meshed at the lower side of the main rotary gear, the driving gear is connected with a driving motor shaft, and the driving motor is fixedly connected to the outer side surface of the corresponding side arm;

a main training fan in the air blowing assembly is rotatably connected in the inner rotary cylinder, a main air inlet hole is formed in the position, corresponding to the air blowing cover, of the side wall of the main shell, a main air outlet hole is formed in the position, corresponding to the main air inlet hole, of the main surface of the air blowing cover, an air blowing pipe is connected between the main air outlet hole and the main air inlet hole, an air blowing check valve is connected in the air blowing pipe, and only air can enter the main air inlet hole from the main air outlet hole in a one-way mode;

the inner side surface of a linkage cavity in the air inlet assembly is connected with the outer side surfaces of a group of side arms corresponding to the hollow rotating shaft, linkage inlet holes are formed in the positions, corresponding to the hollow rotating shaft, of the inner side surface of the linkage cavity, and the hollow rotating shaft is rotatably inserted into an inner cavity of the linkage cavity from the linkage inlet holes;

two groups of linkage shaft positions are arranged on the positions, corresponding to the linkage fans, of the inner cavity of the linkage cavity, the linkage shafts are connected in a co-rotating mode in the two groups of linkage shaft positions, the linkage fans are fixedly inserted into the linkage shafts, and the isolation suck-back fans are fixedly inserted into one end of each linkage shaft from one group of linkage shaft positions close to the isolation cavity to the shaft end behind the inner cavity of the isolation cavity in a rotating mode;

the outer side surface of the linkage cavity is covered with a linkage cover, the outer side surface of the isolation cavity is covered with an isolation cover plate, and the inner cavity of the linkage cavity is not communicated with the inner cavity of the isolation cavity;

an air inlet pipe position is arranged on the main surface of the air blowing cover and corresponds to the isolation cavity, an air inlet pipe is connected in the air inlet pipe position, an air inlet connecting hole is connected on the bottom surface of the isolation cavity and corresponds to the air inlet pipe, and the other end of the air inlet pipe is connected in the air inlet connecting hole;

the air inlet pipe is also connected with an air inlet one-way valve, and the air inlet one-way valve only allows air to enter the air inlet pipe position from the air inlet connecting hole in one way;

the outer end surfaces of a plurality of groups of fan blades of the main training fan are arranged on an inner magnetic ring seat in the rotary blade assembly, an inner magnetic ring is installed and connected in the inner magnetic ring seat, and the inner magnetic ring is concentric with the inner rotary cylinder;

an outer magnetic ring seat is arranged on the outer side surface of the main cover and corresponds to the inner magnetic ring, the outer magnetic ring is connected in the outer magnetic ring seat in a sliding mode and is connected with the inner magnetic ring in a magnetic force mode, and the display rotary vane is installed and connected to the outer side surface of the outer magnetic ring.

Further, with the lateral surface of a set of side arm that driving motor corresponds still installs the control mainboard, just driving motor and control mainboard electricity federation, the outside cover of control mainboard, driving motor, drive gear and main swing gear is equipped with the side cap, the lateral surface at the side arm that corresponds is connected in the inner of side cap.

Furthermore, the rear end of the air blowing cover is connected with a plurality of groups of wearing rings made of elastic non-woven fabrics.

Furthermore, the outer top surface of the isolation cavity is connected with a filter cavity in a position corresponding to the filter hole, the filter cavity is integrally positioned on the outer side of the filter hole, and a sterilization filter element is installed and connected in the filter hole.

Compared with the prior art, the pediatric respiratory medicine lung function rehabilitation physiotherapy device provided by the invention has the following advantages:

(1) according to the invention, through the air blowing assembly for blowing for pulmonary function rehabilitation, the main training fan is spirally arranged in the main shell of the cavity structure, and the air blowing pipe with one-way air circulation is arranged between the air blowing cover and the main shell, so that during air blowing training, exhaled air can enter the inner cavity of the main shell through the air blowing pipe in one way only, and the main training fan is driven to rotate, thereby completing preliminary pulmonary function rehabilitation training.

