CN111572939A - Packaging bottle equipment - Google Patents

Abstract

The invention belongs to the technical field of packaging bottles, and particularly relates to packaging bottle equipment which comprises a bottle body, a top cover, an adjusting mechanism, a driving ring, a bottom cover, a first clapboard, an elastic channel, a third clapboard and a second clapboard, when the packaging bottle device is not used at ordinary times, the medicine in the bottle body which is positioned at the lower side of the third clapboard is sealed by the second clapboard and the third clapboard, when in use, the first clapboard and the second clapboard are driven to rotate by the driving ring, firstly, the lower side of the elastic channel is communicated with the medicine positioned at the lower side of the third clapboard in the bottle body, the upper side of the elastic channel is isolated from the outside by the first clapboard, the medicine at the inner side of the bottle body enters the elastic channel through the third medicine outlet and the second medicine outlet, then separating the medicine on the lower side of the bottle body from the elastic channel by the second partition plate, placing the packaging bottle right, opening the top cover, and taking out the medicine in the elastic channel; in the process, the medicine in the bottle body is not contacted with the outside all the time in the process of entering the elastic channel, so that the medicine is prevented from being affected with damp.

Description

Packaging bottle equipment

Technical Field

The invention belongs to the technical field of packaging bottles, and particularly relates to packaging bottle equipment.

Background

The medicine is an important means for preventing, treating and diagnosing diseases, the quality of the medicine is good and bad, which is directly related to the health and even life safety of patients, the stability of the medicine is not only related to the nature of the medicine, but also interfered by a plurality of external factors to a great extent, such as temperature, humidity, light, oxygen, carbon dioxide and microorganism in the air, storage time, packaging containers and the like; the factors can cause the medicines to be decomposed, volatilized, deposited, deliquesced, rancid, moldy and the like, in order to ensure the quality of the medicines, the moisture-proof storage of the medicines is a problem that workers in a pharmacy have to pay attention to, and especially when the medicines are stored in a family or the pharmacy, some medicines which are not eaten after being opened are particularly easy to be moistened, deteriorate, lose curative effect and even generate toxicity; some medicines are easy to absorb moisture due to their special physicochemical properties, and some medicines are easy to deliquesce, deteriorate or mildew due to dosage form factors. In order to avoid deliquescence of the medicines, the medicines are placed in a lightproof and closed container in rainy seasons and stored in a dry place.

At present, in order to prevent the deliquescence of the medicine, the widely adopted mode is to place the medicine in a glass bottle and seal the medicine with a rubber plug, and after the medicine bottle is opened in the mode, moist air can be sealed in the medicine bottle by the rubber plug, so that the medicine in the medicine bottle is affected with damp.

Meanwhile, a mode of additionally arranging a drying agent on a packaging bottle or a bottle cap is adopted for moisture prevention, and the mode can effectively play a role of moisture prevention, but the drying agent is easy to cause medicine pollution, possibly generates toxic substances, aggravates the state of an illness and even endangers the life; in addition, when people take the medicine, the packaging bottle can be repeatedly opened, and after a period of time, the drying agent in the packaging bottle absorbs excessive water, so that the drying agent loses effectiveness and loses the moisture-proof effect; after the medicine is used up, people generally discard the packaging bottle, and the desiccant in the packaging bottle can cause pollution to the surrounding environment.

The invention designs a packaging bottle device to solve the problems.

Disclosure of Invention

In order to solve the defects in the prior art, the invention discloses packaging bottle equipment which is realized by adopting the following technical scheme.

A packaging bottle equipment which is characterized in that: the medicine bottle comprises a bottle body, a top cover, an adjusting mechanism, a driving ring, a bottom cover, a first partition plate, a fixed rotating shaft, a reset spring, an elastic channel, a third partition plate, a telescopic rod, a ring sleeve and a second partition plate, wherein the upper end of the bottle body is provided with a medicine outlet which is used for pouring out medicine in the bottle body through the medicine outlet; the outer circle surface of the upper end of the medicine outlet nozzle is provided with an external thread, the lower end of the bottle body is an opening end, and the opening end is used for quickly filling medicines into the inner side of the bottle body through the opening end in the medicine filling process; and the outer circular surface of the lower end of the bottle body is provided with an external thread; the upper end surface of the inner side of the bottle body is provided with a fixed shaft hole, the inner circular surface of the top cover is provided with an internal thread, the top cover is arranged on the upper side of the medicine outlet nozzle in a threaded fit manner through the internal thread and an external thread on the medicine outlet nozzle, and the top cover plays a role in sealing the medicine outlet nozzle; the inner circular surface of the bottom cover is provided with an internal thread, the bottom cover is arranged at the lower end of the bottle body through the matching of the internal thread and the external thread at the lower end of the bottle body, and the bottom cover plays a role in sealing the lower side of the bottle body.

