CN110762956A

CN110762956A - Remove fever of feeling oral liquid medicine bottle drying cabinet and powder charge and add stopper device

Info

Publication number: CN110762956A
Application number: CN201911054384.4A
Authority: CN
Inventors: 杨大陆; 刘慧�; 石晓婷
Original assignee: SICHUAN KANGTENENG PHARMACEUTICAL INDUSTRY Co Ltd
Current assignee: SICHUAN KANGTENENG PHARMACEUTICAL INDUSTRY Co Ltd
Priority date: 2019-10-31
Filing date: 2019-10-31
Publication date: 2020-02-07
Anticipated expiration: 2039-10-31
Also published as: CN110762956B

Abstract

The invention discloses a heat-sensation-removing oral liquid medicine bottle drying box and a medicine-charging and plugging device, which comprise a medicine-charging and plugging device and an oral liquid medicine bottle drying box, wherein the medicine-charging and plugging device comprises a supporting unit arranged on one side of a box body, a medicine-charging and plugging part is arranged at the upper end of the supporting unit, and an oral liquid medicine bottle sterilizing part is arranged at the upper end of the medicine-charging and plugging part. The medicine bottle drying device has the advantages that the medicine bottle drying efficiency is improved, the medicine bottle can be conveniently fixed during drying, the occupied area of the drying, medicine filling and plugging device is reduced, the medicine bottle sterilization effect and sterilization efficiency are improved, the medicine filling efficiency is improved, the plugging efficiency is improved, the influence of the external environment on the medicine filling and plugging is reduced, and the medicine bottle drying device has strong practicability.

Description

Remove fever of feeling oral liquid medicine bottle drying cabinet and powder charge and add stopper device

Technical Field

The invention relates to the technical field related to oral liquid preparation equipment, in particular to a cold-heat-removing oral liquid medicine bottle drying box and a medicine-charging and plugging device.

Background

The oral liquid is prepared by extracting effective components from Chinese medicinal decoction, adding correctant and antibacterial agent, and bottling according to ampoule. It is a novel preparation combining three dosage forms of decoction, syrup and injection. Such as SHENGMAI oral liquid, SIQIANG oral liquid, SHENRONGFENGHUANGJIANG oral liquid, etc. It features small dosage, good taste, quick absorption and quick effect, and is easily accepted by patients.

Because the production flow process of the oral liquid is complex, the conventional oral liquid production line occupies a large area, and is not convenient for the environment dustproof sterilization operation during the production of the oral liquid.

Oral liquid medicine bottle need wash before the powder charge and disinfect, dry, the operation of disinfecting, and current ground oral liquid medicine bottle drying device adopts conventional drying cabinet, and this kind of drying cabinet can satisfy the same batch drying of a large amount of medicine bottles, but the medicine bottle drying time is longer to the time that the medicine bottle was handled has been prolonged, has reduced oral liquid's production efficiency. The existing ground charging and plugging operation is carried out on a conveyor belt, the mode firstly occupies a large area, secondly is inconvenient for protecting the pharmaceutical environment, and finally, the single bottle charging time is long.

In conclusion, the existing drying box for the oral liquid medicine bottle has poor drying effect and low drying efficiency; the time consumption for charging and plugging is long, the occupied area is large, and the charging and plugging efficiency is low.

Disclosure of Invention

The invention provides a heat-sensation-removing oral liquid medicine bottle drying box and a medicine-charging plugging device, which are used for solving the defects of the prior art, are high in drying efficiency of medicine bottles, convenient to fix the medicine bottles during drying, small in occupied area of the drying and medicine-charging plugging device, high in sterilization effect and sterilization efficiency, high in medicine-charging efficiency and plugging efficiency, low in influence of external environment on medicine-charging plugging and high in practicability.

In order to achieve the purpose of the invention, the following technology is adopted:

a drying box for an oral liquid medicine bottle capable of removing heat from the mouth comprises a box body, wherein a plurality of assembly components are fixed on the rear wall of the box body from top to bottom, and a drying rack is assembled on each assembly component;

the assembly components are fixed on the rear wall of the box body in an equally spaced array and used for supporting the drying rack, and the drying rack moves on the assembly components back and forth;

the drying rack is used for fixing the mouth of the oral liquid medicine bottle in an inclined downward mode and drying the oral liquid medicine bottle.

Furthermore, the assembly component comprises a transverse plate fixed on the rear wall of the box body, a vertical plate is formed at the middle position of the transverse plate in a downward extending mode, two walls of the vertical plate incline upwards, inclined plates are arranged in an equally spaced array mode, and the other end of each inclined plate is arranged at two ends of the transverse plate;

the assembly parts are symmetrically installed on the transverse plates, the assembly parts penetrate through the assembly grooves from front to back, and the front ends of the assembly parts are all formed with U-shaped grooves.

Furthermore, the drying rack comprises assembly legs which are all assembled on one side of the assembly part, a drying platform is arranged at the upper ends of the assembly legs, branch pipes are arranged on the two sides of the drying platform at equal intervals, transverse pipes are communicated with the other ends of the branch pipes, a main pipe is communicated with the other ends of the transverse pipes, and clamping mechanisms are arranged on the two sides of the drying platform at equal intervals in an array manner;

the drying table is used for placing a plurality of oral liquid medicine bottles with the bottle mouths facing downwards;

the clamping mechanism clamps and fixes the oral liquid medicine bottles on the drying table;

the header pipe conveys hot gas to each branch pipe through the horizontal pipe, and is finally sprayed to the corresponding oral liquid medicine bottle by the branch pipe, so that the interior of the oral liquid medicine bottle is dried.

Furthermore, the assembly legs comprise a pair of support legs which are assembled in the assembly part assembly groove, lower extension rods are arranged at the lower ends of the front sides of the support legs, key-shaped plates are arranged at the lower ends of the lower extension rods, key-shaped holes are formed in the key-shaped plates in a penetrating mode, positioning columns penetrate through the key-shaped holes, and the upper ends of the positioning columns are arranged at the front ends of the assembly parts;

when the drying rack is completely positioned in the box body, the lower extension rod penetrates through the U-shaped groove;

the drying table comprises platforms, two ends of each platform are mounted at the upper ends of the support legs, oblique blocks are mounted on two sides of the upper ends of the platforms, the lower ends of the oblique blocks are mounted on two sides of the platforms in an inclined mode, bottle body placing grooves are formed in the outer walls of the upper ends of the oblique blocks in an equally spaced array and are formed in an inwards recessed mode, bottle neck placing grooves are formed in the lower ends of the bottle body placing grooves in a communicated mode, bottle neck placing grooves are formed in the lower ends of the bottle neck placing grooves in a communicated mode;

the bottle body placing groove, the bottleneck placing groove and the bottleneck placing groove are all in a semi-arc structure;

the radius of the bottle body placing groove is larger than that of the bottle neck placing groove;

the radius of the bottleneck placing groove is larger than that of the bottleneck placing groove;

when the oral liquid medicine bottle is placed on the drying rack, the bottle body of the oral liquid medicine bottle is positioned in the bottle body placing groove, the bottleneck of the oral liquid medicine bottle is positioned in the bottleneck placing groove, and the bottleneck of the oral liquid medicine bottle is in contact with the inner wall of the circular plate;

the clamping mechanism comprises guide rods which are arranged at the upper end of the inclined block in pairs and in an equally-spaced array, the guide rods which are arranged in pairs are symmetrical by taking the central axis of the bottle body placing groove as a symmetry axis, springs penetrate through the other ends of the guide rods, end plates are arranged at the other ends of the guide rods, support plates penetrate through the guide rods, clamping discs are formed at the other ends of the support plates, the springs are positioned between the support plates and the end plates, and the clamping discs are concentric with the circular plates;

when the oral liquid medicine bottle is fixed on the drying rack, the clamping disc acts on the bottle bottom of the oral liquid medicine bottle;

the upper surface of the front side of the platform is provided with a handle groove which is used for the front and back movement of the drying rack.

