CN215279046U

CN215279046U - Medicine bottle cleaning machine

Info

Publication number: CN215279046U
Application number: CN202121253287.0U
Authority: CN
Inventors: 叶明�
Original assignee: Shanghai Tuoda Mechanical And Electrical Equipment Co ltd
Current assignee: Shanghai Tuoda Mechanical And Electrical Equipment Co ltd
Priority date: 2021-06-05
Filing date: 2021-06-05
Publication date: 2021-12-24
Anticipated expiration: 2031-06-05

Abstract

The application relates to a medicine bottle cleaning machine, including workstation, rotation connect in the workstation in order to carry out the rotary drum of transporting to the medicine bottle, set up in the workstation in order to carry out water spray abluent secondary wiper mechanism and be located secondary wiper mechanism's low reaches in order to carry out dry air-dry mechanism to the medicine bottle, the rotary drum is provided with the radial rotation along the rotary drum and connects in the fixture of rotary drum periphery wall, and fixture is provided with the multiunit and revolutes the axis distribution of a section of thick bamboo, the rotary drum is provided with the tilting mechanism that drives the fixture upset in order to realize the inversion and the repaversion of medicine bottle. This application has the intensity of labour who reduces the staff and improves cleaning efficiency's advantage.

Description

Medicine bottle cleaning machine

Technical Field

The application relates to the technical field of medicine bottle cleaning, in particular to a medicine bottle cleaning machine.

Background

Penicillin bottles are commonly used as containers for medicines, and each penicillin bottle comprises a bottle body, a neck and a bottle mouth, wherein the diameter of the bottle neck is smaller than that of the bottle body and the bottle mouth.

As a medicinal container, the penicillin bottle needs to be cleaned in an ultrasonic cleaning pool before bottling, cleaning water is remained in the washed penicillin bottle, the penicillin bottle is inverted manually, the cleaning water remained in the penicillin bottle is poured out, the penicillin bottle needs to be cleaned again by using clean water after the cleaning water is poured out manually, and the penicillin bottle can be subjected to medicine filling operation after being dried after the cleaning is finished.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: the cleaning water remained in the penicillin bottle is poured out manually, so that the labor intensity is high, the working efficiency is low, and further improvement is needed.

SUMMERY OF THE UTILITY MODEL

In order to reduce staff's intensity of labour and improve cleaning efficiency, this application provides a medicine bottle cleaning machine.

The application provides a medicine bottle cleaning machine adopts following technical scheme:

the utility model provides a medicine bottle cleaning machine, includes the workstation, rotates to connect in the workstation in order to carry out the rotary drum of transporting to the medicine bottle, set up in the workstation in order to carry out water spray cleaning's secondary wiper mechanism and be located secondary wiper mechanism's low reaches in order to carry out dry air-dry mechanism to the medicine bottle, the rotary drum is provided with the fixture who connects in the rotary drum periphery wall along the radial rotation of rotary drum, and fixture is provided with the multiunit and revolutes the axis distribution of a section of thick bamboo, the rotary drum is provided with the tilting mechanism that drives fixture upset in order to realize the inversion and the back of medicine bottle and overturn.

Through adopting above-mentioned technical scheme, it is fixed to carry out the centre gripping to the medicine bottle through fixture on the rotary drum, the rotary drum rotates the transportation that realizes the medicine bottle, in the transportation, rotate at vertical direction through tilting mechanism control centre gripping subassembly, make the opening of xiLin bottle down, will remain the washing water of in the medicine bottle and pour out, and wash the medicine bottle through secondary wiper mechanism, wash and carry out the stoving operation to the medicine bottle through air-dry mechanism after accomplishing, rethread tilting mechanism control centre gripping subassembly rotates at vertical direction after accomplishing of stoving, make the opening of medicine bottle reset up so that follow-up carries out the filling operation, realize automatic operation, effectively reduce staff's intensity of labour and improvement cleaning efficiency.

Preferably, the rotary drum rotates and is connected with the axis of rotation, and the workstation is provided with the fixed cylinder that the rotary drum was located to the cover, every group fixture includes that fixed connection sets up in the clamping jaw unit of mount pad in the mount pad of mount pad and multiunit, and every group clamping jaw unit includes that fixed connection articulates in the movable jaw of mount pad in the stationary dog and one end, and the draw-in groove has all been seted up to the tip of stationary dog and movable jaw, forms after the draw-in groove of stationary dog and movable jaw is closed and carries out the clamping part of centre gripping to the medicine bottle, the mount pad is provided with the free end rotation of control movable jaw in order to realize carrying out the control assembly that centre gripping or pine were put to the medicine bottle.

