Atomizing therapeutic device for treating pinkeye for ophthalmology
Technical Field
The invention relates to the technical field of ophthalmic equipment, in particular to an atomization therapeutic device for treating pinkeye, which is used for ophthalmology.
Background
The pinkeye is a common ocular disease in ophthalmology, the common causes of the pinkeye are endogenous infection and exogenous stimulation inflammation infection, and because no specific disease has high incidence time, corresponding treatment equipment needs to be prepared all the year round in an ophthalmology department to meet the treatment requirement of patients, wherein the pinkeye is a common atomizing therapeutic device, and the liquid medicine fog in the therapeutic device directly acts on the conjunctival region of the eyeball of a patient through a pipeline and an eye cover structure in an ultrasonic atomizing liquid medicine mode, so that the pinkeye is a common and effective treatment mode, but the therapeutic device has the following problems in actual use:
because most eyeshade is disposable, can't produce the eyeshade of different models according to the disease of different facial features, this just leads to the edge and the unable fine laminating of skin of partial disease when using the eyeshade, and the medicine fog is revealed easily and is reduced the treatment, simultaneously because generally design has two liquid medicine accommodation spaces in the current therapeutic apparatus, the liquid medicine atomizing is slower, only comes the self-flowing liquid medicine through U type pipe principle between two spaces, leads to the liquid medicine mobility poor and takes place precipitation phenomenon easily, has further reduced the medicine treatment effect.
Disclosure of Invention
The invention aims to provide an atomizing therapeutic device for treating pinkeye for ophthalmic use, which aims to solve the problems that in the prior art, most of eyeshields are disposable and different types of eyeshields cannot be produced according to patients with different facial features, so that the edge of the part of patients cannot be well attached to the skin when the eyeshields are used, medicine mist is easy to leak, the therapeutic effect is reduced, and meanwhile, two medicine liquid accommodating spaces are generally designed in the existing therapeutic device, medicine liquid flows between the two spaces only by a U-shaped tube principle, the medicine liquid has poor liquidity and is easy to precipitate, and the therapeutic effect of medicine is further reduced.
In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an atomizing therapeutic equipment for pinkeye treatment of ophthalmology use, includes shell, first liquid case, second liquid case, supersonic generator, gas outlet, trachea and eye-shade, the internally mounted of shell has first liquid case and second liquid case, and the top of first liquid case installs the filler that runs through to the shell outer wall to supersonic generator is installed to the bottom of second liquid case, the top of second liquid case is linked together with the box of giving vent to anger, and the box fixed mounting that gives vent to anger is at the roof of shell, the avris of box of giving vent to anger is provided with the gas outlet, and the gas outlet is linked together through trachea and eye-shade, eye-shade left end opening edge is provided with the sealing ring, the sealing ring is inside hollow elasticity gasbag structure, and the avris of sealing ring has seted up first gas pocket to the bottom of sealing ring has seted up the second gas pocket, and the outer wall of sealing ring is wave-like structure simultaneously, the inside diapire of shell is fixed with the water pump, and the output of water pump is linked together through water pipe and first liquid case to the fixed mounting is linked together at the diapire of second liquid case, and the diapire of second liquid case and the roof of second liquid case are linked together through the connecting pipe and second liquid case.
Preferably, a paddle plate is arranged in the connecting pipe, the paddle plate is fixedly arranged at the bottom end of the vertical shaft in an equal angle manner, the vertical shaft is rotatably arranged on the bottom wall of the second liquid tank, and the top end of the vertical shaft is provided with a baffle plate.
Preferably, the cross-section of baffle is arc structure, and the lower terminal surface of baffle links to each other with the first telescopic link of horizontal distribution, first telescopic link is the spring telescopic link, and the flexible section and the cutter arbor fixed connection of first telescopic link to the scraper is installed to the cutter arbor outer wall that distributes perpendicularly.
Preferably, the surface of the scraper is attached to the side wall of the second liquid tank, the convex strips are fixed on the inner wall of the second liquid tank, one side surface of each convex strip is of an arc-shaped structure, and the other side surface of each convex strip is of a cliff-shaped plane structure.
Preferably, the top end of the vertical shaft is provided with a transmission plate, the end of the transmission plate is of a smooth cambered surface structure, and the transmission plate is meshed with the driving plate.
Preferably, the driving plate is fixed on the driving block at equal angles, the driving block is of a round table-shaped structure, the top end of the driving block is fixedly connected with the bottom end of the fan shaft, and meanwhile, the fan shaft is provided with fan blades.