(2) Furthermore, in order to improve the interestingness of the pediatric pulmonary function training, the petal-shaped display rotary vane is magnetically connected to the outer side of the main shell, the display rotary vane can be driven to rotate magnetically through the rotation of the main training fan, the training interest of a pediatric patient can be improved through the rotation of the display rotary vane, and the rehabilitation of the pediatric patient for the pulmonary function can be facilitated.

(3) Meanwhile, in order to ensure the smoothness of air blowing and air suction during the lung function training, the air inlet assembly linked with the air blowing assembly is arranged, the air blowing drives the main training fan to rotate, the main training fan drives the isolation suck-back fan to rotate in an isolation mode, and clean air subjected to sterilization and filtration by the sterilization filter element can be conveyed into the air blowing cover in a one-way mode through the rotation of the isolation suck-back fan, so that powerful guarantee is provided for the rehabilitation training process of pediatric patients.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic overall structure diagram of a pulmonary function rehabilitation physiotherapy device for pediatric respiratory medicine provided by the invention;

FIG. 2 is a schematic structural view of a base member of the present invention;

FIG. 3 is a schematic view of a first viewing angle of the blower-suction shell assembly according to the present invention;

FIG. 4 is a schematic structural view of a second viewing angle of the blower-suction shell assembly according to the present invention;

FIG. 5 is a schematic view of the construction of the inflation assembly of the present invention;

FIG. 6 is a schematic view of an air intake assembly according to the present invention;

FIG. 7 is a schematic view of a portion of the intake assembly of the present invention;

fig. 8 is a schematic structural view of the rotary vane assembly of the present invention.

Reference numerals are as follows: 1. a base member; 2. a blowing and sucking shell assembly; 3. a blowing assembly; 4. an air intake assembly; 5. a rotary vane assembly; 101. a base; 102. a side arm; 201. main rotation position; 202. a main housing; 203. an internal rotation cylinder; 204. a main cover; 205. a main rotating shaft; 206. a main rotary gear; 207. a drive gear; 208. a drive motor; 209. a control main board; 210. a side cover; 211. a hollow rotating shaft; 301. a main training fan; 302. a main air inlet; 303. a blowing hood; 304. a main air outlet hole; 305. an air blowing pipe; 306. a blowing check valve; 307. a wearable ring; 401. a linkage cavity; 402. linkage hole feeding; 403. a linkage axis position; 404. a linkage shaft; 405. a linkage fan; 406. a linkage cover; 407. an isolation chamber; 408. isolating the suck-back fan; 409. an air inlet pipe position; 410. an air inlet pipe; 411. an air inlet check valve; 412. an air inlet connecting hole; 413. an isolation cover plate; 414. a filter chamber; 415. a filtration pore; 416. a sterilizing filter element; 501. an inner magnetic ring holder; 502. an inner magnetic ring; 503. an outer magnetic ring seat; 504. an outer magnetic ring; 505. and (5) displaying the rotary leaves.

Detailed Description

The invention provides a pulmonary function rehabilitation physical therapy apparatus for pediatric respiratory medicine, which is described by way of example with reference to the accompanying drawings.

The first embodiment is as follows:

an example of the physiotherapy process for wearing and recovering the lung function of a pediatric patient is shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7 and fig. 8, wherein a base member 1 is a structural base body and is integrally of a U-shaped structure, and side arms 102 are symmetrically connected to the left side and the right side of the upper end of a base 101;

one side of a main shell 202 of a cylindrical structure in the blowing and sucking shell assembly 2 is connected with a main rotating shaft 205, the other side of the main shell is connected with a hollow rotating shaft 211 at a position coaxial with the main rotating shaft 205, the hollow rotating shaft 211 is communicated with the inner cavity of the main shell 202, and the main shell 202 is rotatably arranged at the upper parts of the inner ends of two groups of side arms 102 in the base component 1 through the main rotating shaft 205 and the hollow rotating shaft 211;

