CN112717240A

CN112717240A - Oxygen-adding atomizing inhalation device for rehabilitation physiotherapy of pneumoconiosis

Info

Publication number: CN112717240A
Application number: CN202011476225.6A
Authority: CN
Inventors: 孙涛; 高伟; 张艳
Original assignee: Anhui Xiangwang Medical Health Co ltd
Current assignee: Anhui Xiangwang Medical Health Co ltd
Priority date: 2020-12-15
Filing date: 2020-12-15
Publication date: 2021-04-30
Anticipated expiration: 2040-12-15
Also published as: CN112717240B

Abstract

The invention discloses an oxygenation atomization inhalation device for rehabilitation physiotherapy of pneumoconiosis, which comprises a supporting base plate, wherein one side of the top of the supporting base plate is fixedly connected with a supporting frame, the inner surface of the supporting frame is provided with an oxygen tank, the top of the supporting base plate is fixedly connected with a damping assembly, an air suction pump is arranged in the damping assembly, a piston block is arranged in a liquid storage block, when the air suction pump generates vibration, the piston block moves downwards, hydraulic oil can only flow to the upper part of the piston block through a communication valve, certain damping can be generated, vibration can be reduced, a damping spring can push the damping plate to move upwards, further the damping plate is prevented from shaking to a certain degree, meanwhile, two first rotating blocks and two second rotating blocks respectively slide on the inner surfaces of a first sliding groove and a second sliding groove, so that an extension spring is stretched, thereby further reducing the influence of vibration.

Description

Oxygen-adding atomizing inhalation device for rehabilitation physiotherapy of pneumoconiosis

Technical Field

The invention relates to the technical field of medical treatment, in particular to an oxygenation atomization inhalation device for rehabilitation physiotherapy of pneumoconiosis.

Background

Pneumoconiosis is a pulmonary fibrosis disease, and patients are usually in a place filled with dust for a long time, and the patients inhale a large amount of dust, so that dust is accumulated in alveoli under peripheral bronchi, changes occur in the lungs after a period of time, and fibrosis focuses are formed, if dust is not frequently affected and the defense system of the respiratory organ is good, the disease does not generally occur, so the disease mostly occurs to the specific occupational disease, and is one of the occupational diseases, the atomization inhalation method utilizes high-speed oxygen airflow to enable liquid medicine to form fog and then inhaled from a respiratory tract to achieve the purpose of treating diseases, and because the atomization inhalation can directly act on the respiratory tract and the lung with pathological changes, compared with oral administration or intravenous infusion, it has the advantages of quick action and good effect, and is used for treating pneumoconiosis in clinic.

Chinese patent discloses an oxygenation aerosol inhalation device for treating pneumoconiosis (publication No. CN 210078506U), which comprises a base, two support plates are welded on the top wall of the base in sequence, a rectangular water tank is welded on the top ends of the two support plates, a plurality of fixing holes are formed on the bottom wall of the water tank at equal intervals, a radiating fin which is vertically arranged is fixed in each fixing hole, the bottom end of the radiating fin extends to the lower part of the water tank, a first fan box is installed under the radiating fin, a second fan box is installed on the support plates, the patent only depends on two springs and a lifting column for damping air suction pump, the vibration is irregular, therefore, after long-time use, the radial force in the lifting column is likely to cause the breakage of the air suction pump, and the effect is poor and the reverse action is likely to be caused by only two springs for damping.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide an oxygenation atomization inhalation device for rehabilitation therapy of pneumoconiosis, which solves the problems that the lifting column is likely to be broken due to long-term use in CN210078506U, and the shock absorption effect is poor only by arranging two springs.