Preferably, the top end of the fan shaft is rotatably arranged at the telescopic end of the second telescopic rod, and the fixed end of the second telescopic rod is vertically and slidably connected with the inner wall of the air outlet box.
Preferably, the end face of the fixed end of the second telescopic rod is provided with a screw rod, the screw rod and the screw rod are in rotary connection, the screw rod is in threaded connection with the top wall of the air outlet box, and the top end of the screw rod penetrates through the air outlet box and extends to the outside.
Compared with the prior art, the invention has the beneficial effects that: the atomization therapeutic device for treating pinkeye, which is used in ophthalmology, is designed to redesign the internal structure of the therapeutic device on the basis of ensuring the fit between an eye shield and the skin of a patient, so that the liquid medicine can circulate in a container by utilizing the operation of a water pump to avoid precipitation, the liquid medicine can also be operated by utilizing the flow of the liquid as a power driving structure to avoid the adhesion of medicine fog condensation water drops on the inner wall of the container, and meanwhile, the purpose of adjusting the medicine fog flow rate can be realized by utilizing the operation of the same structure, so that the rapid recovery of the ocular inflammatory disease can be better promoted;
1. the structural design of the sealing ring can be matched with the strap structure of the eyeshade when the eyeshade is worn, the edge of the eyeshade can be completely attached to the skin around the eyes of a patient by utilizing the elastic deformation of the sealing ring, the leakage of medicine fog is effectively avoided, the cost is low, the leakage prevention effect is good, and meanwhile, the compression and uncomfortable feeling on the skin of the patient can not be caused;
2. the liquid medicine can flow in the two liquid medicine tanks at high efficiency by using the water pump and the overflow pipe as driving equipment for flowing between the liquid medicine, the liquid medicine precipitation phenomenon is effectively avoided under the condition that normal atomization is not affected, meanwhile, a blade plate structure is adopted in a connecting pipe through which the liquid medicine flows, a vertical shaft and a baffle plate at the top can be synchronously rotated by using the liquid medicine flow as driving force, and then a scraper structure is driven to synchronously rotate, so that residual liquid medicine on the inner wall of the second liquid medicine tank is scraped, and due to the design of a raised strip structure, the scraper can be in a vibration state by utilizing compression rebound of a spring telescopic rod under the guiding effect of the raised strip surface structure when the scraper rotates, so that the scraper and the inner wall of the second liquid medicine tank are comprehensively utilized to remove condensed water drops of the liquid medicine, and a large amount of liquid medicine residues can not be atomized;
further, the rotation of the vertical shaft can simultaneously drive the fan shaft and the fan blades to synchronously rotate by utilizing the mutual engagement between the transmission plate and the driving plate (similar to the engagement transmission between gears), so that negative pressure suction force is generated, medicine fog can enter the air pipe and the eye cover according to a specified speed, meanwhile, the screw rod and the telescopic rod are used, a user can move in the slope direction, obliquely upwards or downwards along the outer surface of the driving block in a mode of rotating the screw rod, the driving plate and the transmission plate in different diameter areas are meshed, the purpose of conveniently changing the rotation speed of the fan shaft and the fan blades is realized, and the conduction efficiency of the medicine fog is conveniently and effectively adjusted, so that the medicine fog can adapt to the flow rate requirements of patients with different conditions and physique tolerance to the medicine fog.
Drawings
FIG. 1 is a schematic elevational view of the present invention;
FIG. 2 is an enlarged cross-sectional view of FIG. 1 according to the present invention;
FIG. 3 is a schematic diagram of a front cross-sectional structure of a connecting pipe according to the present invention;
FIG. 4 is an enlarged schematic view of the structure of FIG. 1B according to the present invention;
FIG. 5 is a schematic view showing the bottom view of the second tank according to the present invention;
FIG. 6 is a schematic diagram of a front cross-sectional structure of an outlet box according to the present invention;
fig. 7 is a schematic diagram of a driving block structure according to the present invention.