specifically, an inner rotary cylinder 203 is further connected to the middle position of the inner bottom surface of the main housing 202, and a main cover 204 is covered on the outer side surfaces of the main housing 202 and the inner rotary cylinder 203;

a main training fan 301 in the air blowing assembly 3 is rotatably connected in the inner rotary cylinder 203, a main air inlet hole 302 is formed in the position, corresponding to the air blowing cover 303, of the side wall of the main shell 202, a main air outlet hole 304 is formed in the position, corresponding to the main air inlet hole 302, of the main surface of the air blowing cover 303, an air blowing pipe 305 is connected between the main air outlet hole 304 and the main air inlet hole 302, an air blowing check valve 306 is connected in the air blowing pipe 305, and only air can enter the main air inlet hole 302 from the main air outlet hole 304 in a one-way mode;

optimally, the rear end of the air blowing cover 303 is connected with a plurality of sets of wearing rings 307 made of elastic non-woven fabrics, so that the pediatric patient can wear the wearable ring correctly;

the inner side surface of a linkage cavity 401 in the air inlet assembly 4 is connected to the outer side surface of a group of side arms 102 corresponding to a hollow rotating shaft 211, a linkage inlet hole 402 is formed in the position, corresponding to the hollow rotating shaft 211, of the inner side surface of the linkage cavity 401, the hollow rotating shaft 211 is inserted into an inner cavity of the linkage cavity 401 in a rotating mode from the linkage inlet hole 402, two groups of linkage shaft positions 403 are formed in the position, corresponding to a linkage fan 405, of the inner cavity of the linkage cavity 401, a linkage shaft 404 is connected in the two groups of linkage shaft positions 403 in a rotating mode, the linkage fan 405 is inserted and fixed into the linkage shaft 404, and an isolation suckback fan 408 is inserted into one end, close to an isolation cavity 407, of the linkage shaft position 403 after the linkage shaft position is inserted into the inner cavity of the isolation cavity 407 in a rotating mode;

specifically, a linkage cover 406 is covered on the outer side surface of the linkage cavity 401, an isolation cover plate 413 is covered on the outer side surface of the isolation cavity 407, and the inner cavity of the linkage cavity 401 is not communicated with the inner cavity of the isolation cavity 407;

specifically, an air inlet pipe position 409 is arranged at a position, corresponding to the isolation cavity 407, of the main surface of the air blowing cover 303, an air inlet pipe 410 is connected in the air inlet pipe position 409, an air inlet connecting hole 412 is connected at a position, corresponding to the air inlet pipe 410, of the bottom surface of the isolation cavity 407, the other end of the air inlet pipe 410 is connected in the air inlet connecting hole 412, an air inlet check valve 411 is further connected in the air inlet pipe 410, and only air can enter the air inlet pipe position 409 from the air inlet connecting hole 412 in a one-way mode through the air inlet check valve 411;

specifically, the filter cavity 414 is connected to the position, corresponding to the filter hole 415, of the outer top surface of the isolation cavity 407, the filter cavity 414 is integrally located outside the filter hole 415, and the filter hole 415 is internally provided with the sterilizing filter element 416, so that air entering the inner cavity of the isolation cavity 407 is filtered and sterilized by the sterilizing filter element 416, and sterile air can be actively provided for pediatric patients with weak lung function;

an inner magnetic ring seat 501 of the rotary vane assembly 5 is arranged on the outer end face of a plurality of groups of fan blades of the main training fan 301, an inner magnetic ring 502 is installed and connected in the inner magnetic ring seat 501, an outer magnetic ring seat 503 is arranged on the outer side face of the main cover 204 corresponding to the inner magnetic ring 502, an outer magnetic ring 504 is connected in the outer magnetic ring seat 503 in a sliding mode, the outer magnetic ring 504 is connected with the inner magnetic ring 502 in a magnetic force mode, and a display rotary vane 505 is installed and connected on the outer side face of the outer magnetic ring 504;