The purpose of the invention can be realized by the following technical scheme:

an oxygenation atomization inhalation device for rehabilitation physiotherapy of pneumoconiosis comprises a supporting base plate, wherein a supporting frame is fixedly connected to one side of the top of the supporting base plate, an oxygen tank is arranged on the inner surface of the supporting frame, a shock absorption assembly is fixedly connected to the top of the supporting base plate, an air suction pump is arranged inside the shock absorption assembly, a placing groove is formed in the other side of the top of the supporting base plate, and an atomizer is fixedly connected to the inner surface of the placing groove through a fixing bolt;

the damping assembly comprises a damping frame and a storage frame, a damping plate is connected to the inner surface of the damping frame in a sliding manner, the bottom of the air pump is fixedly connected with the top of the damping plate through a fixing bolt, liquid storage blocks are fixedly connected to the two sides of the bottom of the inner cavity of the damping frame, a sealing piece penetrates through the top of each liquid storage block, an ejector rod is connected to the inner surface of the sealing piece in a sliding manner, the top end of the ejector rod is fixedly connected with the bottom of the damping plate, a piston block is fixedly connected to the bottom end of the ejector rod, the outer surface of the piston block is connected with the inner surface of each liquid storage block in a sliding manner, communicating valves are fixedly connected to the two sides of the top of the piston block, the bottom ends of the two communicating valves penetrate through the piston block and extend to the outer portion of the piston block, hydraulic oil is arranged in the inner cavity of the liquid storage block, the top end of the damping spring is fixedly connected with the bottom of the damping plate, the bottom of the damping plate is provided with a first sliding groove, the inner surface of the first sliding groove is connected with a first rotating block in a sliding manner, the bottom of the inner cavity of the damping frame is provided with a second sliding groove, two sides of the inner cavity of the second sliding groove are both connected with a second rotating block in a sliding manner, the inner surface of the first rotating block is connected with a first swing rod in a rotating manner, the inner surface of the second rotating block is connected with a second swing rod in a rotating manner, one side of each of the two first swing rods and one side of the two second swing rods are both connected with a sliding rod in a rotating manner through a short shaft, the opposite ends of the two sliding rods penetrate through the storage frame and extend into the storage frame, the opposite ends of the two sliding rods are both fixedly connected with sliding plates, an extension spring is fixedly connected between the opposite sides of the, through the inside at the stock solution piece sets up the piston piece, when the aspiration pump produces vibrations, piston piece downstream, and hydraulic oil can only flow to the top of piston piece through the intercommunication valve, thereby can produce certain damping, thereby can slow down vibrations, and damping spring can promote the shock attenuation board upward movement, and then certain avoiding it to take place to rock, meanwhile, two first turning blocks and second turning block slide at the internal surface of first sliding tray and second sliding tray respectively, thereby make extension spring stretch, and then further reduce the influence that vibrations produced.

As a further scheme of the invention: the shock absorption plate is characterized in that the periphery of the top plate of the shock absorption plate is fixedly connected with a top block, one side of the top block is provided with a ball groove, the inner surface of the ball groove is connected with a steel ball in a rolling mode, and the outer surface of the steel ball is in contact with the outer surface of the shock absorption frame.

As a further scheme of the invention: the equal fixedly connected with T-shaped piece in preceding, the back both sides of oxygen jar surface, the equal fixedly connected with stopper in both sides of support frame inner wall, the internal surface of stopper and the surface looks adaptation of T-shaped piece, the ladder groove has been seted up to one side of T-shaped piece.

As a further scheme of the invention: the front side and the back side of the support frame are both fixedly connected with an installation sleeve, the inner surface of the installation sleeve is slidably connected with a pull rod, one end of the pull rod sequentially penetrates through the support frame and the limiting block and extends to the inside of the limiting block, a stroke groove is formed in the pull rod, clamping grooves are formed in the two sides of the inner wall of the stroke groove, the inner surface of the stroke groove is slidably connected with a push rod, one end of the push rod is fixedly connected with a connecting rod, one end of the connecting rod is rotatably connected with a connecting block through a short shaft, the inner surface of the connecting block is rotatably connected with a cross rod, one end of the cross rod is rotatably connected with a clamping block through the short shaft, the outer surface of the clamping block is matched with the inner surface of the stepped groove, the oxygen tank can be prevented from shaking up and down through the matching of the clamping block, and then the pull rod is pulled out.

As a further scheme of the invention: the one end fixedly connected with plectane of catch bar, square groove has all been seted up to the both sides of plectane, the equal fixedly connected with lug in both sides of the one end of pull rod, the surface of lug and the internal surface looks adaptation in square groove.