Through adopting above-mentioned technical scheme, the free end that drives movable jaw through control assembly rotates towards the direction of being close to or keeping away from the stationary dog to realize clamping jaw unit and carry out centre gripping or loose action of putting to the medicine bottle.

Preferably, the fixed cylinder is located the top of mount pad, the workstation is provided with the fixed sleeve that is located the mount pad below, control assembly including rotate connect in the articulated shaft of mount pad, one end fixed mounting in the transmission piece of articulated shaft, install between stationary dog and movable claw with the free end of forcing the movable claw towards being close to stationary dog direction pivoted elastic component and correspond respectively and set up in the fixed cylinder and the fixed sleeve with the first piece and the second that touches of the free end butt of supplying the transmission piece touch, movable claw fixed connection is in the articulated shaft, when the transmission piece butt touches the piece in first touch piece or second, realizes that the free end of movable claw is towards keeping away from the rotation of stationary dog direction.

Through adopting above-mentioned technical scheme, the rotary drum is the fixed cylinder relatively, fixed sleeve rotates, force the free end of driving block to rotate around the axis of articulated shaft when driving block butt in first touch piece or second touch piece, thereby it rotates towards keeping away from the stationary dog direction to drive the free end of movable claw through the articulated shaft around the axis of articulated shaft, thereby realize the action of opening of clamping jaw unit, elastic deformation and elastic potential energy take place for the elastic component this moment, when driving block and first touch piece or second touch piece break away from, thereby the elastic component resets and forces the free end of movable claw to rotate towards being close to the stationary dog direction, realize the closed centre gripping action of clamping jaw unit.

Preferably, the turnover mechanism comprises a first bevel gear coaxially and fixedly sleeved on the rotating shaft, a transmission shaft rotatably connected to the inner wall of the rotary drum, a second bevel gear coaxially sleeved on the transmission shaft and meshed with the first bevel gear, a transmission gear coaxially sleeved on the transmission shaft, and an inverted rack and a back-turning rack arranged on the fixed drum, wherein the inverted rack and the back-turning rack are both arranged in an arc shape, the inverted rack and the back-turning rack are movably meshed with the transmission gear, and the inverted rack and the back-turning rack are distributed around the axis of the fixed drum.

By adopting the technical scheme, when a group of clamping mechanisms on the rotary drum rotate to a set position, the gear is in contact engagement with the starting end of the inverted rack, the rotary drum continues to rotate, the gear rotates under the action of the inverted rack so as to drive the transmission shaft to rotate, the rotating shaft is driven to rotate through the second bevel gear and the first bevel gear, and after the gear is separated from the tail end of the inverted rack, the clamping mechanisms rotate 180 degrees so as to clamp and invert the medicine bottle, and further, cleaning water remained in the medicine bottle is poured out; the rotary drum continues to rotate, and when the gear and the contact meshing of the back-turning rack, the gear continues to be driven to rotate so that the clamping mechanism continues to rotate 180 degrees, so that the back-turning of the medicine bottle is realized, and the follow-up filling of the medicine bottle is facilitated.

Preferably, secondary wiper mechanism includes and carries out abluent first washing subassembly to the medicine bottle outer wall, and first washing subassembly is including setting up in the first mounting bracket of workstation, setting up in the scavenge pipe of first mounting bracket and being located the fixture top and connecting in the water shower nozzle of scavenge pipe, first mounting bracket is located the low reaches of inversion rack and is located the upper reaches of turning back the rack, the external water source of scavenge pipe.

Through adopting above-mentioned technical scheme, first mounting bracket provides the installation carrier for the scavenge pipe, and the clear water washes the medicine bottle outside after the upset through scavenge pipe and water shower nozzle.

Preferably, secondary wiper mechanism still includes and carries out abluent second cleaning assembly to the medicine bottle inner wall, and the second cleaning assembly is including being located fixture below and having flow channel's washing slat and connecting in the play water gun who washs the slat, wash the slat and be located the low reaches of inversion rack and be located the upper reaches of turning back the rack, wash the external water source of slat.