The upper end of the fixed rotating shaft is fixedly arranged in the fixed shaft hole, and the fixed rotating shaft plays a role in fixing the first partition plate; the first clapboard is provided with a first medicine outlet, the upper side surface of the first clapboard is provided with an installation shaft hole, the first clapboard is rotatably matched with the lower end of the fixed rotating shaft through the installation shaft hole and is arranged at the inner side of the bottle body, and the first medicine outlet on the first clapboard is matched with a medicine outlet on the bottle body; the driving ring is arranged on the outer circular surface of the upper end of the bottle body in a rotating fit manner, and the driving ring rotates to drive the first partition plate to rotate; the ring sleeve is arranged on the inner side of the bottle body in a vertically sliding fit manner through the inner side surface of the bottle body; the ring sleeve has the advantages that when the first partition plate drives the second partition plate to rotate through the telescopic rod, the second partition plate can rotate in the ring sleeve, the ring sleeve cannot rotate under the limiting of the adjusting mechanism, namely the second partition plate cannot interfere with the adjusting mechanism when rotating, and the elastic channel and the third partition plate which are arranged on the ring sleeve cannot be influenced by the rotation of the second partition plate; meanwhile, the adjusting mechanism can drive the second partition plate to move downwards through the ring sleeve, so that the rotation of the second partition plate is not influenced; the second partition plate is provided with a second medicine outlet, the lower end of the second medicine outlet is provided with an annular chamfer, and the annular chamfer is used for preventing medicines entering an elastic channel between the second partition plate and the first partition plate through the second medicine outlet from being clamped between the second medicine outlet on the second partition plate and a third medicine outlet on a third partition plate to influence the rotation of the first partition plate and the second partition plate in the process that the second medicine outlet on the second partition plate and the third medicine outlet on the third partition plate are staggered in the rotation process of the first partition plate and the second partition plate; the medicine can be extruded into the bottle body through the inclined plane of the annular chamfer in the rotating process of the second clapboard through the annular chamfer; the second clapboard is nested and arranged on the ring sleeve, and a second medicine outlet on the second clapboard is matched with a first medicine outlet on the first clapboard and a medicine outlet on the bottle body; the second clapboard is connected with the first clapboard through a telescopic rod with a transmission torque; a return spring is nested on the outer circular surface of the telescopic rod and plays a role in returning to the second partition plate, and the upper end and the lower end of the return spring are respectively arranged on the first partition plate and the second partition plate; the adjusting mechanism is arranged on the outer side of the bottle body and controls the second partition plate to move up and down through the ring sleeve; a third partition plate is provided with a third medicine outlet, the third partition plate is arranged on the inner circular surface of the lower end of the ring sleeve and is positioned at the lower side of the second partition plate, and the third medicine outlet formed in the third partition plate is correspondingly matched with the second medicine outlet in the second partition plate and the first medicine outlet in the first partition plate; a third medicine outlet on the third clapboard is positioned right under the medicine outlet on the bottle body; the third partition plate is used for isolating medicines in the bottle body, and under normal conditions, the second medicine outlet on the second partition plate and the third medicine outlet on the third partition plate are distributed in a staggered mode, so that the medicines in the bottle body are prevented from entering a space between the first partition plate and the second partition plate through the second medicine outlet on the second partition plate; an elastic channel is arranged between the first partition plate and the second partition plate, the elastic channel plays a role in guiding and isolating medicines when passing through the second partition plate and the first partition plate, the medicines are prevented from entering a gap between the second partition plate and the first partition plate, the upper end of the elastic channel is fixedly arranged on the inner wall of the bottle body, and the lower end of the elastic channel is fixedly arranged on the ring sleeve; the elastic channel is positioned right under the medicine outlet nozzle.

Under the normal state, the second medicine outlet on the second clapboard is positioned at the oblique lower side of the medicine outlet on the bottle body, and the first medicine outlet on the first clapboard is positioned at the oblique lower side of the second medicine outlet on the second clapboard; when the bottle body is vertically seen downwards from the upper side of the bottle body, the circle centers of the first medicine outlet arranged on the first clapboard, the second medicine outlet arranged on the second clapboard and the medicine outlet nozzle arranged on the bottle body are connected to form a circle, and the circle center of the circle and the circle center of the bottle body are concentric when the bottle body is vertically seen downwards from the upper side of the bottle body; the first medicine outlet on the first clapboard, the second medicine outlet on the second clapboard and the medicine outlet nozzle on the bottle body are mutually staggered when being vertically seen from the upper side of the bottle body downwards, and the distance between the two adjacent medicine outlets is the same; under normal conditions, the first medicine mouth that opens on the first baffle, the second medicine mouth that opens on the second baffle, the third medicine mouth three that opens on the third baffle look from the bottle upside perpendicularly downwards dislocation distribution, and it is sealed with the medicine that is located the third baffle downside in the bottle through second baffle and third baffle, prevents that medicine and outside air from putting through.

As a further improvement of the technology, a first sealing plate is arranged between the top cover and the medicine outlet nozzle on the bottle body; the first sealing plate is used for improving the sealing property between the top cover and the medicine outlet nozzle; a second sealing plate is arranged between the bottom cover and the lower end face of the bottle body; the second sealing plate is used for improving the sealing performance between the bottom cover and the lower end face of the bottle body. The first sealing plate is fixed on the top cover, the second sealing plate is fixed on the bottom cover, and the corresponding sealing plate can be taken to open when the top cover or the bottom cover needs to be opened.

As a further improvement of the technology, a first mark, a second mark and a third mark are arranged on the outer circular surface of the upper end of the bottle body; the matching state of a first medicine outlet formed in the first partition plate, a second medicine outlet formed in the second partition plate and a third medicine outlet formed in the third partition plate can be determined through the matching state of the first mark, the second mark, the third mark and the fourth mark, when the fourth mark is matched with the third mark, the first partition plate, the second partition plate, the third partition plate and the medicine outlet nozzle are in a normal state, and medicines positioned on the lower side of the third partition plate in the bottle body are sealed; when the mark four is matched with the mark two, the second medicine outlet on the second partition plate and the third medicine outlet on the third partition plate are aligned with each other when viewed from the upper side of the bottle body vertically downwards, but the first medicine outlet on the first partition plate, the second medicine outlet on the second partition plate and the third medicine outlet on the third partition plate are also in a staggered distribution state when viewed from the upper side of the bottle body vertically downwards; when the mark four is matched with the mark one, the second medicine outlet on the second clapboard and the third medicine outlet on the third clapboard are in staggered distribution when vertically seen from the upper side of the bottle body downwards, but the first medicine outlet on the first clapboard and the medicine outlet are aligned when vertically seen from the upper side of the bottle body downwards; a mark four is arranged on the outer circular surface of the driving ring; the mark four is matched with the mark one, the mark two and the mark three; marking a limiting block with a limiting mark four on the first mark, and marking three pairs of marks for limiting four; the rotation of the driving ring can be limited by the limiting block on the mark I and the mark III, so that the driving ring can only rotate back and forth within a certain angle; the situation that the matching state of the first clapboard, the second clapboard, the third clapboard and the medicine outlet nozzle is disordered due to 360-degree rotation of the driving ring is prevented; and in the rotating process of the driving ring, the mark four and the mark two do not interfere.