As a further scheme of the invention: the air outlet end of the oxygen tank is communicated with an air inlet hose, one end of the air inlet hose is communicated with the air exhaust end of the air exhaust pump, the air outlet end of the air exhaust pump is communicated with an air outlet hose, and one end of the air outlet hose is communicated with the air inlet end of the atomizer.

As a further scheme of the invention: the use method of the oxygenation atomization inhalation device comprises the following steps:

the method comprises the following steps: firstly, an oxygen tank is placed inside a support frame, a T-shaped block on the oxygen tank is inserted into a limiting block, then a pull rod in a mounting sleeve is pushed to enable the pull rod to penetrate through the support frame and to be inserted into a stepped groove, then a circular plate on a push rod is pressed, the push rod pushes a connecting rod to move towards one side of the stepped groove, so that two cross rods on a connecting block are pushed, two clamping blocks move towards the side, far away from each other, of the inner surface of a stroke groove until a square groove on the circular plate is matched with the outer surface of a convex block, the clamping blocks can be inserted into the stepped groove, and then the T-shaped block is fixed, so that the oxygen tank is limited;

step two: at the moment, the air inlet end of the oxygen tank is communicated with the air exhaust end of the air exhaust pump through the air inlet hose, the air outlet end of the air exhaust pump is communicated with the air inlet end of the atomizer through the air outlet hose, then the air exhaust pump is started through an external power supply, the air exhaust pump exhausts oxygen in the oxygen tank, the oxygen is conveyed to the air exhaust pump from the air inlet hose, and the oxygen is conveyed to the inside of the atomizer through the air outlet hose for atomization;

step three: when the air pump vibrates, the damping plate slides downwards in the damping frame, the ejector rod slides downwards in the liquid storage block and pushes the piston block to move downwards in the liquid storage block, hydraulic oil is arranged below the piston block and can only extrude the hydraulic oil to the upper side of the piston block from the communicating valve, so certain resistance can be generated, meanwhile, the shaking caused by the vibration can be reduced, meanwhile, the damping spring is compressed and can also absorb the shaking caused by the vibration, and when the damping plate slides downwards, the first rotating block and the second rotating block respectively move towards the side far away from the inside of the first sliding groove and the inside of the second sliding groove, so that the first oscillating bar and the second oscillating bar are driven to oscillate, and further, the two sliding bars pull the sliding plates to slide on the inner surface of the object placing frame, so that the extension spring is compressed, and further absorb the vibration, and the steel ball slides in the ball groove in the top block at the moment.

The invention has the beneficial effects that:

(1) in the invention, the damping assembly comprises a damping frame and a storage frame, a damping plate is connected to the inner surface of the damping frame in a sliding manner, the bottom of the air pump is fixedly connected with the top of the damping plate through a fixing bolt, liquid storage blocks are fixedly connected to both sides of the bottom of an inner cavity of the damping frame, a sealing element penetrates through the top of the liquid storage block, an ejector rod is connected to the inner surface of the sealing element in a sliding manner, the top end of the ejector rod is fixedly connected with the bottom of the damping plate, a piston block is fixedly connected to the bottom end of the ejector rod, the outer surface of the piston block is connected with the inner surface of the liquid storage block in a sliding manner, communicating valves are fixedly connected to both sides of the top of the piston block, the bottom ends of the two communicating valves penetrate through the piston block and extend to the outside of the piston block, hydraulic oil is arranged in the inner cavity of the liquid storage, the bottom of the damping plate is provided with a first sliding groove, the inner surface of the first sliding groove is connected with a first rotating block in a sliding manner, the bottom of the inner cavity of the damping frame is provided with a second sliding groove, two sides of the inner cavity of the second sliding groove are both connected with a second rotating block in a sliding manner, the inner surface of the first rotating block is connected with a first swing rod in a rotating manner, the inner surface of the second rotating block is connected with a second swing rod in a rotating manner, one sides of the two first swing rods and one side of the second swing rod are both connected with a sliding rod in a rotating manner through a short shaft, the opposite ends of the two sliding rods both penetrate through the storage frame and extend into the storage frame, the opposite ends of the two sliding rods are both fixedly connected with sliding plates, an extension spring is fixedly connected between the opposite sides of the two sliding plates, the outer surface of each sliding plate is connected with the inner surface of the, and hydraulic oil can only flow to the top of piston piece through the communicating valve to can produce certain damping, thereby can slow down vibrations, and damping spring can promote the shock attenuation board upward movement, and then certain avoiding it takes place to rock, meanwhile, two first turning blocks and second turning block slide at the internal surface of first sliding tray and second sliding tray respectively, thereby make extension spring stretch, and then further reduce the influence that vibrations produced.