Further, box both sides wall is the equidistant array ground and runs through there is the quad slit, and the dust cover is installed to the box outside being equidistant array ground, and the dust cover all is located quad slit department, dust cover lower extreme opening, and the backup pad is installed symmetrically to the box lower extreme, and the base plate is all installed to the backup pad lower extreme, and the box front end is the open end, and it is a plurality of that the hinge is installed to box front end both sides wall, and the hinge other end that is located the homonymy is installed and is opened.

A hot oral liquid medicine bottle drying cabinet and powder charge plug device of removing, including powder charge plug device, and oral liquid medicine bottle drying cabinet, the powder charge plug device includes the supporting unit locating one side of container body, the upper end of supporting unit installs the powder charge and plugs the department, the powder charge plugs the department upper end and installs the oral liquid medicine bottle sterilization department;

the supporting unit is used for supporting the explosive-filled plugging part;

the medicine charging plugging part is used for conveying the oral liquid medicine bottle, injecting the oral liquid into the medicine bottle and plugging the medicine bottle;

the oral liquid medicine bottle sterilizing part is used for conveying the oral liquid medicine bottles dried in the drying box and performing high-temperature and ultraviolet sterilization operation on the oral liquid medicine bottles.

Furthermore, the medicine charging and plugging part comprises a lower isolation shell arranged on the supporting unit, the lower isolation shell is of a cylindrical structure, an assembly cylinder is arranged on the lower bottom of the lower isolation shell in a circumferential array manner, a rotating motor is arranged at the upper end of the assembly cylinder, assembly blocks are arranged on the outer wall of the lower end of the rotating motor in a circumferential array manner, bolts penetrate through the other ends of the assembly blocks, the lower ends of the bolts are screwed in the assembly cylinder, a conveying assembly is assembled on an output shaft of the rotating motor, a guide assembly is arranged at the other end of the conveying assembly, the guide assembly is of an annular structure and fixed on the inner wall of the lower isolation shell;

the conveying assembly is used for acting on the oral liquid medicine bottle in the guide assembly to move towards the liquid injection assembly;

the guide assembly is used for limiting the movement of the oral liquid medicine bottle;

the liquid injection component injects the oral liquid into the medicine bottle;

the plugging mechanism plugs a medicine bottle for injecting oral liquid.

Further, the guide assembly comprises a lower guide piece arranged on the inner wall of the lower isolation shell, a lower guide groove is formed in the lower guide piece in a mode that an inner opening of the lower guide piece faces upwards, the lower guide piece is of an annular structure and is broken at one position, two ends of the broken position are of arc structures, support bars are arranged on the outer side of the lower guide piece in an equally-spaced array and extend upwards, an upper guide piece is arranged at the upper end of each support bar and is arranged on the inner wall of the lower isolation shell, an upper guide groove is formed in the upper guide piece in a mode that the inner opening of the upper guide piece faces downwards, the upper guide piece is of the same structure as the lower guide piece, a conveying hole is formed between the upper guide piece and the inner wall of the lower guide piece, an upper conveying cylinder is arranged at one end of the upper guide piece in a mode that the upper conveying cylinder extends upwards, a bottle outlet cylinder is arranged at one end of the lower guide piece;

the conveying assembly comprises a mounting part mounted on an output shaft of the rotating motor, a rotating plate is formed on the outer wall of the mounting part, a U-shaped rotating part is mounted at the other end of the rotating plate, the rotating plate penetrates through the conveying hole, the U-shaped rotating part is positioned in the upper guide groove and the lower guide groove, the upper end of the U-shaped rotating part is in contact with the bottom of the upper guide groove, and the lower end of the U-shaped rotating part is in contact with the bottom of the lower guide groove;

the liquid injection assembly comprises a plurality of liquid injection nozzles arranged at the end of the conveying barrel on the upper guide piece, the liquid injection nozzles are communicated with the liquid injection device through liquid injection pipes, the lower ends of the liquid injection nozzles are provided with liquid outlet nozzles, and the radius of the liquid outlet nozzles is larger than that of the liquid outlet nozzles;

the plug adding mechanism comprises a guide cylinder which is installed on the upper guide piece in an upward extending mode, and the upper end of the guide cylinder is provided with a yielding groove;

the upper end of the guide cylinder is provided with a rubber plug guide part in an outward extending mode, the rubber plug guide part penetrates through the rubber plug guide part to form a T-shaped guide hole, and the end part of the other end of the rubber plug guide part penetrates through a section of the pushing abdicating hole from top to bottom;

the upper end of the rubber plug guide piece is provided with a propelling mechanism, the propelling mechanism comprises a propelling cylinder arranged at the upper end of the rubber plug guide piece, the movable end of the propelling cylinder faces outwards, a cross-shaped plate is arranged at the movable end of the propelling cylinder, the lower end of the cross-shaped plate is assembled in the T-shaped guide hole, and the rubber plug moves towards the end of the guide cylinder under the action of the propelling cylinder;

the plug adding mechanism further comprises a pressing mechanism arranged on one side of the guide cylinder, the pressing mechanism comprises a lower fixing plate arranged on the outer wall of the lower end of the guide cylinder, a pressing cylinder is arranged at the other end of the lower fixing plate in an upward extending mode, a connecting plate is arranged at the movable end of the pressing cylinder, a lower push rod is arranged at the other end of the connecting plate in a downward extending mode, the lower push rod is concentric with the guide cylinder, a lower pressing plate is arranged at the lower end of the lower push rod, the lower pressing plate penetrates through the guide cylinder, when the lower pressing plate moves downward, the lower pressing plate penetrates through the upper end of;

the plug adding mechanism also comprises an anti-falling mechanism arranged at the lower end of the guide cylinder, the anti-falling mechanism comprises a clamp plate which penetrates through the guide cylinder in a paired manner, outer plates are arranged at the outer side ends of the clamp plate, penetrating rods are respectively penetrated through the two ends of each outer plate, one ends of the penetrating rods are respectively fixed on the outer wall of the guide cylinder, end plugs are respectively arranged at the other ends of the penetrating rods, second springs are respectively penetrated on the penetrating rods, the second springs are respectively positioned between the end plugs and the outer plates, the inner side ends of the clamp plate are respectively of an inwards-concave arc structure, and chamfers are arranged at the;

when the oral liquid medicine bottle is plugged, the rubber plug is arranged in the T-shaped guide hole, under the action of the cross-shaped plate, the rubber plug is pushed into the guide cylinder and is intercepted by the anti-dropping mechanism, and the intercepted rubber plug is extruded onto the oral liquid bottle from the lower end of the guide cylinder under the action of the lower pressure plate.

Further, the oral liquid medicine bottle sterilization part comprises an upper isolation shell arranged at the upper end of the lower isolation shell, and a plurality of ultraviolet lamps are arranged on the inner wall of the top cover of the upper isolation shell;

the lower bottom of the upper isolation shell is provided with a heating component;

an annular guide part is arranged on the inner wall of the upper isolation shell, and the heating assembly is positioned in the annular guide part;

one end of the annular guide part at the disconnection position is in an arc structure and is communicated with the upper conveying cylinder, and the other end of the annular guide part at the disconnection position is communicated with the outer conveying guide part;

the outer side end of the outer conveying guide part is of an arc structure;

the outer conveying guide piece is provided with a feeding mechanism;

the outer side end of the outer conveying guide piece is communicated with a bottle feeding cylinder in an upward extending manner;

after oral liquid medicine bottle is dried by the drying cabinet, in the outer guide of carrying is got into from advancing a bottle section of thick bamboo, then pushed to annular guide by feed mechanism in to by heating element pasteurization and by ultraviolet lamp ultraviolet sterilization, after the medicine bottle is disinfected and is accomplished, from last a transport section of thick bamboo gets into the powder charge and adds in the stoppering portion.

