CN114225782A

CN114225782A - Solution agitating unit is inhaled in atomizing

Info

Publication number: CN114225782A
Application number: CN202210183436.3A
Authority: CN
Inventors: 孔惠珍; 叶辉
Original assignee: Guangzhou Newside Electronic Technology Co ltd
Current assignee: Guangzhou Newside Electronic Technology Co ltd
Priority date: 2022-02-28
Filing date: 2022-02-28
Publication date: 2022-03-25
Anticipated expiration: 2042-02-28
Also published as: CN114225782B

Abstract

The invention relates to the technical field of liquid medicine stirring, in particular to a stirring device for an atomized inhalation solution. The stirring device comprises a stirring cavity, a supporting table, a stirring frame, a driving device and four stirring devices; each stirring device comprises a moving frame, a stirring plate, a mounting shaft, a bevel gear, a first gear and an adjusting block. The movable frame can be installed in the stirring chamber with reciprocating, and the stirring board upper end is installed in movable frame lower extreme, and installation axle is installed in the stirring chamber, and the regulating block is installed in the installation axle outer end, and bevel gear installs in the installation axle inner, and first gear is installed in the bevel gear outside, and first gear is located movable frame and meshes with the meshing tooth, and the stirring frame is installed on a supporting bench and downwardly extending. Make a regulating block redirecting, first gear drive removes the frame and reciprocates to realize the ascending and descending of the alternative of stirring board, the rising of stirring board has increased the mobility of solution with descending in this device, makes the mixture of liquid more abundant, guarantees the effective absorption of drug effect when using, improves the result of use.

Description

Solution agitating unit is inhaled in atomizing

Technical Field

The invention relates to the technical field of liquid medicine stirring, in particular to a stirring device for an atomized inhalation solution.

Background

In some respiratory disease treatments, an atomizer is commonly used, children take medicines inconveniently and feel afraid of pain through traditional medicine treatment or injection, and the medicines are slowly absorbed through muscles or blood, so that the children are decocted for a long time; compared with the traditional means for treating respiratory diseases such as asthma and the like by taking medicines, the medical atomizer atomizes the liquid medicine into tiny particles, and the medicines enter the respiratory tract and the lung for deposition in a respiratory inhalation mode, so that painless, rapid and effective treatment is achieved.

At present, before an atomizer is used for dosing, the uniform mixing of medicines needs to be completed, and the medicines are dosed through the atomizer; how to accelerate the stirring speed and make the stirring more sufficient so that the medicine can better play a role is an urgent problem to be solved.

Disclosure of Invention

The invention provides a stirring device for an atomized inhalation solution, which aims to solve the problem that the existing atomizer can not stir more sufficiently so as to realize better function of a medicament.

The invention relates to an atomization inhalation solution stirring device, which adopts the following technical scheme: an atomization inhalation solution stirring device comprises a stirring cavity, a supporting table, a stirring frame, a driving device and four stirring devices; the stirring cavity extends along the vertical direction, and a supporting table is arranged at the upper end of the stirring cavity; each stirring device comprises a moving frame, a stirring plate, a mounting shaft, a bevel gear, a first gear and an adjusting block; the movable frame is mounted in the stirring cavity in a manner of moving up and down, the movable frame is an annular frame, and the inner wall surface of the annular frame is provided with meshing teeth; the stirring plate extends along the radial direction, and the upper end of the stirring plate is arranged at the lower end of the movable frame; the mounting shaft is rotatably arranged in the stirring cavity and extends along the radial direction of the stirring cavity; the adjusting blocks are arranged at the outer end of the mounting shaft, and every two adjacent adjusting blocks are horizontally and vertically arranged in an alternating manner in the circumferential direction;

the bevel gears are arranged at the inner end of the mounting shaft, every two adjacent bevel gears are meshed, and the bevel gears drive other adjacent bevel gears to rotate when rotating along with the mounting shaft; the first gear is arranged on the outer side of the bevel gear, is positioned in the movable frame and is meshed with the meshing teeth, and drives the corresponding stirring plate to ascend or descend when rotating along with the mounting shaft; the stirring frame is arranged on the supporting platform and extends downwards, and rotates under the drive of the driving device, so that the stirring frame is configured to push the adjusting block in the vertical direction to be in the horizontal direction when rotating, and the corresponding mounting shaft is enabled to rotate.