the invention is worn, the air blowing cover 303 can be stably and reliably fixed at the mouth of a pediatric patient through the elastic sets of wearing rings 307 in the air blowing assembly 3;

placing the body of rehabilitation training in the operative position through the base 101 in the base member 1;

during rehabilitation training of lung function, a pediatric patient blows air into the main air inlet hole 302 and the main shell 202 from the main air outlet hole 304 and the air blowing pipe 305 connected with the main air outlet hole 304;

because the main pipeline of the blowing pipe 305 is connected with the blowing one-way valve 306, only air can flow from the blowing cover 303 to the main shell 202;

at this time, the air entering the main housing 202 drives the main training fan 301 to rotate, the rotation of the main training fan 301 drives the inner magnetic ring seat 501 in the rotary vane assembly 5 to rotate synchronously, the rotating magnetic force of the inner magnetic ring seat 501 drives the outer magnetic ring 504 to rotate on the outer magnetic ring seat 503, so that the display rotary vane 505 connected with the outer magnetic ring 504 can be driven to rotate, the interest of the pediatric patient in rehabilitation training can be improved by the rotation of the display rotary vane 505, and the enthusiasm of the pediatric patient in rehabilitation training can be improved;

on the other hand, the air entering the main housing 202 enters the linkage cavity 401 from the hollow rotating shaft 211 and drives the linkage fan 405 to rotate, the linkage fan 405 coaxially drives the isolation suck-back fan 408 completely isolated from the linkage fan 405 to rotate, the isolation suck-back fan 408 rotates to generate air thrust, the air subjected to sterilization and filtration by the sterilization filter element 416 can be blown into the air hood 303 through the air inlet pipe 410 and the conveying belt, active sterile air suction and conveying are formed, and a good air environment can be provided for the training process of the pediatric patient with weak lung function;

in addition, the power source for driving the isolation suck-back fan 408 to rotate is the air exhaled by the pediatric patient, so that the isolation suck-back fan has the characteristics of simple and practical structure;

in addition, the isolation cavity 407 of the isolation suck-back fan 408 and the isolation cavity 401 of the linkage fan 405 are isolated, so that air exhaled by the pediatric patient can be prevented from directly entering the air blowing cover 303, and the quality of inhaled air is improved.

Example two:

an example of the rotary vane 505 showing angle adjustment is shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 8, two sets of main rotary positions 201 in the blowing and sucking shell assembly 2 are respectively coaxially arranged at positions corresponding to the main rotary shaft 205 and the hollow rotary shaft 211, the main rotary shaft 205 at one side of the main shell 202 is rotatably connected in one set of main rotary positions 201, the hollow rotary shaft 211 at the other side of the main shell 202 is rotatably connected in the other set of main rotary positions 201, a main rotary gear 206 is fixedly inserted at an outer shaft end of the main rotary shaft 205, a driving gear 207 is engaged at a lower side of the main rotary gear 206, the driving gear 207 is connected with a driving motor 208 shaft, and the driving motor 208 is fixedly connected at an outer side surface of a corresponding side arm 102;

specifically, a control main board 209 is further installed on the outer side surface of the group of side arms 102 corresponding to the driving motor 208, the driving motor 208 is electrically connected with the control main board 209, a side cover 210 is covered on the outer sides of the control main board 209, the driving motor 208, the driving gear 207 and the main rotating gear 206, and the inner end of the side cover 210 is connected to the outer side surface of the corresponding side arm 102;

the adjustment of the display angle of the display rotary vane 505 in the rotary vane component 5;

the driving gear 207 is driven to rotate by starting the driving motor 208 in the blowing and sucking shell assembly 2, the driving gear 207 and the main rotary gear 206 form matched transmission, and the main rotary shaft 205 can be driven to rotate in the main rotary position 201, so that the main body of the main shell 202 can be driven to rotate;

because the display rotary vane 505 in the rotary vane component 5 is magnetically connected to the outer side surface of the main casing 202, the adjustment of the display angle of the display rotary vane 505 can be completed, and the training interest of the pediatric patient can be further improved.