As a further improvement of the technology, the outer circular surface of the upper end of the bottle body is provided with two T-shaped ring grooves which are distributed up and down, and the outer circular surfaces of the upper end and the lower end of the driving ring are symmetrically provided with two T-shaped guide blocks; the driving ring is arranged on the bottle body through the rotating fit of the two T-shaped guide blocks and the two T-shaped ring grooves; the driving ring is guided by the rotating fit of the two T-shaped guide blocks and the two T-shaped ring grooves.

As a further improvement of the technology, the upper end of the elastic channel is arranged on the inner side wall of the bottle body through a first support, and the lower end of the elastic channel is arranged on the inner circular surface at the upper end of the ring sleeve through a second support; the upper end of the elastic channel is fixed and static, and the lower end of the elastic channel can move up and down along with the ring sleeve; the elasticity of the elastic channel can ensure that the elastic channel can play a role in guiding and isolating the medicines positioned between the first partition plate and the second partition plate when the distance between the first partition plate and the second partition plate is in any state.

As a further improvement of the technology, the telescopic rod comprises a telescopic outer sleeve, two chutes, guide blocks, a telescopic inner rod and an inclined plane, wherein the outer circular surface of the telescopic outer sleeve is circumferentially and uniformly provided with two chutes communicated with the inside and the outside, the lower end of the telescopic outer sleeve is fixedly arranged on the upper side of the second partition plate, the lower end of the telescopic inner rod is circumferentially and uniformly provided with two guide blocks, the upper end of the telescopic inner rod is arranged on the upper side of the first partition plate, the lower end of the telescopic inner rod is nested and arranged on the inner side of the telescopic outer sleeve, and the two guide blocks arranged on the telescopic inner rod are in sliding fit with the two; the telescopic rod has the function of transmitting torque through the matching of the two guide blocks and the sliding groove; the two guide blocks are respectively provided with an inclined plane which is convenient for the telescopic inner rod to be inserted into the inner side of the telescopic outer sleeve in the installation process.

As a further improvement of the technology, a guide arc-shaped groove is formed on the outer circumferential surface of the bottle body, the driving ring is connected with the first partition plate through a first connecting block, and the first connecting block penetrates through the guide arc-shaped groove and is in sliding fit with the guide arc-shaped groove; the effect of direction arc wall is that the one side plays the guide effect to first connecting block, plays the guide effect to first baffle promptly, and on the other hand can play limiting displacement to the rotation of first baffle through the direction arc wall.

As a further improvement of the technology, a supporting ring groove is formed in the inner circular surface of the bottle body, an annular support is arranged on the outer circular surface of the first partition plate, and the first partition plate is in rotating fit with the bottle body through the matching of the annular support and the supporting ring groove; the first partition plate is supported and guided by the matching of the annular support and the support ring groove.

As a further improvement of the technology, the adjusting mechanism comprises a driving block, a sliding plate, a sealing ring, a second connecting block, a fifth mark and a guide rail, wherein a guide groove is formed on the outer circular surface of the bottle body, and the guide rail is arranged on the outer circular surface of the bottle body and is matched with the guide groove; three groups of marks five which are uniformly distributed up and down are arranged on the guide rail; the sliding plate is arranged on the guide rail in a sliding fit manner, and a sealing ring is arranged between the sliding plate and the outer circular surface of the bottle body; the sealing ring has the function of sealing the up-and-down sliding of the sliding plate, namely, sealing medicines; one end of the sliding plate close to the outer side of the guide rail is provided with a driving block; the other end of the sliding plate is connected with the ring sleeve through a second connecting block, and the second connecting block penetrates through a guide groove formed in the bottle body; the driving block is matched with the mark five; when the driving block is driven to move up and down, the driving block can drive the sliding plate to move up and down, the sliding plate can drive the second partition plate to move up and down through the second connecting block, and the single medicine output amount can be adjusted by adjusting the distance between the second partition plate and the first partition plate; the amount of the medicine which can be stored in the elastic channel can be determined through the matching state of the driving block and the mark five; the amount of drive block movement is determined according to the need to use the amount of medicine at a time.

As a further improvement of the technology, two sealing rings which are distributed up and down are arranged between the inner circular surface of the driving ring and the outer circular surface of the bottle body, and the two sealing rings are positioned at the upper side and the lower side of the guide arc-shaped groove; the sealing ring has the function of sealing the bottle body.

Compared with the traditional packaging bottle technology, the packaging bottle device designed by the invention has the advantages that when the packaging bottle device is not used normally, the first medicine outlet formed in the first partition plate, the second medicine outlet formed in the second partition plate and the third medicine outlet formed in the third partition plate are distributed in a staggered manner when being seen vertically downwards from the upper side of the bottle body, medicines positioned on the lower side of the third partition plate in the bottle body are sealed through the second partition plate and the third partition plate, the medicines are prevented from being communicated with the outside air, and the medicines are enabled to be damp; when the medicine bottle is used, the first partition plate and the second partition plate are driven to rotate through the driving ring, so that the second medicine outlet on the second partition plate and the third medicine outlet on the third partition plate are aligned with each other when viewed from the upper side of the bottle body vertically downwards, but the first medicine outlet on the first partition plate, the second medicine outlet on the second partition plate and the third medicine outlet on the third partition plate are also in a staggered distribution state when viewed from the upper side of the bottle body vertically downwards; the lower side of the elastic channel is communicated with a medicine positioned on the lower side of the third partition plate in the bottle body, but the upper side of the elastic channel is isolated from the outside through the first partition plate, then the packaging bottle is inverted, so that the medicine inside the bottle body enters the elastic channel through the third medicine outlet and the second medicine outlet, then the first partition plate and the second partition plate are continuously driven to rotate through the driving ring, the second medicine outlet on the second partition plate and the third medicine outlet on the third partition plate are in staggered distribution when viewed from the upper side of the bottle body vertically downwards, but the first medicine outlet on the first partition plate and the medicine outlet are aligned when viewed from the upper side of the bottle body vertically downwards; the medicine and the elasticity passageway of second baffle with the bottle downside separate, will pack bottle this moment and just putting, open the top cap, and the medicine that is located the elasticity passageway just can pour out the medicine through first medicine mouth and medicine outlet on the first baffle, and at this in-process, the medicine that is located the third baffle downside in the bottle is not contacting with the external world all the time at the in-process that gets into elasticity passageway, has protected the medicine, prevents that the medicine from weing.