The material discharging frame is rotatably and vertically movably arranged on the supporting table, the material discharging plate is radially movably inserted in the stirring plate, and the transmission mechanism is in transmission connection with the material discharging frame and the material discharging plate and is configured to convert the rotation of the material discharging frame into inward movement of the ascending material discharging plate and outward movement of the descending material discharging plate.

Further, the transmission mechanism comprises two first gear rings, two second gear rings and four transmission pieces; the discharging frame is arranged on the supporting table and is positioned at the outer end of the stirring frame; the two first gear rings are respectively arranged at the lower end of the discharge frame, and the two second gear rings are respectively arranged at the lower end of one first gear ring in a staggered manner; each transmission piece comprises a second gear, a third gear, a fourth gear, a fifth gear and a rack; the second gear extends along the radial direction of the stirring cavity, the fourth gear extends along the radial direction of the stirring cavity, the second gear is connected with the fourth gear and is installed on the supporting table, the third gear extends along the radial direction of the stirring cavity, the fifth gear extends along the radial direction of the stirring cavity, and the third gear is connected with the fifth gear and is installed on the supporting table; the second gear is positioned at the upper end of the third gear so that the second gear is meshed with the second gear ring, and the third gear is meshed with the first gear ring; the rack is arranged between the fourth gear and the fifth gear, extends along the radial direction of the stirring cavity, and is positioned at the lower end of the adjusting block, so that the rack is driven to move in the radial direction when the fourth gear and the fifth gear rotate; the discharge plate extends along the radial direction of the stirring cavity and is arranged at the lower end of the rack in a manner of moving up and down.

Furthermore, the driving device is a motor, and the motor is arranged on the supporting platform; still including adjusting the post, adjust the post and extend along vertical direction, adjust the post and pass a supporting bench and be located the row material frame, adjust the post and be used for the drive row material frame and reciprocate.

Furthermore, the adjusting column control groove is formed in the upper end of the adjusting ring, and the lower end of the adjusting ring is located in the adjusting ring mounting groove, so that the adjusting column drives the discharging frame to move up and down.

Furthermore, the supporting platform comprises an annular circular plate and a supporting frame, four limiting columns are uniformly distributed at the upper end of the inner peripheral wall of the annular circular plate, and the upper end of each moving frame is respectively and vertically movably mounted on one limiting column.

Further, arrange the material frame and include support frame and two support arms, two first ring gears install respectively in a support arm lower extreme, and the second ring gear is installed in the one end of first ring gear along clockwise arrow head along the one end of tail portion, and the tooth of two first ring gears and the tooth of two second ring gears all face stirring intracavity wall.

Further, the stirring frame comprises a supporting plate and two pushing blocks; the backup pad extends along stirring chamber radial direction, and two ejector pads extend along the circumferencial direction, and the upper end of two ejector pads is the joint support both ends respectively.

The invention has the beneficial effects that: 1. according to the stirring device for the atomized inhalation solution, the driving device drives the stirring frame to rotate, so that the direction of the adjusting block is changed, the first gear drives the movable frame to move up and down, the four bevel gears drive the four movable frames to move simultaneously, and the stirring plate is lifted and lowered alternately.

2. The atomization inhalation solution stirring device is provided with the four transmission parts, the first gear ring and the second gear ring, so that the first gear ring and the second gear ring at the lower end of the discharge frame are meshed with the second gear and the third gear, the discharge plate is driven by the rack to extend out when the movable frame descends and retract when the movable frame descends, the pressing area can be increased when the movable frame descends, and the discharge efficiency is accelerated.