Finally, it should be noted that: the above-mentioned embodiments are only used to illustrate the technical solution of the physical therapy process of the pulmonary function rehabilitation physical therapy apparatus for pediatric respiratory medicine provided by the present invention, and are not limited thereto; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (7)

1. The utility model provides a paediatrics respiratory medicine lung function rehabilitation physiotherapy equipment, includes base component (1), its characterized in that: the device also comprises a blowing and sucking shell assembly (2), a blowing assembly (3), an air inlet assembly (4) and a rotary vane assembly (5);

the blowing and sucking shell assembly (2) comprises a main shell (202), a main rotary shaft (205) and a hollow rotary shaft (211), the blowing assembly (3) comprises a main training fan (301) and a blowing cover (303), the air inlet assembly (4) comprises a linkage cavity (401), a linkage fan (405), an isolation cavity (407), an isolation suck-back fan (408) and a filter hole (415), and the rotary vane component (5) comprises a display rotary vane (505);

the base component (1) is a structural base body and is integrally of a U-shaped structure, one side of a main shell (202) of a cylindrical structure in the blowing and suction shell assembly (2) is connected with a main rotating shaft (205), the other side of the main shell is connected with a hollow rotating shaft (211) at a position coaxial with the main rotating shaft (205), the hollow rotating shaft (211) is communicated with an inner cavity of the main shell (202), and the main shell (202) is rotatably arranged on the upper portion of the inner end of the U-shaped structure of the base component (1) through the main rotating shaft (205) and the hollow rotating shaft (211);

a main training fan (301) in the air blowing assembly (3) is rotatably arranged in the inner cavity of the main shell (202), the air blowing cover (303) is positioned at one side of the main shell (202), the main shell (202) is communicated with the air outlet end of the air blowing cover (303) in a one-way mode, the linkage cavity (401) in the air inlet assembly (4) is arranged on one side of the main body of the base component (1), the linkage cavity (401) is communicated with the hollow rotating shaft (211) through air, a linkage fan (405) is transversely and rotatably arranged in the linkage cavity (401), one side of the linkage cavity (401) is connected with an isolation cavity (407), an isolation suck-back fan (408) is spirally arranged in the isolation cavity (407), the isolation suck-back fan (408) is connected with the linkage fan (405) through a shaft, the isolation cavity (407) is communicated with the air inlet end of the air blowing cover (303) in a one-way manner, the top of the isolation cavity (407) is provided with a filter hole (415) at a position corresponding to the air inlet end of the blowing cover (303);

the display rotary vane (505) in the rotary vane component (5) is rotatably arranged on the outer main surface of the main shell (202), and the display rotary vane (505) is in magnetic connection with the main training fan (301).

2. The pediatric respiratory medicine lung function rehabilitation physical therapy device according to claim 1, wherein: the blowing and sucking shell comprises a base component (1), side arms (102) are symmetrically connected to the left side and the right side of the upper end of a base (101) in the base component (1), two groups of main rotary positions (201) in the blowing and sucking shell assembly (2) are coaxially arranged at positions corresponding to a main rotary shaft (205) and a hollow rotary shaft (211) respectively, the main rotary shaft (205) on one side of a main shell (202) is rotatably connected into one group of main rotary positions (201), the hollow rotary shaft (211) on the other side of the main shell (202) is rotatably connected into the other group of main rotary positions (201), an inner rotary cylinder (203) is further connected to the middle position of the inner bottom surface of the main shell (202), a main cover (204) is jointly covered on the outer side surfaces of the main shell (202) and the inner rotary cylinder (203), a main rotary gear (206) is fixedly inserted into the outer shaft end of the main rotary shaft (205), and a driving gear (207) is meshed with the lower side of the main rotary gear (206), the driving gear (207) is connected with a driving motor (208) in a shaft mode, and the driving motor (208) is fixedly connected to the outer side face of the corresponding side arm (102).