Drawings

Fig. 1 is an external view of an entire part.

Fig. 2 is a schematic view of the overall component distribution.

Fig. 3 is a schematic view of the internal structural distribution of the whole component.

Fig. 4 is a schematic view of the internal structure installation of the integral component.

Fig. 5 is a schematic view of the installation of the first and second diaphragms.

FIG. 6 is a schematic diagram of the combination of mark one, mark two, mark three and mark four.

FIG. 7 is a schematic view of a bottle body structure.

Fig. 8 is a schematic view of the medicine outlet nozzle.

Fig. 9 is a schematic view of a drive ring structure.

Fig. 10 is a schematic view of the structure of the elastic channel.

Fig. 11 is a schematic view of the telescopic rod structure.

Fig. 12 is a schematic view of the first separator structure.

Fig. 13 is a schematic view of a second separator structure.

Fig. 14 is a schematic view of the adjustment mechanism.

Figure 15 is a schematic view of a sled installation.

Fig. 16 is a schematic view of a rail structure.

FIG. 17 is a schematic view of the drive ring coupled to the first spacer.

Fig. 18 is a schematic view of the first drug outlet, the second drug outlet, and the third drug outlet.

Fig. 19 is a schematic distribution diagram of the first drug outlet, the second drug outlet and the third drug outlet.

Fig. 20 is a label four installation schematic.

FIG. 21 is a schematic view of the installation of mark one, mark two, and mark three.

Number designation in the figures: 1. a bottle body; 2. a top cover; 3. an adjustment mechanism; 4. a drive ring; 5. a bottom cover; 6. a first separator; 7. fixing the rotating shaft; 8. a first sealing plate; 9. a return spring; 10. an elastic channel; 11. a third partition plate; 12. a telescopic rod; 13. a second sealing plate; 14. sleeving a ring; 15. a second separator; 16. marking a first mark; 17. marking II; 18. marking four; 19. marking three; 20. a medicine outlet; 21. fixing the shaft hole; 22. a T-shaped ring groove; 23. a guide groove; 24. a guide arc-shaped groove; 25. a support ring groove; 26. a T-shaped guide block; 27. a first support; 28. a second support; 29. a telescopic outer sleeve; 30. a chute; 31. a guide block; 32. a telescopic inner rod; 33. a bevel; 34. a first connection block; 35. installing the shaft hole; 36. a first medicine outlet; 37. an annular support; 38. a second medicine outlet; 39. a drive block; 40. a slide plate; 41. a seal ring; 42. a second connecting block; 43. marking five; 44. a guide rail; 45. a third medicine outlet; 46. annular chamfering; 47. and (5) sealing rings.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples or figures are illustrative of the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1 and 2, the medicine bottle comprises a bottle body 1, a top cover 2, an adjusting mechanism 3, a driving ring 4, a bottom cover 5, a first partition plate 6, a fixed rotating shaft 7, a return spring 9, an elastic channel 10, a third partition plate 11, an expansion link 12, a loop sleeve 14 and a second partition plate 15, wherein as shown in fig. 7 and 8, the upper end of the bottle body 1 is provided with a medicine outlet 20, and the medicine outlet 20 is used for pouring out the medicine in the bottle body 1 through the medicine outlet 20; the outer circle surface of the upper end of the medicine outlet nozzle 20 is provided with an external thread, the lower end of the bottle body 1 is an opening end, and the opening end is used for quickly filling medicines into the inner side of the bottle body 1 through the opening end in the medicine filling process; and the outer circular surface of the lower end of the bottle body 1 is provided with an external thread; a fixed shaft hole 21 is formed in the upper end face of the inner side of the bottle body 1, an internal thread is formed in the inner circular face of the top cover 2, as shown in fig. 3 and 4, the top cover 2 is installed on the upper side of the medicine outlet nozzle 20 through the matching of the internal thread and the external thread on the medicine outlet nozzle 20, and the top cover 2 plays a role in sealing the medicine outlet nozzle 20; the inner circular surface of the bottom cover 5 is provided with internal threads, the bottom cover 5 is arranged at the lower end of the bottle body 1 through the matching of the internal threads and the external threads at the lower end of the bottle body 1, and the bottom cover 5 plays a role in sealing the lower side of the bottle body 1.