Further, the outer walls of the outer conveying guide parts are provided with moving holes penetrating through the walls of the outer conveying guide parts;

the feeding mechanism comprises assembling seats which are installed on the outer wall of the outer conveying guide piece in pairs, the assembling seats positioned on the same side are assembled with screw rods, the outer side ends of the screw rods are provided with feeding motors, the feeding motors are installed on the assembling seats positioned on the outer sides, the screw rods are screwed with moving plates, the inner side ends of the moving plates are provided with moving rods, the inner side ends of the moving rods are provided with feeding pieces, the moving rods penetrate through the moving holes, and the feeding pieces are positioned in the outer conveying guide piece;

the heating assembly comprises a heat insulation table which is arranged at the lower bottom of the upper insulation shell and made of heat insulation materials, and a heating wire is arranged at the upper end of the heat insulation table;

the support unit comprises a bottom ring, the bottom ring is provided with arc-shaped plates in a circumferential array mode, and the upper ends of the arc-shaped plates are arranged at the lower end of the lower isolation shell.

The technical scheme has the advantages that:

1. the assembly component is used for supporting the drying rack, so that the drying rack can be conveniently pulled out of or pushed into the box body, and meanwhile, the drying rack is supported, wherein the transverse rod and the vertical plate are used for supporting and fixing the assembly part, the vertical plate is used for supporting the lower end of the transverse plate, meanwhile, the inclined plate is arranged on the vertical plate and used for supporting the transverse plate, and meanwhile, the drying rack is conveniently pushed into the box body;

2. the drying rack is used for fixing the mouth of the oral liquid medicine bottle in an inclined downward manner and drying the oral liquid medicine bottle, wherein in order to simultaneously dry a plurality of medicine bottles, a plurality of bottle body placing grooves, bottle neck placing grooves and bottle neck placing grooves are arranged on the drying rack, the bottle body placing grooves are used for placing the medicine bottle bodies, the bottle necks of the medicine bottles are positioned in the bottle neck placing grooves, the medicine bottle mouths are positioned in the bottle neck placing grooves, the circular plate arranged at the lower end is used for blocking the medicine bottle mouths, and in order to prevent the branch pipes from falling off the drying rack by hot air when being filled with the hot air, corresponding clamping mechanisms are arranged on the drying rack, the clamping mechanisms act on the clamping circular plates through the reaction forces of springs on the clamping circular plates, and the clamping circular plates act on the bottle bottoms of the medicine bottles to clamp the medicine bottles between the circular plates and; when the drying rack is pulled out of the box body, in order to prevent the drying rack from falling off the assembly part, a key-shaped plate is arranged on the supporting leg, one end of the key-shaped plate is fixedly arranged on the supporting leg, the other end of the key-shaped plate is movably arranged on the assembly part, and when the drying rack is pulled out of the box body, the key-shaped plate plays a role in supporting the front end of the drying rack; in order to improve the drying efficiency and the drying effect, the bottle body placing groove, the bottleneck placing groove and the bottleneck placing groove for placing the medicine bottles are obliquely arranged, when the medicine bottles are placed on the bottle body placing groove, the bottleneck placing groove and the bottleneck placing groove, the bottleneck faces downwards, hot air is blown into the medicine bottles from the branch pipes, and the interiors of the medicine bottles are dried;

3. the medicine charging plugging part is used for conveying the oral liquid medicine bottle, injecting the oral liquid into the medicine bottle and plugging the medicine bottle. Powder charge adds stopper portion by transport assembly, direction subassembly, annotate liquid subassembly and add stopper mechanism and constitute, and transport assembly, direction subassembly, annotate liquid subassembly and add stopper mechanism and all lie in under isolated shell, when implementing the transport of oral liquid medicine bottle, oral liquid pour into in the medicine bottle and the stopper operation of medicine bottle with external environment's isolation, improve the security of oral liquid production. The conveying assembly is used for acting on the oral liquid medicine bottle in the guide assembly to move towards the liquid injection assembly; the guide assembly is used for limiting the movement of the oral liquid medicine bottle; the liquid injection component injects the oral liquid into the medicine bottle; the plugging mechanism plugs a medicine bottle into which the oral liquid is injected; the direction subassembly passes through down guide and last guide to constitute of annular, a direction when being used for the medicine bottle to carry, for the convenient entering of medicine bottle and the output of medicine bottle, consequently, the disconnection that shifts out of lower guide and last guide, and the disconnection department is for the convenient entering and the output of medicine bottle, the both ends setting of guide and last guide become the arc structure down, wherein, when preventing that the medicine bottle from dropping, clash the bits of broken glass with the medicine bottle, consequently, carry a section of thick bamboo under on the guide down and set up the flexible piece, after accomplishing the powder charge and the stoppering, the oral liquid medicine bottle drops to the concave part from a bottle section of thick bamboo on, corresponding flexible pad has been set up in the department that drops of concave part equally. The conveying assembly drives the U-shaped rotating part through the rotating motor, the U-shaped rotating part pushes the medicine bottle in the guide assembly to move forwards through rotation, injection operation of oral liquid is completed through the liquid injection assembly, then the plug is plugged into the medicine bottle through the plug adding mechanism, and when the medicine bottle is pushed, the medicine bottle located at the rear end is pushed, so that the medicine bottle at the front end moves forwards. When the plug adding mechanism is operated, a pair of rubber plugs are placed in the rubber plug guide piece, then the cross-shaped plate is pushed by the pushing cylinder to act on the rubber plugs in the rubber plug guide piece, so that the rubber plugs move forwards and finally fall into the guide cylinder from the rubber plug guide piece, the rubber plugs falling to the lower end of the guide cylinder are stopped by the anti-falling mechanism, then the rubber plugs act on the upper ends of the rubber plugs through the lower pressing disc of the pressing mechanism, finally the clamping plates on the anti-falling mechanism are squeezed open, the rubber plugs are squeezed to the upper ends of the medicine bottles from the guide cylinder, and the plug adding operation is completed;

4. and the oral liquid medicine bottle sterilizing part is used for conveying the oral liquid medicine bottles dried in the drying box and performing high-temperature and ultraviolet sterilization operation on the oral liquid medicine bottles. In order to isolate the external environment, an ultraviolet lamp, a heating assembly and an annular guide piece are arranged in an upper isolation shell, wherein the ultraviolet lamp is used for ultraviolet sterilization of the medicine bottle, the heating assembly is used for high-temperature sterilization of the medicine bottle, wherein in order to prevent the temperature of a heating wire from being too high to influence a medicine filling and plugging part at the lower part, an insulation table is arranged, the heating wire is placed on the insulation table, the annular guide piece provides enough time for high-temperature sterilization and ultraviolet sterilization of the medicine bottle, an outer conveying guide piece is positioned at the outer side and conveys the medicine bottle dried in a drying box into the annular guide piece, and the main action part is a U-shaped feeding piece;

5. the medicine bottle drying device has the advantages that the medicine bottle drying efficiency is improved, the medicine bottle can be conveniently fixed during drying, the occupied area of the drying, medicine filling and plugging device is reduced, the medicine bottle sterilization effect and sterilization efficiency are improved, the medicine filling efficiency is improved, the plugging efficiency is improved, the influence of the external environment on the medicine filling and plugging is reduced, and the medicine bottle drying device has strong practicability.