Drawings

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

FIG. 1 is a schematic diagram of the overall configuration of an embodiment of an atomized inhalation solution stirring apparatus of the present invention;

FIG. 2 is a schematic front view of the overall structure of an embodiment of the atomized inhalation solution stirring device of the present invention;

FIG. 3 is a schematic diagram of a front cross-sectional view of the overall structure of an embodiment of an atomized inhalation solution agitation device of the present invention;

FIG. 4 is a schematic front view of a stirring state of a stirring structure of an embodiment of an atomized inhalation solution stirring device of the present invention;

FIG. 5 is a schematic front view of the mixing structure of an embodiment of the atomized draw solution mixing apparatus of the present invention in a discharged state;

FIG. 6 is a schematic view of the mixing frame of an embodiment of the atomized inhalation solution mixing device of the present invention just prior to contact with the conditioning block;

FIG. 7 is a schematic view of the agitator frame of an embodiment of the aerosolized inhalation solution agitating apparatus of the present invention pushing the vertical adjustment block to a horizontal position;

FIG. 8 is a schematic view of the agitator frame of an embodiment of the aerosolized inhalation solution agitating apparatus of the present invention just prior to contact with the adjustment block in the downward position;

FIG. 9 is a left side elevational view of the overall construction of an embodiment of the atomized inhalation solution agitation device of the present invention;

FIG. 10 is a schematic view of the interior of the structure of an embodiment of the atomized inhalation solution agitation device of the present invention;

FIG. 11 is a schematic view of a discharge stand of an embodiment of an atomized inhalation solution agitation device of the present invention;

FIG. 12 is a schematic illustration of a support table of an embodiment of an atomized inhalation solution agitation device of the present invention;

figure 13 is a schematic view of a mixing frame of an embodiment of the aerosolized inhalation solution mixing apparatus of the present invention.

In the figure: 1. a motor; 2. a rotating shaft; 3. a support table; 4. an adjustment column; 5. a discharging frame; 51. a first ring gear; 52. a second ring gear; 53. a control groove of the adjusting column; 6. a stirring frame; 7. a movable frame; 8. a restraining post; 9. a bevel gear; 10. a first gear; 11. installing a shaft; 12. an adjusting block; 13. a second gear; 131. a third gear; 14. a solution chamber; 141. supporting legs; 15. a rack; 16. a first telescopic rod; 161. a second telescopic rod; 17. a stirring plate; 171. a discharge plate; 18. a discharge port; 181. a discharge port baffle; 19. a fourth gear; 191. a fifth gear; 61. a support plate; 62. and (7) pushing the block.

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.

An embodiment of an atomized inhalation solution stirring apparatus of the present invention, as shown in fig. 1 to 11, is characterized in that: comprises a stirring cavity, a supporting table 3, a stirring frame, a driving device and four stirring devices; the stirring cavity extends along the vertical direction, and a supporting platform 3 is arranged at the upper end of the stirring cavity; the lower end of the stirring cavity is provided with four uniformly distributed supporting legs 141, the lower end of the stirring cavity is provided with a discharge hole 18, and a discharge hole baffle 181 is arranged on the discharge hole. The driving device is a motor 1, and the motor 1 is arranged on the supporting platform 3; each stirring device comprises a moving frame 7, a stirring plate 17, a mounting shaft 11, a bevel gear 9, a first gear and an adjusting block; the movable frame is mounted in the stirring cavity in a manner of moving up and down, the movable frame is an annular frame, and the inner wall surface of the annular frame is provided with meshing teeth; the stirring plate extends along the radial direction, and the upper end of the stirring plate is arranged at the lower end of the movable frame; the first stirring plate and the movable frame are integrally formed. The mounting shaft is rotatably arranged in the stirring cavity and extends along the radial direction of the stirring cavity; the adjusting blocks are arranged at the outer end of the mounting shaft, and every two adjacent adjusting blocks are horizontally and vertically arranged in an alternating manner in the circumferential direction; the regulating block is arranged as an arc-shaped block. Bevel gears 9 are mounted at the inner end of the mounting shaft, every two adjacent bevel gears are meshed, and the bevel gears drive other adjacent bevel gears to rotate when rotating along with the mounting shaft. The first gear is arranged on the outer side of the bevel gear, the first gear is positioned in the movable frame and meshed with the meshing teeth, and the first gear drives the corresponding stirring plate to ascend or descend when rotating along with the mounting shaft. The stirring frame is arranged on the supporting platform 3 and extends downwards, and rotates under the driving of the driving device, and is configured to push the adjusting block in the vertical direction to be in the horizontal direction when rotating, so that the corresponding mounting shaft rotates. The supporting platform comprises an annular circular plate and a supporting frame, four limiting columns 8 are uniformly distributed at the upper end of the inner peripheral wall of the annular circular plate, and the upper end of each moving frame is respectively and vertically movably mounted on one limiting column 8.