In the figure: 1. a housing; 2. a first liquid tank; 3. a second liquid tank; 4. an ultrasonic generator; 5. an air outlet box; 6. an air outlet; 7. an air pipe; 8. an eye shield; 9. a seal ring; 10. a first air hole; 11. a second air hole; 12. a water pump; 13. a water pipe; 14. a connecting pipe; 15. an overflow pipe; 16. a paddle blade; 17. a vertical axis; 18. a baffle; 19. a cutter bar; 20. a first telescopic rod; 21. a scraper; 22. a convex strip; 23. a drive plate; 24. a driving plate; 25. a driving block; 26. a fan shaft; 27. a fan blade; 28. a second telescopic rod; 29. and a screw rod.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides an atomizing therapeutic equipment for pinkeye treatment that ophthalmology used, including shell 1, first liquid case 2, second liquid case 3, supersonic generator 4, box 5 gives vent to anger, gas outlet 6, trachea 7, the eye-shade 8, sealing ring 9, first air vent 10, second gas pocket 11, water pump 12, water pipe 13, connecting pipe 14, overflow pipe 15, paddle blade 16, vertical axis 17, baffle 18, cutter arbor 19, first telescopic link 20, scraper 21, sand grip 22, drive plate 23, drive plate 24, drive piece 25, fan axle 26, flabellum 27, second telescopic link 28 and lead screw 29, the internally mounted of shell 1 has first liquid case 2 and second liquid case 3, and the top of first liquid case 2 is installed and is run through to the filler neck of shell 1 outer wall, and supersonic generator 4 is installed to the bottom of second liquid case 3, and the top of second liquid case 3 is linked together with box 5 give vent to anger, and sealing ring 5 fixed mounting is at the roof of shell 1, the avris of box 5 is provided with gas outlet 6, and gas outlet 6 are linked together through trachea 7 and 8, left end 8 opening is provided with sealing ring 9 and water inlet port 3 is equipped with for the water inlet port of second liquid case 2 and water inlet port 3, sealing ring 9 is equipped with the top end of second liquid case 3 and water inlet port 1, the top end of second liquid case 2 is equipped with the hollow structure is that is linked together through the top end of the water inlet channel 9, the top end of second liquid case 3, the top end of sealing ring 3 is equipped with the top end of sealing ring 3, and the sealing ring 9 is connected to the top end of air vent 1, and the top end of sealing ring 3 is connected to the top end of air case 1, and the top end of sealing ring 3 is connected through the top 9, and 13 is connected through the top end of the side and 13.
The inside of connecting pipe 14 is provided with oar blade 16, and the equiangular fixed mounting of paddle 16 is in the bottom of vertical axis 17, vertical axis 17 rotates and installs on the diapire of second liquid case 3, and baffle 18 is installed on the top of vertical axis 17, the cross-section of baffle 18 is arc structure, and the lower terminal surface of baffle 18 links to each other with the first telescopic link 20 of horizontal distribution, first telescopic link 20 is the spring telescopic link, and the expansion section and the cutter arbor 19 fixed connection of first telescopic link 20, and the scraper 21 is installed to the cutter arbor 19 outer wall of vertical distribution, the surface of scraper 21 and the lateral wall of second liquid case 3 laminate mutually, and the inner wall of second liquid case 3 is fixed with sand grip 22, and one side surface of sand grip 22 is arc structure, the opposite side surface is the plane structure of fracture, the direct flow of liquid medicine is strikeed on paddle 16, the baffle 18 in this moment can drive the synchronous in rotation state of vertical axis 17 in this moment, then drive the first telescopic link 20 and the 19 in rotation state in fig. 5 in fig. 4, and the cutter arbor 21 is in rotation state, and the corresponding water droplet can be carried out in the time at the time of the inner wall 21 is carried out to the corresponding liquid of second liquid case 21 and the inner wall that the inner wall of second liquid case 3 and the vibration case 21 is kept in the corresponding liquid case, thereby the inner wall of scraper 21 can be carried out in the rolling state, the compression effect of the inner wall of the liquid case 21 can be carried out in the corresponding liquid case, and the inner wall of the liquid case 21 can be carried out in the rolling state, and the inner wall of the liquid case can be removed in the corresponding liquid case and the compression groove 21, accordingly, the water of the inner wall can be removed in the inner wall in the rolling case and accordingly the rolling case can be carried out in the rolling state and the rolling effect can and the rolling drum surface is accordingly the rolling drum the rolling effect in the rolling drum surface is accordingly in the rolling drum in the rolling condition.