Through adopting above-mentioned technical scheme, when the opening of medicine bottle and play water gun position correspond, clear water is through rinsing the slat and go out the squirt from the opening part of medicine bottle in spouting into the medicine bottle to wash the medicine bottle inner wall after the pouring.

Preferably, air-dry the mechanism and include that to carry out the first air-dry subassembly of air-drying to the medicine bottle outer wall, first air-dry subassembly is including setting up in the second mounting bracket of workstation, setting up in the second mounting bracket and be located the air supply pipe of fixture top and connect in the gas shower nozzle of air supply pipe, the second mounting bracket is located the low reaches of inversion rack and is located the upper reaches of turning back the rack, the external air supply of air supply pipe.

Through adopting above-mentioned technical scheme, through being provided with air supply pipe and air shower nozzle to the air-dry of blowing of the medicine bottle lateral wall of invering.

Preferably, air-dry the mechanism and still include and carry out the air-dried second to the medicine bottle inner wall and air-dry the subassembly, the second air-dries the subassembly including being located fixture below and having airflow channel's air-dry slat and connecting in the rifle of giving vent to anger of air-drying the slat, air-dry the slat and be located the low reaches of inversion rack and be located the upper reaches of turning back the rack, air-dry the external air supply of slat.

Through adopting above-mentioned technical scheme, when the opening of medicine bottle and the position of going out the air gun correspond, gaseous through air-drying the slat and go out the air gun and follow the opening part injection of medicine bottle and enter the medicine bottle to air-dry the medicine bottle inner wall after the pouring.

To sum up, the utility model discloses following beneficial effect has:

carry out the centre gripping through fixture on the rotary drum to the medicine bottle and fix, the rotary drum rotates the transportation that realizes the medicine bottle, in the transportation, rotate in vertical direction through tilting mechanism control centre gripping subassembly, make xiLin bottle's opening down, will remain the washing water of in the medicine bottle and pour out, and wash the medicine bottle through secondary wiper mechanism, it dries the operation to the medicine bottle through air-dry mechanism after accomplishing to wash, rethread tilting mechanism control centre gripping subassembly rotates in vertical direction after accomplishing to dry, make the opening of medicine bottle reset up so that follow-up carries out the filling operation, realize automatic operation, effectively reduce staff's intensity of labour and improvement cleaning efficiency.

Drawings

FIG. 1 is a perspective view of a vial cleaning machine;

FIG. 2 is a schematic plan view of a vial cleaning machine;

FIG. 3 is a schematic structural view of the water receiving tank and the fixing sleeve;

FIG. 4 is a schematic view of the structure of the turnover mechanism and the clamping mechanism;

FIG. 5 is a schematic structural view of the jaw unit and control assembly;

FIG. 6 is a schematic structural view of a fixed barrel;

fig. 7 is a schematic structural view of the secondary cleaning mechanism and the seasoning mechanism.

In the figure, 1, a workbench; 11. a water receiving tank; 12. a servo motor; 13. a drain pipe; 14. a water collection tank; 15. a support frame; 16. a fixed cylinder; 17. a water baffle; 18. fixing the sleeve; 2. a rotating drum; 21. a rotating shaft; 3. a secondary cleaning mechanism; 31. a first cleaning assembly; 311. a first mounting bracket; 312. cleaning the tube; 313. a water spray head; 32. a second cleaning assembly; 321. cleaning the batten; 322. discharging the water gun; 4. an air drying mechanism; 41. a first air drying assembly; 411. a second mounting bracket; 412. a gas supply pipe; 413. a gas shower head; 42. a second air drying component; 421. air-drying the batten; 422. a gas shower head; 5. a clamping mechanism; 51. a mounting seat; 52. a jaw unit; 521. a fixed jaw; 522. a movable jaw; 523. a clamping portion; 6. a control component; 61. hinging a shaft; 62. a transmission block; 621. mounting holes; 622. a deformation groove; 623. a screw; 63. a compression spring; 64. a first touch block; 65. a second touch block; 7. a turnover mechanism; 71. a first bevel gear; 72. a drive shaft; 73. a second bevel gear; 74. a transmission gear; 75. inverting the rack; 76. the rack is turned back.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses medicine bottle cleaning machine, refer to fig. 1, including workstation 1, rotate connect in workstation 1 with carry out the rotary drum 2 of transporting to the medicine bottle, set up in workstation 1 in order to carry out water spray cleaning's secondary wiper mechanism 3 and be located the downstream of secondary wiper mechanism 3 in order to carry out dry air-dry mechanism 4 to the medicine bottle, rotary drum 2 has the inner chamber and its upper portion is the opening setting, and the axis of rotary drum 2 is vertical setting.