(2) In the invention, a T-shaped block is fixedly connected with the front side and the rear side of the outer surface of an oxygen tank, a limiting block is fixedly connected with the two sides of the inner wall of a support frame, the inner surface of the limiting block is matched with the outer surface of the T-shaped block, a stepped groove is formed in one side of the T-shaped block, a mounting sleeve is fixedly connected with the front side and the back side of the support frame, a pull rod is slidably connected with the inner surface of the mounting sleeve, one end of the pull rod sequentially penetrates through the support frame and the limiting block and extends to the inner part of the limiting block, a stroke groove is formed in the inner part of the pull rod, clamping grooves are formed in the two sides of the inner wall of the stroke groove, the inner surface of the stroke groove is slidably connected with a push rod, one end of the push rod is fixedly connected with a connecting, through setting up the stopper on the support frame, the T-shaped piece on the cooperation oxygen jar is fixed the oxygen jar and is placed in the inside of support frame, prevents rocking of oxygen jar, utilizes the catch bar in the pull rod simultaneously, can make two joint pieces stretch out the stroke groove to can carry on spacingly with the T-shaped piece, and then prevent that the oxygen jar from rocking from top to bottom, the device's of increase security further improves its practicality.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view showing the internal structure of the shock-absorbing assembly according to the present invention;

FIG. 3 is a schematic view showing the internal structure of the liquid storage block of the present invention;

FIG. 4 is a schematic view of the external structure of the support frame of the present invention;

FIG. 5 is a sectional top view of a partial structure of the support frame of the present invention;

FIG. 6 is a schematic view of the outer structure of the tie rod of the present invention;

fig. 7 is a schematic view of the internal structure of the tie rod of the present invention.