The top end of the vertical shaft 17 is provided with a transmission plate 23, the end of the transmission plate 23 is of a smooth cambered surface structure, the transmission plate 23 is meshed with the driving plate 24, the driving plate 24 is fixed on the driving block 25 in a constant angle manner, the driving block 25 is of a round table structure, the top end of the driving block 25 is fixedly connected with the bottom end of the fan shaft 26, meanwhile, the fan shaft 26 is provided with a fan blade 27, the top end of the fan shaft 26 is rotatably arranged at the telescopic end of the second telescopic rod 28, the fixed end of the second telescopic rod 28 is vertically and slidably connected with the inner wall of the air outlet box 5, the upper end face of the fixed end of the second telescopic rod 28 is provided with a screw rod 29, the screw rod 29 is rotatably connected with the upper wall of the air outlet box 5, the top end of the screw rod 29 extends to the outside through the air outlet box 5, when the vertical shaft 17 is in a rotating state, the transmission plate 23 in FIG. 6 is synchronously in a rotating state, under the meshing transmission action of the transmission plate 23 and the driving plate 24, the driving block 25 is driven to be in a synchronous rotation state, at the moment, the driving block 25 drives the fan shaft 26 to synchronously rotate correspondingly in the air outlet box 5, so that air flow is generated by utilizing the operation of the fan blades 27 fixed on the surface of the fan shaft 26, the high-efficiency flow of medicine fog is guided, a user can properly adjust the height of the second telescopic rod 28 in a mode of rotating the screw rod 29, when the second telescopic rod 28 moves up and down, the fan shaft 26 and the driving block 25 are simultaneously in a movement state, and under the guidance of the surface inclined structures of the transmission plate 23 and the driving block 25, the driving block 25 correspondingly moves downwards left, so that the transmission plate 23 is meshed with the driving plate 24 in different diameter areas, and on the premise of not changing the rotating speed of the vertical shaft 17, the driving block 25 is changed, the purpose of the rotation speed of the fan shaft 26 and the fan blades 27.
Working principle: firstly, as shown in fig. 1, the liquid medicine is positioned in the first liquid tank 2 and the second liquid tank 3, the operation of the ultrasonic generator 4 can atomize the liquid medicine in the second liquid tank 3 and convey the liquid medicine to the eyeshade 8 through the air outlet box 5, the air outlet 6 and the air pipe 7, when the treatment operation is started, the eyeshade 8 can be worn in the region around the eyes through the self-contained binding belt, after the wearing is finished, the sealing ring 9 can be stressed and extruded and correspondingly deformed, and the internal air is correspondingly discharged, so that the internal air can be correspondingly deformed according to the outline of the skin around the eyes of a wearer, the wearing tightness of the eyeshade 8 is ensured, and the leakage of medicine fog is effectively avoided;
in the atomization operation process, the water pump 12 can be enabled to correspondingly operate, the liquid medicine in the first liquid tank 2 is conveyed into the second liquid tank 3 through the connecting pipe 14 by utilizing the communication of the water pipe 13, when the liquid medicine in the second liquid tank 3 reaches a designated height, the redundant liquid medicine enters the first liquid tank 2 through the overflow pipe 15, the situation that the liquid medicine flows between the tanks to avoid sinking is ensured, the sufficient liquid medicine in the second liquid tank 3 playing the role of atomization can be ensured while the liquid medicine is promoted to flow between the tanks, meanwhile, when the liquid medicine is in a flowing state, the liquid medicine directly flows and impacts on the paddle 16, at the moment, the paddle 16 can drive the vertical shaft 17 to be synchronously in a rotating state, so that the baffle 18 in fig. 1 can be synchronously in a rotating state, and then the first telescopic rod 20 and the cutter rod 19 in fig. 4 are brought into a rotating state, and the inner wall of the second liquid tank 3 are kept in a bonding state, and the rotating scraper 21 can scrape the condensed water drops on the inner wall of the liquid tank and fall back into the liquid tank again while the liquid medicine is promoted, and simultaneously, and the liquid medicine in the corresponding liquid medicine is guided by the inner wall of the scraper 21 in the figure 5 is enabled to be in a rolling state, and the corresponding rolling state is removed by the corresponding rolling rod 20 when the liquid medicine is guided by the paddle 21 and the corresponding vibration rod 20 is in the rolling state;
further, when the vertical shaft 17 is in a rotating state, the transmission plate 23 in fig. 6 is in a synchronous rotating state, and under the meshing transmission action of the transmission plate 23 and the driving plate 24, the driving block 25 is driven to be in a synchronous rotating state, at this time, the driving block 25 drives the fan shaft 26 to synchronously rotate correspondingly in the air outlet box 5, so that the fan 27 fixed on the surface of the fan shaft 26 is utilized to operate to generate air flow, the height of the second telescopic rod 28 is properly adjusted by a user in a mode of rotating the screw rod 29, when the second telescopic rod 28 moves up and down, the fan shaft 26 and the driving block 25 are simultaneously in a moving state, and under the guidance of the surface inclined structures of the transmission plate 23 and the driving block 25, the driving block 25 correspondingly moves downwards to the left, so that the transmission plate 23 is meshed with the driving plate 24 in different diameter areas, and the purpose of adjusting the speed of the fan shaft 26 and the fan blade 27 is achieved on the premise of not changing the rotating speed of the vertical shaft 17.
Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.