Motor 1 passes through the rotation axis and drives the stirring frame and rotate, stirring frame 6's rotation promotes regulating block 12 and rotates, can drive first gear 10 through installation axle 11 and rotate and can drive a bevel gear 9 and rotate when regulating block 12 rotates, and then drive four bevel gear 9 and rotate together, drive four regulating block 12 and rotate, two adjacent regulating block 12 keep the vertical state, first gear 10's rotation drives and removes frame 7 and reciprocate, it drives stirring board 17 and stirs intracavity solution to remove frame 7, when a removal frame 7 descends, the removal frame 7 of adjacent both sides rises, realized ascending and descending state in turn, make the stirring more even.

In this embodiment, the apparatus further comprises a discharge frame 5, a discharge plate 171, and a transmission mechanism, wherein the discharge frame 5 is rotatably and vertically movably mounted on the support table 3, the discharge plate is radially movably inserted into the stirring plate, and the transmission mechanism is in transmission connection with the discharge frame and the discharge plate and configured to convert the rotation of the discharge frame into inward movement of the ascending discharge plate and outward movement of the descending discharge plate.

In the present embodiment, the transmission mechanism includes two first ring gears 51, two second ring gears 52, and four transmission members; the discharging frame 5 is arranged on the supporting table 3 and is positioned at the outer end of the stirring frame 6; two first gear rings 51 are respectively arranged at the lower end of the discharging frame, and two second gear rings 52 are respectively arranged at the lower end of one first gear ring in a staggered manner; each transmission comprises a second gear 13, a third gear 131, a fourth gear 19, a fifth gear 191 and a rack 15; the second gear 13 extends along the radial direction of the stirring cavity, the fourth gear 19 extends along the radial direction of the stirring cavity, the second gear is connected with the fourth gear and is arranged on the support table 3, the third gear 131 extends along the radial direction of the stirring cavity, the fifth gear 191 extends along the radial direction of the stirring cavity, and the third gear is connected with the fifth gear and is arranged on the support table 3; the second gear is positioned at the upper end of the third gear so that the second gear is meshed with the second gear ring, and the third gear is meshed with the first gear ring; the rack 15 is arranged between the fourth gear and the fifth gear, extends along the radial direction of the stirring cavity, and is positioned at the lower end of the adjusting block, so that the rack is driven to move in the radial direction when the fourth gear and the fifth gear rotate; the discharging plate extends along the radial direction of the stirring cavity and is arranged at the lower end of the rack in a way of moving up and down. Specifically, the discharge plate is mounted at the lower end of the rack through a telescopic rod. The telescopic link includes first telescopic link and second telescopic link, and first telescopic link is installed in 15 lower extremes of rack, and second telescopic link slidable mounting is in first telescopic link lower extreme, and second telescopic link lower extreme is installed in second stirring board upper end. Specifically, the agitator 6 includes a support plate 61 and two push blocks 62; the backup pad extends along stirring chamber radial direction, and two ejector pads extend along the circumferencial direction, and the upper end of two ejector pads is the joint support both ends respectively. Further, arrange material frame 5 and include support frame and two support arms, two first ring gears install respectively in a support arm lower extreme, and the second ring gear is installed in the one end of first ring gear along clockwise tail portion's one end along clockwise arrow, and the tooth of two first ring gears 51 and the tooth of two second ring gears are all towards stirring intracavity wall. In particular, the number of the stirring devices is set to an even number, and the number of the pushing blocks and the number of the supporting arms are limited so that the present application can be realized, and in this case, the number of the stirring devices is preferably 4.