In the figure: 1. a support base plate; 2. a support frame; 3. an oxygen tank; 4. a shock absorbing assembly; 41. a shock-absorbing mount; 42. a damper plate; 43. a liquid storage block; 44. a seal member; 45. a top rod; 46. a piston block; 47. a pressure resistant plate; 48. a damping spring; 49. a first sliding groove; 410. a first rotating block; 411. a second sliding groove; 412. a communication valve; 413. a second turning block; 414. a first swing link; 415. a second swing link; 416. a slide bar; 417. a sliding plate; 418. an extension spring; 419. a top block; 420. a ball groove; 421. steel balls, 422 and a storage frame; 5. an air pump; 6. a placement groove; 7. an atomizer; 8. a T-shaped block; 9. a limiting block; 10. a stepped groove; 11. installing a sleeve; 12. a pull rod; 13. a stroke slot; 14. a clamping groove; 15. a push rod; 16. a connecting rod; 17. connecting blocks; 18. a cross bar; 19. a clamping block; 20. a circular plate; 21. a square groove; 22. a bump; 23. an air intake hose; 24. an air outlet hose.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, an oxygenation atomization inhalation device for rehabilitation therapy of pneumoconiosis comprises a supporting base plate 1, wherein a supporting frame 2 is fixedly connected to one side of the top of the supporting base plate 1, an oxygen tank 3 is arranged on the inner surface of the supporting frame 2, a damping assembly 4 is fixedly connected to the top of the supporting base plate 1, an air pump 5 is arranged inside the damping assembly 4, a placing groove 6 is formed in the other side of the top of the supporting base plate 1, an atomizer 7 is fixedly connected to the inner surface of the placing groove 6 through a fixing bolt, and oxygen can be atomized into tiny particles through the atomizer 7, which is not described again in detail for the prior art; the damping assembly 4 comprises a damping frame 41 and a storage frame 422, a damping plate 42 is connected to the inner surface of the damping frame 41 in a sliding manner, the bottom of the air pump 5 is fixedly connected with the top of the damping plate 42 through a fixing bolt, liquid storage blocks 43 are fixedly connected to both sides of the bottom of the inner cavity of the damping frame 41, a sealing element 44 penetrates through the top of the liquid storage block 43, an ejector rod 45 is connected to the inner surface of the sealing element 44 in a sliding manner, the top end of the ejector rod 45 is fixedly connected with the bottom of the damping plate 42, a piston block 46 is fixedly connected to the bottom end of the ejector rod 45, the outer surface of the piston block 46 is connected with the inner surface of the liquid storage block 43 in a sliding manner, communication valves 412 are fixedly connected to both sides of the top of the piston block 46, the caliber of the communication valves 412 is small, when the piston block 46 is pressed down, hydraulic oil can, the bottom ends of the two communication valves 412 penetrate through the piston block 46 and extend to the outside of the piston block 46, hydraulic oil is arranged in the inner cavity of the liquid storage block 43, an anti-pressure plate 47 is fixedly connected to the outer surface of the liquid storage block 43, a damping spring 48 is fixedly connected to the top of the anti-pressure plate 47, the damping spring 48 can push the damping plate 42 to move upwards while absorbing a part of force generated by vibration, the top end of the damping spring 48 is fixedly connected with the bottom of the damping plate 42, a first sliding groove 49 is formed in the bottom of the damping plate 42, a first rotating block 410 is slidably connected to the inner surface of the first sliding groove 49, a second sliding groove 411 is formed in the bottom of the inner cavity of the damping frame 41, second rotating blocks 413 are slidably connected to both sides of the inner cavity of the second sliding groove 411, a first swinging rod 414 is rotatably connected to the inner surface of the first rotating block 410, and a second swinging rod 415 is rotatably connected to the inner surface of the second rotating block, one side of each of the two first swing rods 414 and the second swing rod 415 is rotatably connected with a sliding rod 416 through a short shaft, one end of each of the two sliding rods 416 opposite to each other penetrates through the storage frame 422 and extends into the storage frame 422, one end of each of the two sliding rods 416 opposite to each other is fixedly connected with a sliding plate 417, an extension spring 418 is fixedly connected between one sides of the two sliding plates 417 opposite to each other, the outer surface of the sliding plate 417 is slidably connected with the inner surface of the storage frame 422, and by arranging the piston block 46 in the liquid storage block 43, when the air suction pump 5 vibrates, the piston block 46 moves downwards, and hydraulic oil can only flow above the piston block 46 through the communication valve 412, so that certain damping can be generated, so as to slow down the vibration, and the damping spring 48 can push the damping plate 42 to move upwards, thereby avoiding the vibration to a certain extent, the two first and second rotating blocks 410 and 413 slide on the inner surfaces of the first and second sliding grooves 49 and 411, respectively, so that the extension spring 418 is extended, thereby further reducing the influence of vibration.

In the invention, the periphery of the top plate of the damping plate 42 is fixedly connected with a top block 419, one side of the top block 419 is provided with a ball groove 420, the inner surface of the ball groove 420 is connected with a steel ball 421 in a rolling manner, the outer surface of the steel ball 421 is in contact with the outer surface of the damping frame 41, and the damping plate 42 can be prevented from inclining by the contact of the steel ball 421 and the inner wall of the damping frame 41.

In the invention, the front side and the rear side of the outer surface of the oxygen tank 3 are both fixedly connected with T-shaped blocks 8, the two sides of the inner wall of the support frame 2 are both fixedly connected with limit blocks 9, the inner surface of each limit block 9 is matched with the outer surface of each T-shaped block 8, one side of each T-shaped block 8 is provided with a stepped groove 10, and the oxygen tank 3 can be prevented from shaking in the support frame 2 through the matching of the T-shaped blocks 8 and the limit blocks 9.