As shown in fig. 3 and 4, the upper end of the fixed rotating shaft 7 is fixedly installed in the fixed shaft hole 21, and the fixed rotating shaft 7 plays a role in fixing the first partition board 6; as shown in fig. 12, the first partition plate 6 is provided with a first drug outlet 36, the upper side surface of the first partition plate 6 is provided with a mounting shaft hole 35, as shown in fig. 4, the first partition plate 6 is rotatably fitted to the lower end of the fixed rotating shaft 7 through the mounting shaft hole 35 and is mounted on the inner side of the bottle body 1, and the first drug outlet 36 on the first partition plate 6 is fitted to the drug outlet 20 on the bottle body 1; as shown in fig. 5, the driving ring 4 is installed on the outer circumferential surface of the upper end of the bottle body 1 by a rotation fit, and the driving ring 4 rotates to drive the first partition 6 to rotate; the ring sleeve 14 is arranged on the inner side of the bottle body 1 by up-down sliding fit with the inner side of the bottle body 1; the ring sleeve 14 has the effects that when the first partition plate 6 drives the second partition plate 15 to rotate through the telescopic rod 12, the second partition plate 15 can rotate in the ring sleeve 14, the ring sleeve 14 cannot rotate under the limit of the adjusting mechanism 3, namely the second partition plate 15 cannot interfere with the adjusting mechanism 3 when rotating, and the elastic channel 10 and the third partition plate 11 which are arranged on the ring sleeve 14 cannot be influenced by the rotation of the second partition plate 15; meanwhile, the adjusting mechanism 3 can drive the second partition plate 15 to move downwards through the ring sleeve 14, and the rotation of the second partition plate 15 cannot be influenced; as shown in fig. 13, the second partition 15 is provided with a second drug outlet 38, the lower end of the second drug outlet 38 is provided with an annular chamfer 46, and the annular chamfer 46 is used for preventing drugs entering the elastic channel 10 between the second partition 15 and the first partition 6 through the second drug outlet 38 from being clamped between the second drug outlet 38 on the second partition 15 and the third drug outlet 45 on the third partition 11 to influence the rotation of the first partition 6 and the second partition 15 in the process that the second drug outlet 38 on the second partition 15 and the third drug outlet 45 on the third partition 11 are staggered in the rotation process of the first partition 6 and the second partition 15; the medicine can be squeezed into the bottle body 1 through the inclined surface of the annular chamfer 46 during the rotation process of the second clapboard 15 through the annular chamfer 46; as shown in fig. 4, the second partition 15 is nested on the ring sleeve 14, and the second medicine outlet 38 on the second partition 15 is matched with the first medicine outlet 36 on the first partition 6 and the medicine outlet 20 on the bottle body 1; the second clapboard 15 is connected with the first clapboard 6 through a telescopic rod 12 with a function of transmitting torque; the outer circular surface of the telescopic rod 12 is provided with a return spring 9 in a nested manner, the return spring 9 plays a role in returning to the second partition plate 15, and the upper end and the lower end of the return spring 9 are respectively arranged on the first partition plate 6 and the second partition plate 15; the adjusting mechanism 3 is arranged at the outer side of the bottle body 1, and the adjusting mechanism 3 controls the second clapboard 15 to move up and down through the ring sleeve 14; a third medicine outlet 45 is formed in the third partition plate 11, the third partition plate 11 is installed on the inner circular surface of the lower end of the ring sleeve 14, the third partition plate 11 is positioned on the lower side of the second partition plate 15, and the third medicine outlet 45 formed in the third partition plate 11 is correspondingly matched with the second medicine outlet 38 formed in the second partition plate 15 and the first medicine outlet 36 formed in the first partition plate 6; the third medicine outlet 45 on the third clapboard 11 is positioned right below the medicine outlet 20 on the bottle body 1; the third partition plate 11 is used for isolating the medicines in the bottle body 1, and under normal conditions, the second medicine outlet 38 on the second partition plate 15 and the third medicine outlet 45 on the third partition plate 11 are distributed in a staggered manner, so that the medicines in the bottle body 1 are prevented from entering between the first partition plate 6 and the second partition plate 15 through the second medicine outlet 38 on the second partition plate 15; an elastic channel 10 is arranged between the first partition plate 6 and the second partition plate 15, the elastic channel 10 plays a role in guiding and isolating medicines when passing through the second partition plate 15 and the first partition plate 6, the medicines are prevented from entering a gap between the second partition plate 15 and the first partition plate 6, the upper end of the elastic channel 10 is fixedly arranged on the inner wall of the bottle body 1, and the lower end of the elastic channel 10 is fixedly arranged on the ring sleeve 14; the flexible channel 10 is located just below the dispensing nozzle 20.

As shown in fig. 18 and 19, in a normal state, the second medicine outlet 38 formed on the second partition 15 is located at an oblique lower side of the medicine outlet 20 on the bottle body 1, and the first medicine outlet 36 formed on the first partition 6 is located at an oblique lower side of the second medicine outlet 38 formed on the second partition 15; when the bottle body 1 is vertically seen downwards from the upper side, the circle centers of the first medicine outlet 36 formed on the first clapboard 6, the second medicine outlet 38 formed on the second clapboard 15 and the medicine outlet 20 on the bottle body 1 form a circle by connecting the circle centers, and the circle center of the circle and the circle center of the bottle body 1 are concentric when the bottle body 1 is vertically seen downwards from the upper side; the first medicine outlet 36 formed on the first clapboard 6, the second medicine outlet 38 formed on the second clapboard 15 and the medicine outlet nozzle 20 on the bottle body 1 are mutually staggered when being vertically seen from the upper side of the bottle body 1, and the distance between the two adjacent medicine outlets is the same; under normal conditions, the first medicine outlet 36 opened on the first partition plate 6, the second medicine outlet 38 opened on the second partition plate 15, and the third medicine outlet 45 opened on the third partition plate 11 are distributed in a staggered manner when vertically seen from the upper side of the bottle body 1, and medicines positioned on the lower side of the third partition plate 11 in the bottle body 1 are sealed by the second partition plate 15 and the third partition plate 11, so that the medicines are prevented from being communicated with the outside air.