Referring to fig. 1 and 2, a water receiving tank 11 with an open upper portion is fixedly connected to an upper end surface of the workbench 1, a lower end surface of the rotary drum 2 abuts against an inner wall of a bottom of the water receiving tank 11, and a rotary shaft (not shown) penetrating through the water receiving tank 11 and the workbench 1 is coaxially and convexly arranged on the lower end surface of the rotary drum 2. The worktable 1 is fixedly connected with a servo motor 12 for driving a rotating shaft to rotate, and an output shaft of the servo motor 12 is coaxially and fixedly connected with the lower end of the rotating shaft. The water receiving tank 11 is fixedly connected with a drain pipe 13 penetrating through the workbench 1, a water collecting tank 14 is arranged below the workbench 1, the upper part of the water collecting tank 14 is arranged in an opening manner, and the lower end of the drain pipe 13 is positioned right above the opening of the water collecting tank 14.

Referring to fig. 1 and 3, a support frame 15 is fixedly connected to the inner wall of the bottom of the water receiving tank 11, a fixing sleeve 18 is fixedly connected to the inner wall of the bottom of the water receiving tank 11, and the fixing sleeve 18 is coaxially sleeved on the lower portion of the rotary drum 2. The support frame 15 is fixedly connected with a fixed cylinder 16, the axis of the fixed cylinder 16 coincides with the axis of the rotary cylinder 2, and the fixed cylinder 16 is provided with an inner cavity and the lower part of the fixed cylinder is provided with an opening. The supporting frame 15 is fixedly connected with a water baffle 17 positioned on the periphery of the rotating drum 2, the water baffle 17 is an arc-shaped plate, and the axis of the water baffle 17 is superposed with the axis of the rotating drum 2. Specifically, the water baffle 17 is an acrylic plate, so that the water baffle 17 is transparent, and the lower end of the water baffle 17 extends into the water receiving tank 11.

Referring to fig. 4 and 5, the drum 2 is provided with a clamping mechanism 5 which is rotatably connected to the outer peripheral wall of the drum 2 in the radial direction of the drum 2, and a turnover mechanism 7 which drives the clamping mechanism 5 to turn over to realize inversion and turnover of the medicine bottles, and the clamping mechanisms 5 are provided with a plurality of groups and distributed around the axis of the drum 2. The rotating drum 2 is rotatably connected with a rotating shaft 21, the axial direction of the rotating shaft 21 is parallel to the radial direction of the rotating drum 2, and one end of the rotating shaft 21 extends to the inner cavity of the rotating drum 2. Each set of clamping mechanisms 5 comprises a mounting seat 51 and a plurality of sets of clamping jaw units 52, and the mounting seat 51 is fixedly connected to the outer end part of the rotating shaft 21. Each group of clamping jaw units 52 comprises a fixed jaw 521 and a movable jaw 522, the fixed jaw 521 is fixedly connected to the mounting base 51, one end of the movable jaw 522 is hinged to the mounting base 51, clamping grooves are formed in the end portions of the fixed jaw 521 and the movable jaw 522, and clamping portions 523 for clamping medicine bottles are formed after the clamping grooves of the fixed jaw 521 and the movable jaw 522 are closed.

Referring to fig. 3, 5 and 6, the mounting seat 51 is provided with a control assembly 6 for controlling the free end of the movable jaw 522 to rotate so as to clamp or release the medicine bottle, and the control assembly 6 comprises a hinge shaft 61, a transmission block 62, elasticity, a first touch block 64 and a second touch block 65. Articulated shaft 61 wears to locate mount pad 51 and rotates and connect in mount pad 51, and the axis of articulated shaft 61 is vertical setting, and the both ends of articulated shaft 61 all expose in mount pad 51, and movable claw 522 fixed connection is in the one end of articulated shaft 61, and driving block 62 fixed connection is in the other end of articulated shaft 61. The elastic member is an extension spring, one end of the extension spring is fixedly connected to the fixed jaw 521, and the other end of the extension spring is fixedly connected to the movable jaw 522, and the extension spring forces the free end of the movable jaw 522 to rotate towards the direction close to the fixed jaw 521.