In the invention, the front and the back of the support frame 2 are both fixedly connected with an installation sleeve 11, the inner surface of the installation sleeve 11 is connected with a pull rod 12 in a sliding manner, one end of the pull rod 12 sequentially penetrates through the support frame 2 and the limiting block 9 and extends into the limiting block 9, a stroke groove 13 is formed in the pull rod 12, clamping grooves 14 are formed in two sides of the inner wall of the stroke groove 13, the inner surface of the stroke groove 13 is connected with a push rod 15 in a sliding manner, one end of the push rod 15 is fixedly connected with a connecting rod 16, one end of the connecting rod 16 is rotatably connected with a connecting block 17 through a short shaft, the inner surface of the connecting block 17 is rotatably connected with a cross rod 18, one end of the cross rod 18 is rotatably connected with a clamping block 19 through a short shaft, the outer surface of the clamping block 19 is matched with the inner surface of the stepped groove 10, when the oxygen tank 3 needs to be taken out, the push rod 15 is pulled firstly, so that the clamping block 19 completely enters the inside of the stroke groove 13, and then the pull rod 12 is pulled out.

In the invention, one end of the push rod 15 is fixedly connected with a circular plate 20, two sides of the circular plate 20 are respectively provided with a square groove 21, two sides of one end of the pull rod 12 are respectively fixedly connected with a convex block 22, and the outer surface of the convex block 22 is matched with the inner surface of the square groove 21.

In the invention, the air outlet end of the oxygen tank 3 is communicated with an air inlet hose 23, one end of the air inlet hose 23 is communicated with the air exhaust end of an air exhaust pump 5, the air outlet end of the air exhaust pump 5 is communicated with an air outlet hose 24, and one end of the air outlet hose 24 is communicated with the air inlet end of an atomizer 7.

Meanwhile, the content which is not described in detail in the specification belongs to the prior art which is well known to those skilled in the art, on the other hand, each electric part in the device is electrically connected with the control switch, and the working logic and the working sequence among each electric part can be controlled by programming and manpower.

In the present invention, the method of using the oxygenating aerosol inhalation device comprises the steps of:

the method comprises the following steps: firstly, an oxygen tank 3 is placed in a support frame 2, a T-shaped block 8 on the oxygen tank 3 is inserted into a limiting block 9, then a pull rod 12 in an installation sleeve 11 is pushed to enable the pull rod 12 to penetrate through the support frame 2 and be inserted into a stepped groove 10, then a circular plate 20 on a push rod 15 is pressed, the push rod 15 pushes a connecting rod 16 to move towards one side of the stepped groove 10, so that two cross rods 18 on a connecting block 17 are pushed, two clamping blocks 19 move towards the side far away from the inner surface of a stroke groove 13 until a square groove 21 on the circular plate 20 is matched with the outer surface of a convex block 22, the clamping blocks 19 can be inserted into the stepped groove 10, the T-shaped block 8 is fixed, and the oxygen tank 3 is limited;

step two: at this time, the air inlet end of the oxygen tank 3 is communicated with the air exhaust end of the air exhaust pump 5 through the air inlet hose 23, the air outlet end of the air exhaust pump 5 is communicated with the air inlet end of the atomizer 7 through the air outlet hose 24, the air exhaust pump 5 is started through an external power supply, the air exhaust pump 5 exhausts oxygen in the oxygen tank 3 and sends the oxygen to the air exhaust pump 5 from the air inlet hose 23, and then the oxygen is sent to the inside of the atomizer 7 through the air outlet hose 24 to be atomized;

step three: when the air pump 5 vibrates, the shock absorption plate 42 slides downwards in the shock absorption frame 41, the mandril 45 slides downwards in the liquid storage block 43, and pushes the piston block 46 to move downwards in the liquid storage block 43, because the hydraulic oil is arranged below the piston block 46, and the hydraulic oil can only extrude to the upper side of the piston block 46 from the inside of the communicating valve 412, a certain resistance can be generated, and the shaking caused by the vibration can be reduced, meanwhile, the shock absorption spring 48 is compressed and can also absorb the shaking caused by the vibration, and when the shock absorption plate 42 slides downwards, the first rotating block 410 and the second rotating block 413 respectively move to the side which is relatively far away in the inside of the first sliding groove 49 and the inside of the second sliding groove 411, so as to drive the first swing rod 414 and the second swing rod 415 to further enable the two sliding rods 416 to pull the sliding plate 417 to slide on the inner surface of the object placing frame 422, thereby causing the tension spring 418 to compress and absorb shock as the ball 421 slides within the ball groove 420 in the top piece 419.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is illustrative and explanatory only and is not intended to be exhaustive or to limit the invention to the precise embodiments described, and various modifications, additions, and substitutions may be made by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims.