In this embodiment, still including adjusting post 4, adjust post 4 and extend along vertical direction, adjust post 4 and pass supporting bench 3 and be located the row material frame, adjust the post and be used for the drive to arrange the material frame and reciprocate. The discharging frame upper end has been seted up and has been adjusted post control groove 53, adjusts the post lower extreme and is located the adjustable ring mounting groove to make the regulation post 4 drive discharging frame 5 and reciprocate.

The working process is as follows: after a solution is led into a solution cavity 14, a motor 1 is started, the motor drives a rotating shaft 2 to rotate, the rotating shaft 2 drives a discharging frame 5 and a stirring frame 6 to rotate, an initial position adjusting column 4 is arranged at a high position, a first gear ring 51 and a second gear ring 52 at the lower end of the discharging frame 5 are not meshed with a second gear 13 and a third gear 131, the stirring frame 6 rotates to push adjusting blocks 12 to rotate, the adjusting blocks 12 can drive a first gear 10 to rotate and drive a bevel gear 9 to rotate through a mounting shaft 11 when rotating, and further drive four bevel gears 9 to rotate together, so as to drive four adjusting blocks 12 to rotate, two adjacent adjusting blocks 12 are kept in a vertical state, the moving frame 7 is driven by the rotation of the first gear 10 to move up and down, the moving frame 7 drives a stirring plate 17 and a discharging plate 171 to stir the solution in the cavity, when one moving frame 7 descends, the moving frames 7 at two adjacent sides rise, and the liquidity of the liquid is increased, the solution can be mixed more fully.

When the mixed solution needs to be discharged, the adjusting column 4 is pressed downwards, so that the first gear ring 51 and the second gear ring 52 at the lower end of the discharging frame 5 are meshed with the second gear 13 and the third gear 131, and the adjusting column continues to rotate, when the lower end of the stirring frame 6 just pushes the adjusting block 12, namely, the moving frame 7 at the position descends to the lowest position, the first gear ring 51 starts to be meshed with the third gear 131 at the next position, the second gear ring 52 starts to be meshed with the second gear 13 at the position, the first gear ring 51 is meshed with the third gear 131 at the lower position to rotate the third gear 131, the third gear 131 rotates to drive the fifth gear 191 below the third gear 131 to rotate, the fifth gear 191 rotates to drive the rack 15 at the next position to move outwards, the rack 15 outwards drives the discharging plate 171, the second gear ring 52 is meshed with the second gear 13 at the position to drive the second gear 13 to rotate, and the second gear 13 drives the fourth gear 19 to rotate, the second gear 19 drives the rack 15 at the position to move inwards, the rack 15 drives the discharge plate 171 to move inwards when moving inwards, when the stirring frame 6 rotates to contact with the adjusting block 12 at the next position, the first toothed ring 51 is disengaged from the third gear 131, the second toothed ring 52 is disengaged from the second gear 13, at this time, the discharge plate 171 at the original position retracts, the discharge plate 171 at the next position extends, when the stirring frame 6 pushes the adjusting block 12 at the lower position to rotate, the moving frame 7 descends, at this time, the contact surface between the downward moving stirring plate 17 and the discharge plate 171 and the solution becomes larger, when moving downwards, more liquid is pressed to discharge the liquid at an accelerated speed, and the discharge plate 171 at the previous position retracts and is in a rising state, so that the accelerated discharge of the solution is not affected.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. An atomized inhalation solution stirring device is characterized in that: the stirring device comprises a stirring cavity, a supporting table, a stirring frame, a driving device and four stirring devices;

the stirring cavity extends along the vertical direction, and a supporting table is arranged at the upper end of the stirring cavity;

each stirring device comprises a moving frame, a stirring plate, a mounting shaft, a bevel gear, a first gear and an adjusting block;

the movable frame is mounted in the stirring cavity in a manner of moving up and down, the movable frame is an annular frame, and the inner wall surface of the annular frame is provided with meshing teeth;

the stirring plate extends along the radial direction, and the upper end of the stirring plate is arranged at the lower end of the movable frame;

the mounting shaft is rotatably arranged in the stirring cavity and extends along the radial direction of the stirring cavity;

the adjusting blocks are arranged at the outer end of the mounting shaft, and every two adjacent adjusting blocks are horizontally and vertically arranged in an alternating manner in the circumferential direction;