Referring to fig. 5, in order to reduce the possibility of relative rotation between the driving block 62 and the hinge shaft 61, the cross section of the end of the hinge shaft 61 abutting against the driving block 62 is D-shaped, the driving block 62 penetrates through a mounting hole 621 through which the end of the hinge shaft 61 passes, and the mounting hole 621 is correspondingly D-shaped. The transmission block 62 is provided with a deformation groove 622 communicated with the mounting hole 621 so as to divide the transmission block 62 into a deformation part and a mounting part, the outer wall of the deformation part is provided with a screw 623 in threaded connection with the mounting part, and after the transmission block 62 is sleeved on the hinge shaft 61, the transmission block 62 and the hinge shaft 61 are fixed through the locking screw 623.

Referring to fig. 3, 5 and 6, the first trigger block 64 is fixedly connected to the outer wall of the fixed cylinder 16, the second trigger is fixedly connected to the outer wall of the fixed sleeve 18, and the first trigger block 64 and the second trigger block 65 are vertically distributed. First touching piece 64 and second and touching piece 65 and be rectangular arc setting, the axis and the pivot coincidence of first touching piece 64 and second touching piece 65, the both ends outer wall of first touching piece 64 and second touching piece 65 all is provided with the spigot surface, and transmission block 62 butt realizes that the free end of movable claw 522 rotates towards keeping away from stationary dog 521 direction when first touching piece 64 or second touching piece 65. When the transmission block 62 abuts against the first contact block 64 or the second contact block 65, the free end of the transmission block 62 is forced to rotate around the axis of the hinge shaft 61, so that the hinge shaft 61 drives the free end of the movable claw 522 to rotate around the axis of the hinge shaft 61 in the direction away from the fixed claw 521, thereby realizing the opening action of the clamping jaw unit 52, at this time, the tension spring is elastically deformed and has elastic potential energy, and when the transmission block 62 is disengaged from the first contact block 64 or the second contact block 65, the tension spring resets, so that the free end of the movable claw 522 is forced to rotate in the direction close to the fixed claw 521, thereby realizing the closing clamping action of the clamping jaw unit 52.

Referring to fig. 4, the turnover mechanism 7 includes a first bevel gear 71, a transmission shaft 72, a second bevel gear 73, a transmission gear 74, an inverted rack 75 and a turnover rack 76, the first bevel gear 71 is coaxially and fixedly sleeved at an inner end of the rotating shaft 21, the transmission shaft 72 is rotatably connected to an inner wall of the bottom of the rotating drum 2, and an axis of the transmission shaft 72 is vertically arranged. The second bevel gear 73 is coaxially and fixedly sleeved on the transmission shaft 72, the second bevel gear 73 is meshed with the first bevel gear 71, and the transmission gear 74 is coaxially and fixedly sleeved on the transmission shaft 72. The inversion rack 75 and the reverse rack 76 are both fixedly connected to the inner peripheral wall of the fixed cylinder 16, the inversion rack 75 and the reverse rack 76 are both arranged in an arc shape, the inversion rack 75 and the reverse rack 76 are movably meshed with the transmission gear 74, the inversion rack 75 and the reverse rack 76 are distributed around the axis of the fixed cylinder 16, and the tooth surfaces of the inversion rack 75 and the reverse rack 76 face the axis of the fixed cylinder 16.

When a group of clamping mechanisms 5 on the rotary drum 2 rotate to a set position, the transmission gear 74 is contacted and meshed with the starting end of the inverted rack 75, the rotary drum 2 continues to rotate, the transmission gear 74 rotates under the action of the inverted rack 75 to drive the transmission shaft 72 to rotate, the rotation shaft 21 is driven to rotate through the second bevel gear 73 and the first bevel gear 71, and after the transmission gear 74 is separated from the tail end of the inverted rack 75, the clamping mechanisms 5 rotate 180 degrees to clamp and invert the medicine bottle, so that the cleaning water remained in the medicine bottle is poured out; the drum 2 continues to rotate, and when the transmission gear 74 is engaged with the reverse turning rack 76, the transmission gear 74 is further driven to rotate, so that the clamping mechanism 5 continues to rotate 180 degrees, and the reverse turning of the medicine bottle is realized.