Drawings

Fig. 1 shows a first three-dimensional structure of a drying box.

Fig. 2 shows a second three-dimensional structure of the drying box.

Fig. 3 shows a three-dimensional structure diagram of the drying box.

Fig. 4 shows a formal diagram of the drying box.

Fig. 5 shows a partial enlarged view at a.

Fig. 6 shows a first perspective structure of the charging and plugging device.

Fig. 7 shows a three-dimensional structure diagram of the charging and plugging device.

Fig. 8 shows a lower perspective structure diagram of the charging and plugging device.

Fig. 9 shows a lower perspective structure diagram of the charging and plugging device.

Fig. 10 shows a lower perspective structure view of the charging and plugging device.

Fig. 11 shows a lower perspective structure diagram of the charging and plugging device.

Fig. 12 shows a partial enlarged view at B.

Fig. 13 shows a partial enlarged view at C.

Fig. 14 shows a first perspective view of the upper part of the charging and plugging device.

Figure 15 shows the upper part of the charging and plugging device in a three-dimensional structure.

Fig. 16 shows a three-dimensional structure diagram of the upper part of the charging and plugging device.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings.

Example 1

As shown in fig. 1-5, a remove fever oral liquid medicine bottle drying cabinet, includes box 1, and box 1 rear wall is fixed with assembly 2 a plurality ofly from top to bottom, is equipped with drying rack 3 on assembly 2, and assembly 2 is fixed in box 1 rear wall at equal interval array for supporting drying rack 3, and drying rack 3 carries out the back-and-forth movement on assembly 2, and drying rack 3 is used for oral liquid medicine bottle bottleneck slope ground down to fix, and the drying of oral liquid medicine bottle carries out.

The wall of 1 both sides of box is equal interval array ground and runs through there is quad slit 10, and 1 outside of box is equal interval array ground and installs dust cover 11, and dust cover 11 all is located quad slit 10 department, and backup pad 12 is installed to dust cover 11 lower extreme opening, 1 lower extreme symmetry ground of box, and base plate 13 is all installed to backup pad 12 lower extreme, and 1 front end of box is the open end, and hinge 14 is installed to 1 front end both sides wall of box, and the hinge 14 other end that is located the homonymy is installed and is opened and shut door 15.

The assembly component 2 comprises a transverse plate 20 fixed on the rear wall of the box body 1, a vertical plate 21 is formed at the middle position of the transverse plate 20 in a downward extending mode, inclined plates 22 are installed on two walls of the vertical plate 21 in an upward inclined mode at equal intervals in an array mode, and the other ends of the inclined plates 22 are installed at two ends of the transverse plate 20. The cross plate 20 is symmetrically provided with the assembly members 23, the assembly members 23 are respectively provided with an assembly groove 230 penetrating from front to back, and the front ends of the assembly members 23 are respectively provided with a U-shaped groove 231.

Drying rack 3 is including all assembling in assembly part 23 one side assembly foot 30, assembly foot 30 upper end is equipped with drying stage 31, drying stage 31 both sides all are equidistant branch pipe 32 that is equipped with, the other end intercommunication of branch pipe 32 has violently pipe 33, violently pipe 33 other end intercommunication has house steward 34, drying stage 31 both sides are equidistant array ground and are equipped with fixture 35, drying stage 31 is used for a plurality of oral liquid medicine bottle bottleneck to place down, fixture 35 is fixed in drying stage 31 with the centre gripping of a plurality of oral liquid medicine bottles, house steward 34 is through violently managing 33 and carry steam in to each branch pipe 32, spout inside the oral liquid medicine bottle that corresponds by branch pipe 32 finally, dry inside the oral liquid medicine bottle.

The assembly foot 30 comprises a pair of support legs 300 which are assembled in the assembly part 23 assembly groove 230, lower extension rods 301 are installed at the lower ends of the front sides of the support legs 300, key plates 302 are installed at the lower ends of the lower extension rods 301, key holes 303 are formed through the key plates 302, positioning columns 304 are penetrated through the key holes 303, the upper ends of the positioning columns 304 are installed at the front end of the assembly part 23, and when the drying rack 3 is located in the box body 1, the lower extension rods 301 penetrate through the U-shaped grooves 231.

The drying table 31 includes a platform 310 having both ends mounted on the upper ends of the legs 300, sloping blocks 311 mounted on both sides of the upper end of the platform 310, the lower ends of the sloping blocks 311 are mounted on both sides of the platform 310 in a downwardly inclined manner, bottle holding grooves 3110 are formed on the outer walls of the upper ends of the sloping blocks 311 in an equally spaced array and inwardly recessed manner, bottle neck holding grooves 3111 are formed at the lower ends of the bottle neck holding grooves 3110 in a communicating manner, bottle neck holding grooves 3112 are formed at the lower ends of the bottle neck holding grooves 3111 in a communicating manner, circular plates 3113 are provided at the lower ends of the bottle neck holding grooves 3112, branch pipes 32 are mounted on the circular plates 3113, the bottle neck holding grooves 3110, 3111 and 3112 are each of a semi-circular arc structure, the radius of the bottle neck holding grooves 3110 is larger than that of the bottle neck holding grooves 3111, the radius of the bottle neck holding grooves 3111 is larger than that of the bottle neck holding grooves 3112, when the oral liquid medicine bottle is placed in the drying, the mouth of the oral liquid medicine bottle is located in the mouth placing groove 3112, and the mouth of the oral liquid medicine bottle contacts with the inner wall of the circular plate 3113.

The clamping mechanism 35 comprises guide rods 350 which are arranged on the upper end of the inclined block 311 in pairs and in an equally spaced array, the guide rods 350 which are arranged in pairs are symmetrical by taking the central axis of the bottle body placing groove 3110 as a symmetry axis, springs 351 are all penetrated at the other ends of the guide rods 350, end plates 352 are all installed at the other ends of the guide rods 350, support plates 353 are all penetrated on the guide rods 350, clamping disks 354 are formed at the other ends of the support plates 353, the springs 351 are located between the support plates 353 and the end plates 352, the clamping disks 354 are all concentric with the circular plate 3113, when the oral liquid medicine bottle is fixed on the drying rack 3, the clamping disks 354 act on the bottle bottom of the oral liquid medicine bottle, a handle groove 312 is formed in the upper surface of the front side of the platform 310.

The specific implementation mode is as follows:

firstly, each drying rack 3 is pulled out of the box body 1;

next, the mouth of the medicine bottle is fixed between the clamping disk 354 and the circular plate 3113 in a downward direction, during clamping, the clamping disk 354 completes the fixing of the medicine bottle through the reaction force of the spring 351, and meanwhile, during clamping, it is required to ensure that when the oral liquid medicine bottle is placed on the drying rack 3, the body of the oral liquid medicine bottle is positioned in the bottle body placing groove 3110, the neck of the oral liquid medicine bottle is positioned in the neck placing groove 3111, the mouth of the oral liquid medicine bottle is positioned in the mouth placing groove 3112, and the mouth of the oral liquid medicine bottle is in contact with the inner wall of the circular plate 3113;

then, pushing each drying rack 3 into the box body 1, and closing the opening and closing door 15;

then, hot air is conveyed into each branch pipe 32 through the main pipe 34 and the transverse pipe 33, and finally the hot air is sprayed into the corresponding oral liquid medicine bottle through the branch pipes 32 to dry the interior of the oral liquid medicine bottle;

finally, the drying rack 3 is pulled out of the box body 1, and the dried medicine bottle is taken down.