Claims

1. The oxygenation atomization inhalation device for the rehabilitation physiotherapy of pneumoconiosis is characterized by comprising a supporting base plate (1), wherein a supporting frame (2) is fixedly connected to one side of the top of the supporting base plate (1), an oxygen tank (3) is arranged on the inner surface of the supporting frame (2), a shock absorption assembly (4) is fixedly connected to the top of the supporting base plate (1), an air suction pump (5) is arranged inside the shock absorption assembly (4), a placing groove (6) is formed in the other side of the top of the supporting base plate (1), and an atomizer (7) is fixedly connected to the inner surface of the placing groove (6) through a fixing bolt;

damper (4) include shock attenuation frame (41) and put thing frame (422), the internal surface sliding connection of shock attenuation frame (41) has shock attenuation board (42), the top fixed connection of fixing bolt and shock attenuation board (42) is passed through to the bottom of aspiration pump (5), the equal fixedly connected with stock solution piece (43) in both sides of shock attenuation frame (41) inner chamber bottom, sealing member (44) have been run through at the top of stock solution piece (43), the internal surface sliding connection of sealing member (44) has ejector pin (45), the top of ejector pin (45) and the bottom fixed connection of shock attenuation board (42), the bottom fixed connection of ejector pin (45) has piston block (46), the surface of piston block (46) and the internal surface sliding connection of stock solution piece (43), the equal fixedly connected with intercommunication valve (412) in both sides at piston block (46) top, two the bottom of intercommunication valve (412) all runs through piston block (46) and extends to the outside of piston block (46) The inner chamber of liquid storage piece (43) is provided with hydraulic oil, the outer fixed surface of liquid storage piece (43) is connected with resistance to compression board (47), the top fixedly connected with damping spring (48) of resistance to compression board (47), the top of damping spring (48) and the bottom fixed connection of shock attenuation board (42), first sliding tray (49) have been seted up to the bottom of shock attenuation board (42), the internal surface sliding connection of first sliding tray (49) has first turning block (410), second sliding tray (411) have been seted up to the bottom of shock attenuation frame (41) inner chamber, the equal sliding connection in both sides of second sliding tray (411) inner chamber has second turning block (413), the internal surface of first turning block (410) rotates and is connected with first pendulum rod (414), the internal surface of second turning block (413) rotates and is connected with second pendulum rod (415), two first pendulum rod (414) and one side of second pendulum rod (415) all rotate through the minor axis and be connected with the slide bar (413) (416) The two opposite ends of the sliding rods (416) penetrate through the object placing frame (422) and extend into the object placing frame (422), sliding plates (417) are fixedly connected to the two opposite ends of the sliding rods (416), a tension spring (418) is fixedly connected between the two opposite sides of the sliding plates (417), and the outer surfaces of the sliding plates (417) are in sliding connection with the inner surface of the object placing frame (422).

2. The oxygenation atomization inhalation device for the pneumoconiosis rehabilitation physiotherapy as claimed in claim 1, characterized in that the periphery of the top plate of the damping plate (42) is fixedly connected with a top block (419), one side of the top block (419) is provided with a ball groove (420), the inner surface of the ball groove (420) is connected with a steel ball (421) in a rolling manner, and the outer surface of the steel ball (421) is in contact with the outer surface of the damping frame (41).

3. The oxygenation atomization inhalation device for the pneumoconiosis rehabilitation physiotherapy according to claim 1, characterized in that the front and rear sides of the outer surface of the oxygen tank (3) are fixedly connected with T-shaped blocks (8), the two sides of the inner wall of the support frame (2) are fixedly connected with limit blocks (9), the inner surface of each limit block (9) is matched with the outer surface of each T-shaped block (8), and one side of each T-shaped block (8) is provided with a stepped groove (10).