Referring to fig. 4 and 7, the secondary cleaning mechanism 3 includes a first cleaning assembly 31 for cleaning the outer wall of the medicine bottle and a second cleaning assembly 32 for cleaning the inner wall of the medicine bottle, and the first cleaning assembly 31 includes a first mounting bracket 311, a cleaning pipe 312 and a water nozzle 313. The first mounting bracket 311 is fixedly connected to the inner wall of the bottom of the water collecting tank 14, and the first mounting bracket 311 is located downstream of the inverted rack 75 and upstream of the inverted rack 76. The cleaning pipe 312 is positioned above the clamping mechanism 5, the water spray head 313 is connected to the cleaning pipe 312, and the cleaning pipe 312 is externally connected with a water source. The second cleaning assembly 32 includes a cleaning bar 321 having a fluid channel and a water outlet gun 322 connected to the cleaning bar 321, wherein the water outlet gun 322 is provided in a plurality and distributed along a length direction of the cleaning bar 321. The cleaning strip plate 321 is arranged in an arc shape, the axis of the cleaning strip plate 321 is overlapped with the axis of the rotary drum 2, the cleaning strip plate 321 is positioned below the clamping mechanism 5, the cleaning strip plate 321 is fixedly connected to the inner wall of the bottom of the water receiving tank 11, and the cleaning strip plate 321 is positioned at the downstream of the inverted rack 75 and at the upstream of the inverted rack 76.

Referring to fig. 4 and 7, the air drying mechanism 4 includes a first air drying component 41 for air drying the outer wall of the medicine bottle and a second air drying component 42 for air drying the inner wall of the medicine bottle, the first air drying component 41 includes a second mounting frame 411, an air supply pipe 412 and an air nozzle 422413, the second mounting frame 411 is fixedly connected to the bottom inner wall of the water receiving tank 11, the second mounting frame 411 is located above the clamping mechanism 5, and the second mounting frame 411 is located downstream of the first mounting frame 311 and upstream of the turning rack 76. The air supply pipe 412 is fixedly connected to the second mounting frame 411, the air nozzle 422413 is connected to the air supply pipe 412, and the air supply pipe 412 is externally connected to an air supply. The second seasoning assembly 42 includes a seasoning strip 421 having an air flow channel and a plurality of air outlet guns connected to the seasoning strip 421, and the air outlet guns are disposed along the length direction of the seasoning strip 421. Air-dry slat 421 is the arc strip setting, and the axis of air-drying slat 421 coincides with the axis of rotary drum 2, and air-dry slat 421 is located fixture 5 below, and air-dry slat 421 fixed connection is in the bottom inner wall of water receiving tank 11, and air-dry slat 421 is located the low reaches of wasing slat 321 and is located the upper reaches of turning back rack 76.

The implementation principle of this application embodiment medicine bottle cleaning machine does: carry out the centre gripping through fixture 5 on the rotary drum 2 and fix the medicine bottle, rotary drum 2 rotates the transportation that realizes the medicine bottle, in the transportation, control the centre gripping subassembly through tilting mechanism 7 and rotate 180 in vertical direction, make the opening of xiLin bottle down, will remain the washing water of in the medicine bottle and pour out, and wash the medicine bottle through secondary wiper mechanism 3, wash and accomplish the back and carry out the stoving operation to the medicine bottle through air-dry mechanism 4, rethread tilting mechanism 7 control centre gripping subassembly rotates 180 in vertical direction after the stoving is accomplished, make the opening of medicine bottle reset up so that follow-up carries out the filling operation, realize automatic operation, effectively reduce staff's intensity of labour and improvement cleaning efficiency.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. A medicine bottle cleaning machine which is characterized in that: including workstation (1), rotate connect in workstation (1) with carry out rotary drum (2) transported to the medicine bottle, set up in workstation (1) in order to carry out water spray cleaning's secondary wiper mechanism (3) and be located the low reaches of secondary wiper mechanism (3) in order to carry out dry air-dry mechanism (4) to the medicine bottle, rotary drum (2) are provided with radial rotation along rotary drum (2) and connect in fixture (5) of rotary drum (2) periphery wall, and fixture (5) are provided with the multiunit and revolute the axis distribution of rotary drum (2), rotary drum (2) are provided with drive fixture (5) upset and overturn tilting mechanism (7) with the inversion that realizes the medicine bottle.