Example 2

As shown in fig. 6-16, a remove hot oral liquid powder charge and plug device, including support element 4, support element 4 upper end is installed powder charge and plug portion 5, powder charge and plug portion 5 upper end is installed oral liquid medicine bottle sterilization portion 6, support element 4 is used for powder charge and plug portion 5 ground to support, powder charge and plug portion 5 is used for the transport of oral liquid medicine bottle, oral liquid pours into the medicine bottle and the operation of plugging of medicine bottle into, oral liquid medicine bottle sterilization portion 6 is used for carrying the oral liquid medicine bottle that dries in the drying cabinet and the high temperature and the ultraviolet sterilization operation of oral liquid medicine bottle.

The charging plugging part 5 comprises a lower isolation shell 58 arranged on the supporting unit 4, the lower isolation shell 58 is of a cylindrical structure, the lower bottom of the lower isolation shell 58 is provided with assembling cylinders 51 in a circumferential array manner, the upper ends of the assembling cylinders 51 are provided with rotating motors 52, the outer walls of the lower ends of the rotating motors 52 are provided with assembling blocks 520 in a circumferential array manner, the other ends of the assembling blocks 520 are all penetrated with bolts 53, the lower ends of the bolts 53 are screwed in the assembling cylinders 51, the output shafts of the rotating motors 52 are provided with conveying assemblies 54, the other ends of the conveying assemblies 54 are provided with guide assemblies 55, the guide assemblies 55 are of annular structures and are fixed on the inner walls of the lower isolation shell 58, and the guide assemblies 55 are;

conveying component 54 is used for acting on the oral liquid medicine bottle in the guide component 55 to annotating liquid component 56 direction and removing, and guide component 55 is used for the oral liquid medicine bottle motion spacing, annotates liquid component 56 and pours into the oral liquid medicine bottle into in, and mechanism 57 carries out the stoppering to the medicine bottle of pouring into the oral liquid.

The guide assembly 55 comprises a lower guide member 550 mounted on the inner wall of the lower insulation shell 58, a lower guide groove is upwardly formed in the lower guide member 550, the lower guide member 550 is in a ring structure, one part of the lower guide member 550 is disconnected, two ends of the disconnected part are in an arc structure, support bars 551 are mounted on the outer side of the lower guide member 550 in an equally spaced array and upwardly extending, upper guide members 552 are mounted at the upper ends of the support bars 551, the upper guide members 552 are mounted on the inner wall of the lower insulation shell 58, an upper guide groove is downwardly formed in the inner opening of the upper guide members 552, the upper guide members 552 and the lower guide member 550 are in the same structure, a conveying hole 553 is formed between the upper guide members 552 and the inner wall of the lower guide member 550, an upper conveying cylinder 554 is upwardly extended at one end of the upper guide members 552, a bottle outlet cylinder 555 is downwardly extended at one end of the lower guide member 550, a concave member 556 is formed at the lower end, the lower end of the bottle outlet cylinder 555 extends out of the lower bottom of the lower isolation shell 58.

The conveying assembly 54 includes a mounting member 540 mounted on an output shaft of the rotary motor 52, a rotary plate 541 is formed on an outer wall of the mounting member 540, a U-shaped rotary member 542 is mounted on the other end of the rotary plate 541, the rotary plate 541 penetrates through the conveying hole 553, the U-shaped rotary member 542 is located in the upper guide groove and the lower guide groove, an upper end of the U-shaped rotary member 542 contacts a groove bottom of the upper guide groove, and a lower end of the U-shaped rotary member 542 contacts a groove bottom of the lower guide groove.

Annotate liquid subassembly 56 including installing on last guide 552 and carrying a liquid mouth 560 a plurality of 554 end of a section of thick bamboo, annotate liquid mouth 560 and communicate in priming device through annotating the liquid pipe, annotate liquid mouth 560 lower extreme and be equipped with liquid outlet nozzle 561, the radius of annotating liquid mouth 560 out is greater than liquid outlet nozzle 561's radius, mechanism 57 is filled up including upwards installing in the guide 570 of last guide 552 with extending, guide 570 upper end is equipped with the groove of stepping down 5700.

The upper end of the guide cylinder 570 is outwards extended and provided with a rubber plug guide 571, the rubber plug guide 571 penetrates through the rubber plug guide 571 to form a T-shaped guide hole 5711, the end part of the other end of the rubber plug guide 571 penetrates through a section of the pushing abdicating hole 5712 from top to bottom, the upper end of the rubber plug guide 571 is provided with a propelling mechanism 572, the propelling mechanism 572 comprises a propelling cylinder 5720 arranged at the upper end of the rubber plug guide 571, the movable end of the propelling cylinder 5720 faces outwards, the movable end of the propelling cylinder 5720 is provided with a cross-shaped plate 5721, the lower end of the cross-shaped plate 5721 is assembled in the T-shaped guide hole 5711, and the rubber plug moves towards the end of the guide cylinder 570 under the action of the propelling cylinder 5720;

the plugging mechanism 57 further includes a depressing mechanism 573 provided on one side of the guide cylinder 570, the depressing mechanism 573 includes a lower fixing plate 5730 mounted on an outer wall of a lower end of the guide cylinder 570, a depressing cylinder 5731 is mounted on the other end of the lower fixing plate 5730 to extend upward, a connecting plate 5732 is mounted on a movable end of the depressing cylinder 5731, a push-down rod 5733 is mounted on the other end of the connecting plate 5732 to extend downward, the push-down rod 5733 is concentric with the guide cylinder 570, a depressing plate 5734 is mounted on a lower end of the push-down rod 5733, the push-down plate 5734 penetrates through the guide cylinder 570, and the connecting plate 5732 is located in the relief groove 5700 when the depressing plate 5734 moves downward.

Plug mechanism 57 still includes locating the anti-drop mechanism 574 of guide cylinder 570 lower extreme, anti-drop mechanism 574 includes becoming to wearing in guide cylinder 570's cardboard 5744, planking 5741 is all installed to cardboard 5744 outside end, the pole 5740 has all been worn at planking 5741 both ends, pole 5740 one end is all fixed in guide cylinder 570 outer wall, the end block 5743 is all installed to the pole 5740 other end, all worn the second spring 5742 on the pole 5740, second spring 5742 all is located and blocks up between 5743 and the planking 5741, cardboard 5744 medial extremity all is inside sunken arc structure, and cardboard 5744 medial extremity upper end is equipped with the chamfer.

When the oral liquid medicine bottle is plugged, the rubber plug is placed in the T-shaped guide hole 5711, under the action of the cross-shaped plate 5721, the rubber plug is pushed into the guide cylinder 570 and is intercepted by the anti-dropping mechanism 574, and the intercepted rubber plug is extruded onto the oral liquid bottle from the lower end of the guide cylinder 570 under the action of the lower pressing plate 5734.

The oral liquid medicine bottle sterilization part 6 comprises an upper isolation shell 60 arranged at the upper end of a lower isolation shell 58, a plurality of ultraviolet lamps 61 are arranged on the inner wall of a top cover of the upper isolation shell 60, a heating component 62 is arranged at the lower bottom of the upper isolation shell 60, an annular guide member 63 is arranged on the inner wall of the upper isolation shell 60, the heating component 62 is positioned in the annular guide member 63, one part of the annular guide member 63 is disconnected, one end of the disconnected part of the annular guide member 63 is of an arc structure and is communicated with an upper conveying cylinder 554, the other end of the disconnected part of the annular guide member 63 is communicated with an outer conveying guide member 64, the outer side end of the outer conveying guide member 64 is of an arc structure, the outer conveying guide member 64 is provided with a feeding mechanism 65, the outer side end of the outer conveying guide member 64 is upwards extended and is communicated with a bottle inlet cylinder 66, after the oral liquid medicine bottle is dried by a drying box, the oral liquid medicine bottle enters the outer conveying guide member 64 from the bottle inlet cylinder 66, then is pushed to, when vial sterilization is complete, the vial is fed from the upper delivery cartridge 554 into the charge filling portion 5.