the bevel gears are arranged at the inner end of the mounting shaft, every two adjacent bevel gears are meshed, and the bevel gears drive other adjacent bevel gears to rotate when rotating along with the mounting shaft;

the first gear is arranged on the outer side of the bevel gear, is positioned in the movable frame and is meshed with the meshing teeth, and drives the corresponding stirring plate to ascend or descend when rotating along with the mounting shaft;

the stirring frame is arranged on the supporting platform and extends downwards, and rotates under the drive of the driving device, so that the stirring frame is configured to push the adjusting block in the vertical direction to be in the horizontal direction when rotating, and the corresponding mounting shaft is enabled to rotate.

2. The aerosolized inhalation solution agitation apparatus of claim 1, wherein: the material discharging frame is rotatably and vertically movably arranged on the supporting table, the material discharging plate is radially movably inserted in the stirring plate, and the transmission mechanism is in transmission connection with the material discharging frame and the material discharging plate and is configured to convert the rotation of the material discharging frame into inward movement of the ascending material discharging plate and outward movement of the descending material discharging plate.

3. The aerosolized inhalation solution agitation apparatus of claim 2, wherein: the transmission mechanism comprises two first gear rings, two second gear rings and four transmission pieces; the discharging frame is arranged on the supporting table and is positioned at the outer end of the stirring frame; the two first gear rings are respectively arranged at the lower end of the discharge frame, and the two second gear rings are respectively arranged at the lower end of one first gear ring in a staggered manner; each transmission piece comprises a second gear, a third gear, a fourth gear, a fifth gear and a rack; the second gear extends along the radial direction of the stirring cavity, the fourth gear extends along the radial direction of the stirring cavity, the second gear is connected with the fourth gear and is installed on the supporting table, the third gear extends along the radial direction of the stirring cavity, the fifth gear extends along the radial direction of the stirring cavity, and the third gear is connected with the fifth gear and is installed on the supporting table; the second gear is positioned at the upper end of the third gear so that the second gear is meshed with the second gear ring, and the third gear is meshed with the first gear ring; the rack is arranged between the fourth gear and the fifth gear, extends along the radial direction of the stirring cavity, and is positioned at the lower end of the adjusting block, so that the rack is driven to move in the radial direction when the fourth gear and the fifth gear rotate; the discharge plate extends along the radial direction of the stirring cavity and is arranged at the lower end of the rack in a manner of moving up and down.

4. The aerosolized inhalation solution agitation apparatus of claim 3, wherein: the driving device is a motor, and the motor is arranged on the supporting platform; still including adjusting the post, adjust the post and extend along vertical direction, adjust the post and pass a supporting bench and be located the row material frame, adjust the post and be used for the drive row material frame and reciprocate.

5. The aerosolized inhalation solution agitation apparatus of claim 4, wherein: the adjusting column control groove is formed in the upper end of the adjusting ring, and the lower end of the adjusting ring is located in the adjusting ring mounting groove so that the adjusting column drives the discharging frame to move up and down.

6. The aerosolized inhalation solution agitation apparatus of claim 1, wherein: the supporting platform comprises an annular circular plate and a supporting frame, four limiting columns are uniformly distributed at the upper end of the inner peripheral wall of the annular circular plate, and the upper end of each moving frame is respectively and vertically movably mounted on one limiting column.

7. The aerosolized inhalation solution agitation apparatus of claim 1, wherein: the discharging frame comprises a supporting frame and two supporting arms, two first toothed rings are respectively arranged at the lower ends of the supporting arms, one end of the second toothed ring along the clockwise tail portion is arranged at one end of the first toothed ring along the clockwise arrow, and the teeth of the two first toothed rings and the teeth of the two second toothed rings face the inner wall of the stirring cavity.

8. The aerosolized inhalation solution agitation apparatus of claim 1, wherein: the stirring frame comprises a supporting plate and two pushing blocks; the backup pad extends along stirring chamber radial direction, and two ejector pads extend along the circumferencial direction, and the upper end of two ejector pads is the joint support both ends respectively.