In summary, the following steps:

the beneficial effects of the design of the invention are as follows: when the packaging bottle device is not used at ordinary times, the first medicine outlet 36 formed in the first partition plate 6, the second medicine outlet 38 formed in the second partition plate 15 and the third medicine outlet 45 formed in the third partition plate 11 are staggered and distributed when the bottle device is vertically seen from the upper side of the bottle body 1 downwards, and medicines positioned on the lower side of the third partition plate 11 in the bottle body 1 are sealed through the second partition plate 15 and the third partition plate 11, so that the medicines are prevented from being communicated with the outside air, and the medicines are moistened; when in use, the first partition plate 6 and the second partition plate 15 are driven to rotate by the driving ring 4, so that the second medicine outlet 38 on the second partition plate 15 and the third medicine outlet 45 on the third partition plate 11 are aligned with each other when viewed from the upper side of the bottle body 1 vertically downwards, but the first medicine outlet 36 on the first partition plate 6, the second medicine outlet 38 on the second partition plate 15 and the third medicine outlet 45 on the third partition plate 11 are also in a staggered distribution state when viewed from the upper side of the bottle body 1 vertically downwards; the lower side of the elastic channel 10 is communicated with the medicine in the bottle body 1, which is positioned on the lower side of the third partition plate 11, but the upper side of the elastic channel 10 is isolated from the outside through the first partition plate 6, then the packaging bottle is inverted, so that the medicine in the bottle body 1 enters the elastic channel 10 through the third medicine outlet 45 and the second medicine outlet 38, and then the first partition plate 6 and the second partition plate 15 are continuously driven to rotate through the driving ring 4, so that the second medicine outlet 38 on the second partition plate 15 and the third medicine outlet 45 on the third partition plate 11 are staggered and distributed when viewed from the upper side of the bottle body 1 vertically downwards, but the first medicine outlet 36 on the first partition plate 6 and the medicine outlet 20 are aligned when viewed from the upper side of the bottle body 1 vertically downwards; the medicine and the elastic channel 10 of bottle 1 downside are separated to second baffle 15, are just putting packing bottle this moment, open top cap 2, and the medicine that is located elastic channel 10 just can pour out the medicine through first medicine mouth 36 and medicine outlet 20 on the first baffle 6, and at this in-process, the medicine that is located third baffle 11 downside in bottle 1 does not contact with the external world all the time at the in-process that gets into elastic channel 10, has protected the medicine, prevents that the medicine from weing.

As shown in fig. 4, a first sealing plate 8 is installed between the cap 2 and the medicine outlet 20 of the bottle body 1; the first sealing plate 8 is used for improving the sealing property between the top cover 2 and the medicine outlet nozzle 20; a second sealing plate 13 is arranged between the bottom cover 5 and the lower end surface of the bottle body 1; the second sealing plate 13 is used for improving the sealing property between the bottom cover 5 and the lower end surface of the bottle body 1; the first sealing plate 8 is fixed on the top cover 2, the second sealing plate 13 is fixed on the bottom cover 5, and when the top cover 2 or the bottom cover 5 needs to be opened, the corresponding first sealing plate 8 and the second sealing plate 13 can be opened.

As shown in fig. 21, a mark one 16, a mark two 17 and a mark three 19 are installed on the outer circumferential surface of the upper end of the bottle body 1; the matching state of the first medicine outlet 36 formed in the first partition plate 6, the second medicine outlet 38 formed in the second partition plate 15 and the third medicine outlet 45 formed in the third partition plate 11 can be determined through the matching state of the first mark 16, the second mark 17, the third mark 19 and the fourth mark 18, when the fourth mark 18 is matched with the third mark 19, the first partition plate 6, the second partition plate 15, the third partition plate 11 and the medicine outlet 20 are in a normal state, and the medicine in the bottle body 1, which is positioned on the lower side of the third partition plate 11, is sealed; when the fourth mark 18 is matched with the second mark 17, the second medicine outlet 38 on the second partition 15 and the third medicine outlet 45 on the third partition 11 are aligned with each other when viewed from the upper side of the bottle body 1 vertically downwards, but the first medicine outlet 36 on the first partition 6, the second medicine outlet 38 on the second partition 15 and the third medicine outlet 45 on the third partition 11 are also in a staggered distribution state when viewed from the upper side of the bottle body 1 vertically downwards; when the fourth mark 18 is matched with the first mark 16, the second medicine outlet 38 on the second partition 15 and the third medicine outlet 45 on the third partition 11 are staggered when viewed from the upper side of the bottle body 1 vertically downwards, but the first medicine outlet 36 on the first partition 6 and the medicine outlet 20 are aligned with each other when viewed from the upper side of the bottle body 1 vertically downwards; as shown in fig. 20, the outer circumferential surface of the drive ring 4 is mounted with a mark four 18; as shown in fig. 6, mark four 18 cooperates with mark one 16, mark two 17 and mark three 19; a limiting block with a limiting mark four 18 is arranged on the mark one 16, and a mark three 19 limits the mark four 18; the rotation of the driving ring 4 can be limited by the limiting block marked on the first mark 16 and the third mark 19, so that the driving ring 4 can only rotate back and forth within a certain angle; the driving ring 4 is prevented from rotating 360 degrees to cause the disorder of the matching state of the first clapboard 6, the second clapboard 15, the third clapboard 11 and the medicine outlet nozzle 20; during the rotation of the drive ring 4, the four marks 18 do not interfere with the two marks 17.

As shown in fig. 7, two T-shaped ring grooves 22 are formed on the outer circumferential surface of the upper end of the bottle body 1 and distributed up and down, and as shown in fig. 9, two T-shaped guide blocks 26 are symmetrically mounted on the outer circumferential surface of the upper and lower ends of the driving ring 4; as shown in fig. 5, the driving ring 4 is mounted on the bottle body 1 by the rotational engagement of two T-shaped guide blocks 26 and two T-shaped ring grooves 22; the drive ring 4 is guided by the rotational engagement of the two T-shaped guide shoes 26 with the two T-shaped ring grooves 22.