The outer walls of the outer conveying guide members 64 are all provided with moving holes 640 penetrating through the walls of the outer conveying guide members 64, the feeding mechanism 65 comprises assembling seats 651 which are installed on the outer walls of the outer conveying guide members 64 in pairs, screw rods 652 are assembled on the assembling seats 651 on the same side, feeding motors 650 are arranged at the outer ends of the screw rods 652, the feeding motors 650 are installed on the assembling seats 651 on the outer sides, moving plates 653 are screwed on the screw rods 652, moving rods 654 are installed at the inner ends of the moving plates 653, feeding members 655 are installed at the inner ends of the moving rods 654, the moving rods 654 all penetrate through the moving holes 640, and the feeding members 655 are located in the outer conveying guide members 64.

The heating unit 62 includes a heat insulating block 620 made of a heat insulating material and installed on the lower bottom of the upper insulating case 60, and a heating wire 621 is provided on the upper end of the heat insulating block 620.

The support unit 4 includes a bottom ring 40, the bottom ring 40 is installed with arc plates 41 in a circumferential array, and the upper ends of the arc plates 41 are installed at the lower end of the lower insulation casing 58.

The specific implementation mode is as follows:

firstly, the medicine bottles enter the outer conveying guide member 64 from the medicine bottle inlet barrel 66, then, the feeding motor 650 is started, the feeding member 655 pushes the medicine bottles entering the outer conveying guide member 64 to enter the annular guide member 63 under the action of the feeding motor 650, the medicine bottles are sterilized at high temperature by the heating assembly 62 and are sterilized by ultraviolet light of the ultraviolet lamp 61, and after the medicine bottles are sterilized, the medicine bottles enter the medicine filling and plugging part 5 from the upper conveying barrel 554;

then, the medicine bottle is driven by the rotating motor 52 to rotate the U-shaped rotating member 542, the medicine bottle in the lower guide member 550 is pushed forward in the rotating process of the U-shaped rotating member 542, when the medicine bottle is pushed to the position below the liquid outlet nozzle 561, oral liquid is injected into the medicine bottle through the medicine charging control device, and the medicine bottle after medicine charging is continuously pushed forward to the position below the plugging mechanism 57;

then, a plurality of rubber plugs are placed in the T-shaped guide holes 5711, under the action of the pushing cylinder 5720, the cross-shaped plate 5721 pushes the rubber plug at the end of the guide cylinder 570 into the guide cylinder 570, the rubber plug falls to the lower end of the guide cylinder 570 and is blocked by the anti-falling mechanism 574, then, the pressing cylinder 5731 is started, under the action of the pressing cylinder 5731, the pressing disc 5734 moves downwards to act on the upper end of the rubber plug, when the pressing disc 5734 continues to act, the clamping plate 5744 is squeezed open, the rubber plug is pressed on the mouth of the medicine bottle, and the plugging operation is completed;

finally, the completed vial is advanced through the exit cylinder 555 into the female member 556 by rotation of the U-shaped rotary member 542, and then subsequently manipulated.

Example 3

As shown in fig. 1-16, a box for drying oral liquid medicine bottles without heat sensation comprises a box body 1, wherein a plurality of assembling components 2 are fixed on the back wall of the box body 1 from top to bottom, a drying rack 3 is assembled on the assembling components 2, the assembling components 2 are fixed on the back wall of the box body 1 in an equally spaced array manner and used for supporting the drying rack 3, the drying rack 3 moves back and forth on the assembling components 2, and the drying rack 3 is used for fixing the mouth of the oral liquid medicine bottle in an inclined downward manner and drying the oral liquid medicine bottle.

The assembly component 2 comprises a transverse plate 20 fixed on the rear wall of the box body 1, a vertical plate 21 is formed at the middle position of the transverse plate 20 in a downward extending mode, inclined plates 22 are installed on two walls of the vertical plate 21 in an upward inclined mode at equal intervals in an array mode, and the other ends of the inclined plates 22 are installed at two ends of the transverse plate 20. The cross plate 20 is symmetrically provided with the assembling members 23, the assembling members 23 are respectively provided with an assembling groove 230 through from front to back, and the front end of the assembling groove 230 is respectively provided with a U-shaped groove 231.

The assembly legs 30 comprise a pair of support legs 300 which are assembled in the assembly grooves 230 of the assembly parts 23, the lower ends of the front sides of the support legs 300 are respectively provided with a lower extension rod 301, the lower ends of the lower extension rods 301 are respectively provided with a key plate 302, the key plates 302 are respectively penetrated with a key-shaped hole 303, the key-shaped holes 303 are respectively penetrated with a positioning column 304, the upper ends of the positioning columns 304 are arranged at the front ends of the assembly parts 23, and when the drying rack 3 is completely positioned in the box body 1, the lower extension rods 301 penetrate through the U-shaped grooves 231;

The utility model provides a remove hot oral liquid medicine bottle drying cabinet and powder charge and plug device, including powder charge and plug device, and oral liquid medicine bottle drying cabinet, powder charge and plug device is including the support element 4 who locates 1 one side of box, powder charge and plug portion 5 are installed to support element 4 upper end, oral liquid medicine bottle sterilization portion 6 is installed to 5 upper ends of powder charge and plug portion, support element 4 is used for powder charge and supports with plug portion 5, powder charge and plug portion 5 is used for the transport of oral liquid medicine bottle, the operation of plugging of oral liquid injection medicine bottle in and medicine bottle, oral liquid medicine bottle sterilization portion 6 is used for carrying and the high temperature and the ultraviolet sterilization operation of oral liquid medicine bottle dry oral liquid medicine bottle in the drying cabinet.

The specific implementation mode is as follows:

firstly, each drying rack 3 is pulled out of the box body 1;

then, the drying rack 3 is pulled out of the box 1, and the dried medicine bottle is taken off and transferred to a medicine charging and plugging device.

The specific operation flow on the charging and plugging device is as follows:

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and it is apparent that those skilled in the art can make various changes and modifications to the present invention without departing from the spirit and scope of the present invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. A drying box for an oral liquid medicine bottle capable of removing heat from the mouth is characterized by comprising a box body (1), wherein a plurality of assembling components (2) are fixed on the rear wall of the box body (1) from top to bottom, and a drying rack (3) is assembled on each assembling component (2);

the assembly components (2) are fixed on the rear wall of the box body (1) in an equally spaced array and used for supporting the drying rack (3), and the drying rack (3) moves on the assembly components (2) back and forth;

the drying rack (3) is used for fixing the mouth of the oral liquid medicine bottle in an inclined downward manner and drying the oral liquid medicine bottle.

2. The box for drying the oral liquid medicine bottles with the effect of relieving the cold and fever according to claim 1, wherein the assembly component (2) comprises a transverse plate (20) fixed on the rear wall of the box body (1), a vertical plate (21) is formed at the middle position of the transverse plate (20) in a downward extending mode, inclined plates (22) are installed on two walls of the vertical plate (21) in an upward inclined mode and in an equally spaced array mode, and the other ends of the inclined plates (22) are installed at two ends of the transverse plate (20);

the assembly parts (23) are symmetrically arranged on the transverse plate (20), the assembly parts (23) are provided with assembly grooves (230) from front to back, and the front ends of the assembly parts (23) are provided with U-shaped grooves (231).