3. The pediatric respiratory medicine lung function rehabilitation physical therapy device according to claim 2, wherein: the outer side surface of a group of side arms (102) corresponding to the driving motor (208) is further provided with a control main board (209), the driving motor (208) is electrically connected with the control main board (209), side covers (210) are covered on the outer sides of the control main board (209), the driving motor (208), the driving gear (207) and the main rotary gear (206), and the inner ends of the side covers (210) are connected to the outer side surfaces of the corresponding side arms (102).

4. The pulmonary function rehabilitation physiotherapy device for the pediatric respiratory medicine according to claim 1 or 2, wherein: the main training fan (301) swivelling joint in the assembly of blowing (3) is in interior spiral shell (203), main inlet port (302) have been seted up on the lateral wall of main casing body (202) and the position that blows gas cover (303) and correspond, main venthole (304) have been seted up on the main face of blowing gas cover (303) and the position that main inlet port (302) correspond, be connected with gas blow pipe (305) between main venthole (304) and main inlet port (302), be connected with in gas blow pipe (305) and blow check valve (306), only hold the air from the one-way entering of air outlet port (304) to main inlet port (302).

5. The pulmonary function rehabilitation physiotherapy device for pediatric respiratory medicine according to claim 4, wherein: the rear end of the air blowing cover (303) is connected with a plurality of groups of wearing rings (307) made of elastic non-woven fabrics.

6. The pulmonary function rehabilitation physiotherapy device for the pediatric respiratory medicine according to claim 1 or 2, wherein: the inner side surface of a linkage cavity (401) in the air inlet assembly (4) is connected to the outer side surface of a group of side arms (102) corresponding to a hollow rotating shaft (211), a linkage inlet hole (402) is formed in the position, corresponding to the hollow rotating shaft (211), of the inner side surface of the linkage cavity (401), the hollow rotating shaft (211) is rotatably inserted into the inner cavity of the linkage cavity (401) from the linkage inlet hole (402), two groups of linkage shaft positions (403) are formed in the position, corresponding to the inner cavity of the linkage cavity (401) and a linkage fan (405), of the two groups of linkage shaft positions (403) are jointly and rotatably connected with a linkage shaft (404), the linkage fan (405) is fixedly inserted into the linkage shaft (404), one end of the linkage shaft (404) is fixedly inserted into an isolation suck-back fan (408) from the end, close to the isolation cavity (407), of the group of linkage shaft positions (403) are rotatably inserted into the inner cavity of the isolation cavity (407), the outside face lid in linkage chamber (401) is equipped with linkage lid (406), the outside face lid of keeping apart chamber (407) is equipped with keeps apart apron (413), just linkage chamber (401) inner chamber does not communicate with isolation chamber (407) inner chamber, intake pipe position (409) have been seted up on the main face of blowing cover (303) and the position that keeps apart chamber (407) and correspond, be connected with intake pipe (410) in intake pipe position (409), be connected with air inlet on the position that the bottom surface of keeping apart chamber (407) and intake pipe (410) correspond and ally oneself with hole (412), the other end of intake pipe (410) is connected in air inlet allies oneself with hole (412), still be connected with air inlet check valve (411) in intake pipe (410), air inlet check valve (411) only hold the air from air inlet allies oneself with hole (412) one-way entering intake pipe position (409).

7. The pediatric respiratory medicine lung function rehabilitation physical therapy device according to claim 6, wherein: the outer top surface of the isolation cavity (407) is connected with a filter cavity (414) in a position corresponding to the filter hole (415), the filter cavity (414) is integrally positioned at the outer side of the filter hole (415), and a sterilizing filter element (416) is installed and connected in the filter hole (415).

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