As shown in fig. 5 and 10, the upper end of the elastic channel 10 is mounted on the inner sidewall of the bottle body 1 by a first support 27, and the lower end of the elastic channel 10 is mounted on the inner circumferential surface of the upper end of the collar 14 by a second support 28; the upper end of the elastic channel 10 is fixed and static, and the lower end of the elastic channel 10 can move up and down along with the ring sleeve 14; the elasticity of the elastic channel 10 can ensure that the elastic channel 10 can play a role in guiding and isolating the medicine positioned between the first partition plate 6 and the second partition plate 15 when the distance between the first partition plate 6 and the second partition plate 15 of the elastic channel 10 is in any state.

As shown in fig. 11, the telescopic rod 12 includes a telescopic outer sleeve 29, two chutes 30, guide blocks 31, a telescopic inner rod 32, and an inclined plane 33, wherein two chutes 30 communicating inside and outside are uniformly formed on an outer circumferential surface of the telescopic outer sleeve 29 in a circumferential direction, a lower end of the telescopic outer sleeve 29 is fixedly mounted on an upper side of the second partition 15, two guide blocks 31 are uniformly mounted on a lower end of the telescopic inner rod 32 in a circumferential direction, an upper end of the telescopic inner rod 32 is mounted on an upper side of the first partition 6, a lower end of the telescopic inner rod 32 is nested and mounted inside the telescopic outer sleeve 29, and the two guide blocks 31 mounted on the telescopic inner rod 32 are in sliding fit with the two chutes 30 formed on; the two guide blocks 31 are matched with the sliding groove 30, so that the telescopic rod 12 has a function of transmitting torque; both guides 31 have a bevel 33 to facilitate insertion of the telescoping inner pole 32 inside the telescoping outer sleeve 29 during installation.

As shown in fig. 7, the guide arc-shaped groove 24 is opened on the outer circumferential surface of the bottle body 1, as shown in fig. 12 and 17, the driving ring 4 is connected with the first partition plate 6 through the first connecting block 34, and the first connecting block 34 passes through the guide arc-shaped groove 24 to be in sliding fit with the guide arc-shaped groove 24; the function of the guiding arc-shaped groove 24 is to guide the first connecting block 34, i.e. to guide the first partition board 6, and to limit the rotation of the first partition board 6 through the guiding arc-shaped groove 24.

As shown in fig. 7, the inner circumferential surface of the bottle body 1 is provided with a supporting ring groove 25, as shown in fig. 12, the outer circumferential surface of the first partition plate 6 is provided with an annular support 37, as shown in fig. 5, the first partition plate 6 is rotatably fitted with the bottle body 1 by the fitting of the annular support 37 with the supporting ring groove 25; the first clapboard 6 is supported and guided by the matching of the annular support 37 and the support ring groove 25.

As shown in fig. 14, the adjusting mechanism 3 comprises a driving block 39, a sliding plate 40, a sealing ring 41, a second connecting block 42, a mark five 43, and a guide rail 44, wherein as shown in fig. 7, a guide groove 23 is formed on the outer circumferential surface of the bottle body 1, and as shown in fig. 4, the guide rail 44 is installed on the outer circumferential surface of the bottle body 1 and is engaged with the guide groove 23; as shown in fig. 16, three sets of marks five 43 are mounted on the guide rail 44 and are distributed uniformly up and down; as shown in fig. 15, the slide plate 40 is installed on the guide rail 44 by sliding fit, and a sealing ring 41 is installed between the slide plate 40 and the outer circumferential surface of the bottle body 1; the sealing ring 41 is used for sealing the up-and-down sliding of the sliding plate 40, namely, sealing the medicine; as shown in fig. 14, a driving block 39 is mounted on one end of the slide plate 40 near the outer side of the guide rail 44; the other end of the sliding plate 40 is connected with the ring sleeve 14 through a second connecting block 42, and the second connecting block 42 passes through the guide groove 23 formed on the bottle body 1; the driving block 39 cooperates with the five indicia 43; when the driving block 39 is driven to move up and down, the driving block 39 can drive the sliding plate 40 to move up and down, the sliding plate 40 can drive the second partition plate 15 to move up and down through the second connecting block 42 when moving up and down, and the single medicine output amount can be adjusted by adjusting the distance between the second partition plate 15 and the first partition plate 6; the amount of the medicine which can be stored in the elastic channel 10 can be determined through the matching state of the driving block 39 and the mark five 43; the amount of movement of the drive block 39 is determined according to the demand for one-time use of the amount of medicine.

Two sealing rings 47 which are distributed up and down are arranged between the inner circular surface of the driving ring 4 and the outer circular surface of the bottle body 1, and the two sealing rings 47 are positioned at the upper side and the lower side of the guide arc-shaped groove 24; the sealing ring 47 serves to seal the bottle body 1.

The specific working process is as follows: when the packaging bottle device designed by the invention is used, when the packaging bottle device is not used in normal times, the first medicine outlet 36 formed in the first partition plate 6, the second medicine outlet 38 formed in the second partition plate 15 and the third medicine outlet 45 formed in the third partition plate 11 are vertically downwards seen from the upper side of the bottle body 1 and are distributed in a staggered manner, the medicines positioned at the lower side of the third partition plate 11 in the bottle body 1 are sealed through the second partition plate 15 and the third partition plate 11, the medicines are prevented from being communicated with the outside air, and the medicines are affected with damp; when in use, the first clapboard 6 and the second clapboard 15 are driven to rotate by the driving ring 4, during the rotation, when the mark four 18 arranged on the driving ring 4 is matched with the mark two 17 arranged on the bottle body 1, the packaging bottle is inverted, so that the medicine in the bottle body 1 enters the elastic channel 10 through the third medicine outlet 45 and the second medicine outlet 38, then the first clapboard 6 and the second clapboard 15 are driven to rotate by the driving ring 4, during the rotation, when the mark four 18 arranged on the driving ring 4 is matched with the mark one 16 arranged on the bottle body 1, the packaging bottle is placed right, the top cover 2 is opened, the medicine in the elastic channel 10 can be poured out through the first medicine outlet 36 and the medicine outlet 20 on the first clapboard 6, during the process, the medicine in the bottle body 1, which is positioned at the lower side of the third clapboard 11, is not contacted with the outside all the time when the medicine enters the elastic channel 10, protects the medicine and prevents the medicine from being affected with damp.