3. The box for drying the de-influenza oral liquid medicine bottles according to claim 2, wherein the drying rack (3) comprises assembly legs (30) which are all assembled on one side of the assembly part (23), a drying platform (31) is arranged at the upper ends of the assembly legs (30), branch pipes (32) are arranged on two sides of the drying platform (31) at equal intervals, transverse pipes (33) are communicated with the other ends of the branch pipes (32), a main pipe (34) is communicated with the other ends of the transverse pipes (33), and clamping mechanisms (35) are arranged on two sides of the drying platform (31) at equal intervals in an array manner;

the drying platform (31) is used for placing a plurality of oral liquid medicine bottles with the bottle mouths facing downwards;

the clamping mechanism (35) clamps and fixes the oral liquid medicine bottles on the drying table (31);

the header pipe (34) conveys hot air to each branch pipe (32) through the transverse pipe (33), and the hot air is finally sprayed to the corresponding oral liquid medicine bottle through the branch pipes (32) to dry the interior of the oral liquid medicine bottle.

4. The de-sensible heat oral liquid medicine bottle drying box is characterized in that the assembling feet (30) comprise a pair of supporting feet (300) which are assembled in the assembling groove (230) of the assembling part (23), the lower ends of the front sides of the supporting feet (300) are respectively provided with a lower extension rod (301), the lower ends of the lower extension rods (301) are respectively provided with a key plate (302), the key plates (302) are respectively provided with a key-shaped hole (303) in a penetrating manner, the key-shaped holes (303) are respectively penetrated with a positioning column (304), and the upper ends of the positioning columns (304) are arranged at the front end of the assembling part (23);

when the drying rack (3) is completely positioned in the box body (1), the lower extension rod (301) penetrates through the U-shaped groove (231);

the drying table (31) comprises a platform (310) with two ends installed at the upper end of a support leg (300), sloping blocks (311) are installed at two sides of the upper end of the platform (310), the lower ends of the sloping blocks (311) are installed at two sides of the platform (310) in a downward inclined mode, bottle body placing grooves (3110) are formed in the outer wall of the upper ends of the sloping blocks (311) in an equally-spaced array and are formed in an inward concave mode, bottle neck placing grooves (3111) are formed in the lower ends of the bottle body placing grooves (3110) in a communicated mode, bottle neck placing grooves (3112) are formed in the lower ends of the bottle neck placing grooves (3111) in a communicated mode, circular plates (3113) are arranged at the lower ends;

the bottle body placing groove (3110), the bottleneck placing groove (3111) and the bottleneck placing groove (3112) are all in a semi-arc structure;

the radius of the bottle body placing groove (3110) is larger than that of the bottle neck placing groove (3111);

the radius of the bottleneck placing groove (3111) is larger than that of the bottleneck placing groove (3112);

when the oral liquid medicine bottle is placed on the drying rack (3), the bottle body of the oral liquid medicine bottle is positioned in the bottle body placing groove (3110), the bottleneck of the oral liquid medicine bottle is positioned in the bottleneck placing groove (3111), the bottleneck of the oral liquid medicine bottle is positioned in the bottleneck placing groove (3112), and the bottleneck of the oral liquid medicine bottle is in contact with the inner wall of the circular plate (3113);

the clamping mechanism (35) comprises guide rods (350) which are arranged in pairs and are arranged at the upper end of the inclined block (311) in an equally-spaced array mode, the guide rods (350) which are arranged in pairs are symmetrical by taking the central shaft of the bottle body placing groove (3110) as a symmetry axis, springs (351) penetrate through the other ends of the guide rods (350), end plates (352) are arranged at the other ends of the guide rods (350), supporting plates (353) penetrate through the guide rods (350), clamping discs (354) are formed at the other ends of the supporting plates (353), the springs (351) are located between the supporting plates (353) and the end plates (352), and the clamping discs (354) are all concentric with the circular plates (3113);

when the oral liquid medicine bottle is fixed on the drying rack (3), the clamping disc (354) acts on the bottle bottom of the oral liquid medicine bottle;

the upper surface of the front side of the platform (310) is provided with a handle groove (312), and the handle groove (312) is used for the front and back movement of the drying rack (3).

5. The box for drying the oral liquid medicine bottle for removing the cold and the heat according to claim 1, wherein square holes (10) are formed in two side walls of the box body (1) in an equally spaced array, dust covers (11) are arranged on the outer side of the box body (1) in an equally spaced array, the dust covers (11) are located at the square holes (10), the lower ends of the dust covers (11) are open, supporting plates (12) are symmetrically arranged at the lower end of the box body (1), base plates (13) are arranged at the lower ends of the supporting plates (12), the front end of the box body (1) is an open end, a plurality of hinges (14) are arranged on the two side walls of the front end of the box body (1), and an opening and closing door (15) is.

6. A cold-heat-removing oral liquid medicine bottle drying box and a medicine-filling and plugging device are characterized by comprising the medicine-filling and plugging device and the oral liquid medicine bottle drying box according to any one of claims 1 to 5, wherein the medicine-filling and plugging device comprises a supporting unit (4) arranged on one side of a box body (1), a medicine-filling and plugging part (5) is arranged at the upper end of the supporting unit (4), and an oral liquid medicine bottle sterilizing part (6) is arranged at the upper end of the medicine-filling and plugging part (5);

the supporting unit (4) is used for supporting the charging plug part (5);

the medicine charging plugging part (5) is used for conveying the oral liquid medicine bottle, injecting the oral liquid into the medicine bottle and plugging the medicine bottle;

the oral liquid medicine bottle sterilizing part (6) is used for conveying the oral liquid medicine bottles dried in the drying box and performing high-temperature and ultraviolet sterilization operation on the oral liquid medicine bottles.

7. The de-thermesthesia oral liquid medicine bottle drying box and the medicine filling and plugging device of claim 6, the device is characterized in that the charging and plugging part (5) comprises a lower isolation shell (58) arranged on a supporting unit (4), the lower isolation shell (58) is of a cylindrical structure, the lower bottom of the lower isolation shell (58) is provided with assembly cylinders (51) in a circumferential array manner, the upper ends of the assembly cylinders (51) are provided with rotating motors (52), the outer walls of the lower ends of the rotating motors (52) are provided with assembly blocks (520) in a circumferential array manner, bolts (53) penetrate through the other ends of the assembly blocks (520), the lower ends of the bolts (53) are screwed in the assembly cylinders (51), output shafts of the rotating motors (52) are provided with conveying components (54), the other ends of the conveying components (54) are provided with guide components (55), the guide components (55) are of an annular structure and are fixed on the inner wall of the lower isolation shell (58), and the guide components (55) are provided;

the conveying assembly (54) is used for acting on the oral liquid medicine bottle in the guide assembly (55) to move towards the liquid injection assembly (56);

the guide assembly (55) is used for limiting the movement of the oral liquid medicine bottle;

the liquid injection assembly (56) injects the oral liquid into the medicine bottle;

the stopper mechanism (57) stoppers a medicine bottle into which the oral liquid is injected.