4. The oxygenation atomization inhalation device for the rehabilitation physiotherapy of pneumoconiosis according to claim 1, characterized in that the front and back of the support frame (2) are both fixedly connected with a mounting sleeve (11), the inner surface of the mounting sleeve (11) is slidably connected with a pull rod (12), one end of the pull rod (12) sequentially penetrates through the support frame (2) and the limiting block (9) and extends to the inside of the limiting block (9), a travel groove (13) is formed inside the pull rod (12), clamping grooves (14) are formed on both sides of the inner wall of the travel groove (13), the inner surface of the travel groove (13) is slidably connected with a push rod (15), one end of the push rod (15) is fixedly connected with a connecting rod (16), one end of the connecting rod (16) is rotatably connected with a connecting block (17) through a short shaft, the inner surface of the connecting block (17) is rotatably connected with a cross rod (18), one end of the cross rod (18) is connected with a clamping block (19) through a short shaft in a rotating mode, and the outer surface of the clamping block (19) is matched with the inner surface of the stepped groove (10).

5. The oxygenation atomization inhalation device for the rehabilitation physiotherapy of pneumoconiosis according to claim 4, characterized in that one end of the push rod (15) is fixedly connected with a circular plate (20), both sides of the circular plate (20) are provided with square grooves (21), both sides of one end of the pull rod (12) are fixedly connected with convex blocks (22), and the outer surfaces of the convex blocks (22) are matched with the inner surfaces of the square grooves (21).

6. The oxygenation atomization inhalation device for the rehabilitation therapy of pneumoconiosis according to claim 1, characterized in that the air outlet end of the oxygen tank (3) is communicated with an air inlet hose (23), one end of the air inlet hose (23) is communicated with the air outlet end of the air pump (5), the air outlet end of the air pump (5) is communicated with an air outlet hose (24), and one end of the air outlet hose (24) is communicated with the air inlet end of the atomizer (7).

7. The oxygenating aerosol inhalation device for a pneumoconiosis rehabilitation therapy of claim 1, wherein the method of using the oxygenating aerosol inhalation device comprises the steps of:

the method comprises the following steps: firstly, an oxygen tank (3) is placed in a support frame (2), a T-shaped block (8) on the oxygen tank (3) is inserted into a limiting block (9), then a pull rod (12) in an installation sleeve (11) is pushed to enable the pull rod (12) to penetrate through the support frame (2) and be inserted into a stepped groove (10), then a circular plate (20) on a push rod (15) is pressed to enable the push rod (15) to push a connecting rod (16) to move towards one side of the stepped groove (10), so that two cross rods (18) on a connecting block (17) are pushed to enable two clamping blocks (19) to move towards the side which is relatively far away from the inner surface of a stroke groove (13) until a square groove (21) on the circular plate (20) is matched with the outer surface of a convex block (22), namely the clamping blocks (19) are inserted into the stepped groove (10), and the T-shaped block (8) is further fixed, thereby limiting the oxygen tank (3);

step two: at the moment, the air inlet end of the oxygen tank (3) is communicated with the air exhaust end of the air exhaust pump (5) through the air inlet hose (23), the air exhaust end of the air exhaust pump (5) is communicated with the air inlet end of the atomizer (7) through the air outlet hose (24), the air exhaust pump (5) is started through an external power supply, oxygen in the oxygen tank (3) is exhausted by the air exhaust pump (5), the oxygen is conveyed to the air exhaust pump (5) from the air inlet hose (23), and the oxygen is conveyed to the inside of the atomizer (7) through the air outlet hose (24) for atomization;

step three: when the air suction pump (5) vibrates, the damping plate (42) slides downwards in the damping frame (41), the ejector rod (45) slides downwards in the liquid storage block (43) and pushes the piston block (46) to move downwards in the liquid storage block (43), as the hydraulic oil is arranged below the piston block (46) and can only extrude to the upper part of the piston block (46) from the inside of the communicating valve (412), resistance can be generated, and the vibration caused by the vibration can be reduced, meanwhile, the damping spring (48) is compressed and can also absorb the vibration caused by the vibration, and when the damping plate (42) slides downwards, the first rotating block (410) and the second rotating block (413) respectively move towards the side which is far away from the inside of the first sliding groove (49) and the inside of the second sliding groove (411) so as to drive the first swing rod (414) and the second swing rod (415) to swing, the two sliding rods (416) further pull the sliding plate (417) to slide on the inner surface of the storage frame (422), so that the extension spring (418) is compressed, vibration is absorbed, and the steel ball (421) slides in the ball groove (420) in the top block (419).