2. The vial cleaning machine of claim 1, wherein: the rotary drum (2) is rotatably connected with a rotating shaft (21), the workbench (1) is provided with a fixed cylinder (16) sleeved on the rotary drum (2), each group of clamping mechanisms (5) comprises a mounting seat (51) fixedly connected to the rotating shaft (21) and a plurality of groups of clamping jaw units (52) arranged on the mounting seat (51), each group of clamping jaw units (52) comprises a fixed jaw (521) fixedly connected to the mounting seat (51) and a movable jaw (522) with one end hinged to the mounting seat (51), clamping grooves are formed in the end portions of the fixed jaw (521) and the movable jaw (522), clamping portions (523) for clamping the medicine bottle are formed after the clamping grooves of the fixed jaw (521) and the movable jaw (522) are closed, and the mounting seat (51) is provided with a control assembly (6) for controlling the free end of the movable jaw (522) to rotate so as to clamp or release the medicine bottle.

3. The vial cleaning machine of claim 2, wherein: the fixed cylinder (16) is positioned above the mounting seat (51), the workbench (1) is provided with a fixed sleeve (18) positioned below the mounting seat (51), the control component (6) comprises a hinging shaft (61) rotationally connected with the mounting seat (51), a transmission block (62) with one end fixedly arranged on the hinging shaft (61), an elastic piece arranged between the fixed claw (521) and the movable claw (522) to force the free end of the movable claw (522) to rotate towards the direction close to the fixed claw (521), and a first touch block (64) and a second touch block (65) which are respectively and correspondingly arranged on the fixed cylinder (16) and the fixed sleeve (18) and used for the free end of the transmission block (62) to abut against, the movable claw (522) is fixedly connected with the hinging shaft (61), when the transmission block (62) abuts against the first touch block (64) or the second touch block (65), the free end of the movable claw (522) rotates towards the direction far away from the fixed claw (521).

4. The vial cleaning machine of claim 2, wherein: the turnover mechanism (7) comprises a first bevel gear (71) coaxially and fixedly sleeved on the rotating shaft (21), a transmission shaft (72) rotatably connected to the inner wall of the rotating drum (2), a second bevel gear (73) coaxially and fixedly sleeved on the transmission shaft (72) and meshed with the first bevel gear (71), a transmission gear (74) coaxially and fixedly sleeved on the transmission shaft (72), an inversion rack (75) and a reverse turning rack (76) arranged on the fixed drum (16), wherein the inversion rack (75) and the reverse turning rack (76) are both arranged in an arc shape, the inversion rack (75) and the reverse turning rack (76) are movably meshed with the transmission gear (74), and the inversion rack (75) and the reverse turning rack (76) are distributed around the axis of the fixed drum (16).

5. The vial cleaning machine of claim 4, wherein: secondary wiper mechanism (3) are including carrying out abluent first washing subassembly (31) to the medicine bottle outer wall, and first washing subassembly (31) are including setting up in first mounting bracket (311) of workstation (1), set up in first mounting bracket (311) and be located scavenge pipe (312) of fixture (5) top and connect in water shower nozzle (313) of scavenge pipe (312), first mounting bracket (311) are located the low reaches of inversion rack (75) and are located the upper reaches of turning back rack (76), the external water source of scavenge pipe (312).

6. The vial cleaning machine of claim 4, wherein: secondary wiper mechanism (3) still include and carry out abluent second cleaning assembly (32) to the medicine bottle inner wall, second cleaning assembly (32) including being located fixture (5) below and having flow channel wash slat (321) and connect in the play water gun (322) that wash slat (321), wash slat (321) and be located the low reaches of inversion rack (75) and be located the upper reaches of turning back rack (76), wash the external water source of slat (321).

7. The vial cleaning machine of claim 4, wherein: air-dry mechanism (4) including carrying out air-dried first air-dry subassembly (41) to the medicine bottle outer wall, first air-dry subassembly (41) including set up in second mounting bracket (411) of workstation (1), set up in second mounting bracket (411) and be located air supply pipe (412) of fixture (5) top and connect in air shower nozzle (422, 413) of air supply pipe (412), second mounting bracket (411) are located the low reaches of inversion rack (75) and are located the upper reaches of turning back rack (76), the external air supply of air supply pipe (412).

8. The vial cleaning machine of claim 4, wherein: air-dry mechanism (4) still include and carry out air-dried second air-dry subassembly (42) to the medicine bottle inner wall, second air-dry subassembly (42) including be located fixture (5) below and have airflow channel air-dry slat (421) and connect in the rifle of giving vent to anger of air-drying slat (421), air-dry slat (421) are located the low reaches of inversion rack (75) and are located the upper reaches of turning back rack (76), air-dry external air supply of slat (421).