8. The box for drying medicine bottles for removing heat from the senses of cold and filling and plugging of medicine bottles of claim 7, characterized in that the guide assembly (55) comprises a lower guide member (550) installed on the inner wall of the lower insulating shell (58), a lower guide groove is formed in the lower guide member (550) with an upward opening, the lower guide member (550) is in a ring structure with one broken end having an arc structure, support bars (551) are installed on the outer side of the lower guide member (550) in an equally spaced array and extending upward, an upper guide member (552) is installed at the upper end of each support bar (551), the upper guide member (552) is installed on the inner wall of the lower insulating shell (58), an upper guide groove is formed in the upper guide member (552) with a downward opening, the upper guide member (552) has the same structure as the lower guide member (550), a delivery hole (553) is formed between the upper guide member (552) and the inner wall of the lower guide member (550), an upper conveying cylinder (554) is arranged at one end of the upper guide piece (552) in an upward extending mode, a bottle outlet cylinder (555) is arranged at one end of the lower guide piece (550) in a downward extending mode, a concave piece (556) is arranged at the lower end of the bottle outlet cylinder (555), the upper conveying cylinder (554) is located right above the other end of the lower guide piece (550), and the lower end of the bottle outlet cylinder (555) extends out of the lower bottom of the lower isolation shell (58);

the conveying assembly (54) comprises a mounting part (540) mounted on an output shaft of the rotating motor (52), a rotating plate (541) is formed on the outer wall of the mounting part (540), a U-shaped rotating part (542) is mounted at the other end of the rotating plate (541), the rotating plate (541) penetrates through the conveying hole (553), the U-shaped rotating part (542) is positioned in the upper guide groove and the lower guide groove, the upper end of the U-shaped rotating part (542) is in contact with the bottom of the upper guide groove, and the lower end of the U-shaped rotating part (542) is in contact with the bottom of the lower guide groove;

the liquid injection assembly (56) comprises a plurality of liquid injection nozzles (560) arranged at the end of a conveying cylinder (554) on the upper guide member (552), the liquid injection nozzles (560) are communicated with the liquid injection device through liquid injection pipes, a liquid outlet nozzle (561) is arranged at the lower end of the liquid injection nozzle (560), and the radius of the liquid injection nozzle (560) is larger than that of the liquid outlet nozzle (561);

the plug adding mechanism (57) comprises a guide cylinder (570) which is installed on the upper guide piece (552) in an upward extending mode, and the upper end of the guide cylinder (570) is provided with a yielding groove (5700);

the upper end of the guide cylinder (570) is outwards extended and provided with a rubber plug guide part (571), the rubber plug guide part (571) penetrates through the rubber plug guide part (571) to form a T-shaped guide hole (5711), and the end part of the other end of the rubber plug guide part (571) penetrates through a section of the pushing abdicating hole (5712) from top to bottom;

the upper end of the rubber plug guide part (571) is provided with a propelling mechanism (572), the propelling mechanism (572) comprises a propelling cylinder (5720) arranged at the upper end of the rubber plug guide part (571), the movable end of the propelling cylinder (5720) faces outwards, the movable end of the propelling cylinder (5720) is provided with a cross-shaped plate (5721), the lower end of the cross-shaped plate (5721) is assembled in a T-shaped guide hole (5711), and the rubber plug moves towards the end of the guide cylinder (570) under the action of the propelling cylinder (5720);

the plug adding mechanism (57) further comprises a downward pressing mechanism (573) arranged on one side of the guide cylinder (570), the downward pressing mechanism (573) comprises a lower fixing plate (5730) mounted on the outer wall of the lower end of the guide cylinder (570), a downward pressing cylinder (5731) is mounted at the other end of the lower fixing plate (5730) in an upward extending mode, a connecting plate (5732) is mounted at the movable end of the downward pressing cylinder (5731), a downward push rod (5733) is mounted at the other end of the connecting plate (5732) in a downward extending mode, the downward push rod (5733) is concentric with the guide cylinder (570), a downward pressing plate (5734) is mounted at the lower end of the downward push rod (5733), the downward pressing plate (5734) penetrates through the guide cylinder (570), and when the downward pressing plate (5734) moves downwards, the upward pressing plate penetrates through the upper end of the guide cylinder;

the plug adding mechanism (57) further comprises an anti-falling mechanism (574) arranged at the lower end of the guide cylinder (570), the anti-falling mechanism (574) comprises clamping plates (5744) penetrating through the guide cylinder (570) in pairs, outer plates (5741) are mounted at the outer side ends of the clamping plates (5744), penetrating rods (5740) penetrate through the two ends of each outer plate (5741), one ends of the penetrating rods (5740) are fixed on the outer wall of the guide cylinder (570), end plugs (5743) are mounted at the other ends of the penetrating rods (5740), second springs (5742) penetrate through the penetrating rods (5740), the second springs (5742) are located between the end plugs (5743) and the outer plates (5741), the inner side ends of the clamping plates (5744) are of inwards sunken arc-shaped structures, and chamfers are arranged at the upper ends of the inner sides of the clamping plates (5744);

when the oral liquid medicine bottle is plugged, the rubber plug is placed in the T-shaped guide hole (5711), under the action of the cross-shaped plate (5721), the rubber plug is pushed into the guide cylinder (570) and is intercepted by the anti-dropping mechanism (574), and the intercepted rubber plug is extruded onto the oral liquid bottle from the lower end of the guide cylinder (570) under the action of the lower pressing plate (5734).

9. The box for drying the oral liquid medicine bottle and the device for charging and plugging the same as the claim 8, wherein the sterilizing part (6) of the oral liquid medicine bottle comprises an upper insulating shell (60) arranged at the upper end of a lower insulating shell (58), and a plurality of ultraviolet lamps (61) are arranged on the inner wall of the top cover of the upper insulating shell (60);

the lower bottom of the upper isolation shell (60) is provided with a heating component (62);

an annular guide piece (63) is installed on the inner wall of the upper isolation shell (60), and the heating assembly (62) is located in the annular guide piece (63);

one part of the annular guide part (63) is disconnected, one end of the disconnected part of the annular guide part (63) is of an arc structure and is communicated with the upper conveying cylinder (554), and the other end of the disconnected part of the annular guide part (63) is communicated with an outer conveying guide part (64);

the outer side end of the outer conveying guide piece (64) is of an arc structure;

the outer conveying guide piece (64) is provided with a feeding mechanism (65);

the outer side end of the outer conveying guide (64) is communicated with a bottle inlet cylinder (66) in an upward extending way;

after the oral liquid medicine bottle is dried by the drying oven, the oral liquid medicine bottle enters an outer conveying guide part (64) from a bottle inlet cylinder (66), then is pushed into an annular guide part (63) by a feeding mechanism (65), is sterilized at high temperature by a heating assembly (62) and is sterilized by ultraviolet light (61), and after the medicine bottle is sterilized, the oral liquid medicine bottle enters a medicine filling and plugging part (5) from an upper conveying cylinder (554).

10. The box for drying and filling hot oral liquid medicine bottles of claim 9, wherein the outer wall of the outer conveying guide (64) is formed with a moving hole (640) penetrating the wall of the outer conveying guide (64);

the feeding mechanism (65) comprises assembly seats (651) which are installed on the outer wall of the outer conveying guide piece (64) in pairs, a screw rod (652) is assembled on the assembly seat (651) which is located on the same side, a feeding motor (650) is arranged at the outer end of the screw rod (652), the feeding motor (650) is installed on the assembly seat (651) which is located on the outer side, a moving plate (653) is screwed on the screw rod (652), a moving rod (654) is installed at the inner side end of the moving plate (653), a feeding piece (655) is installed at the inner side end of the moving rod (654), the moving rods (654) penetrate through the moving holes (640), and the feeding piece (655) is located in the outer conveying guide piece (64;

the heating assembly (62) comprises a heat insulation table (620) which is arranged at the lower bottom of the upper insulation shell (60) and is made of heat insulation materials, and the upper end of the heat insulation table (620) is provided with a heating wire (621);

the supporting unit (4) comprises a bottom ring (40), arc-shaped plates (41) are installed on the bottom ring (40) in a circumferential array mode, and the upper ends of the arc-shaped plates (41) are installed at the lower end of the lower isolation shell (58).