Claims (5)

1. A packaging bottle equipment which is characterized in that: the medicine bottle comprises a bottle body, a top cover, an adjusting mechanism, a driving ring, a bottom cover, a first partition plate, a fixed rotating shaft, a reset spring, an elastic channel, a third partition plate, a telescopic rod, a ring sleeve and a second partition plate, wherein the upper end of the bottle body is provided with a medicine outlet, an external thread is arranged on the outer circular surface of the upper end of the medicine outlet, the lower end of the bottle body is an opening end, and the external thread is arranged on the outer circular surface of the lower end of the bottle body; the upper end surface of the inner side of the bottle body is provided with a fixed shaft hole, the inner circular surface of the top cover is provided with an internal thread, the top cover is arranged at the upper side of the medicine outlet nozzle through the internal thread and the external thread on the medicine outlet nozzle in a thread fit manner, the inner circular surface of the bottom cover is provided with an internal thread, and the bottom cover is arranged at the lower end of the bottle body through the internal thread and the external thread at the;

the upper end of the fixed rotating shaft is fixedly arranged in the fixed shaft hole, the first clapboard is provided with a first medicine outlet, the upper side surface of the first clapboard is provided with an installation shaft hole, the first clapboard is rotatably matched with the lower end of the fixed rotating shaft through the installation shaft hole and is arranged on the inner side of the bottle body, and the first medicine outlet on the first clapboard is matched with a medicine outlet on the bottle body; the driving ring is arranged on the outer circular surface of the upper end of the bottle body in a rotating fit manner, and the driving ring rotates to drive the first partition plate to rotate; the ring sleeve is arranged on the inner side of the bottle body in a vertically sliding fit manner through the inner side surface of the bottle body; a second medicine outlet is formed in the second partition plate, an annular chamfer is formed at the lower end of the second medicine outlet, the second partition plate is nested on the annular sleeve, and the second medicine outlet in the second partition plate is matched with the first medicine outlet in the first partition plate and the medicine outlet in the bottle body; the second clapboard is connected with the first clapboard through a telescopic rod with a transmission torque; the outer circular surface of the telescopic rod is provided with a return spring in a nested manner, and the upper end and the lower end of the return spring are respectively arranged on the first partition plate and the second partition plate; the adjusting mechanism is arranged on the outer side of the bottle body and controls the second partition plate to move up and down through the ring sleeve; a third partition plate is provided with a third medicine outlet, the third partition plate is arranged on the inner circular surface of the lower end of the ring sleeve and is positioned at the lower side of the second partition plate, and the third medicine outlet formed in the third partition plate is correspondingly matched with the second medicine outlet in the second partition plate and the first medicine outlet in the first partition plate; a third medicine outlet on the third clapboard is positioned right under the medicine outlet on the bottle body; an elastic channel is arranged between the first partition plate and the second partition plate, the upper end of the elastic channel is fixedly arranged on the inner wall of the bottle body, and the lower end of the elastic channel is fixedly arranged on the ring sleeve; the elastic channel is positioned right under the medicine outlet nozzle;

under the normal state, the second medicine outlet on the second clapboard is positioned at the oblique lower side of the medicine outlet on the bottle body, and the first medicine outlet on the first clapboard is positioned at the oblique lower side of the second medicine outlet on the second clapboard; when the bottle body is vertically seen downwards from the upper side of the bottle body, the circle centers of the first medicine outlet arranged on the first clapboard, the second medicine outlet arranged on the second clapboard and the medicine outlet nozzle arranged on the bottle body are connected to form a circle, and the circle center of the circle and the circle center of the bottle body are concentric when the bottle body is vertically seen downwards from the upper side of the bottle body; the first medicine outlet on the first clapboard, the second medicine outlet on the second clapboard and the medicine outlet nozzle on the bottle body are mutually staggered when being vertically seen from the upper side of the bottle body downwards, and the distance between the two adjacent medicine outlets is the same;

a first mark, a second mark and a third mark are arranged on the outer circular surface of the upper end of the bottle body; a mark four is arranged on the outer circular surface of the driving ring; the mark four is matched with the mark one, the mark two and the mark three; marking a limiting block with a limiting mark four on the first mark, and marking three pairs of marks for limiting four; in the rotating process of the driving ring, the mark four and the mark two do not interfere with each other;

the adjusting mechanism comprises a driving block, a sliding plate, a sealing ring, a second connecting block, a fifth mark and a guide rail, wherein a guide groove is formed in the outer circular surface of the bottle body, and the guide rail is arranged on the outer circular surface of the bottle body and matched with the guide groove; three groups of marks five which are uniformly distributed up and down are arranged on the guide rail; the sliding plate is arranged on the guide rail in a sliding fit manner, and a sealing ring is arranged between the sliding plate and the outer circular surface of the bottle body; one end of the sliding plate close to the outer side of the guide rail is provided with a driving block; the other end of the sliding plate is connected with the ring sleeve through a second connecting block, and the second connecting block penetrates through a guide groove formed in the bottle body; the driving block is matched with the mark five;

a first sealing plate is arranged between the top cover and the medicine outlet nozzle on the bottle body and is fixed on the top cover; a second sealing plate is arranged between the bottom cover and the lower end face of the bottle body and fixed on the bottom cover;

two T-shaped ring grooves distributed up and down are formed in the outer circular surface of the upper end of the bottle body, and two T-shaped guide blocks are symmetrically mounted on the outer circular surfaces of the upper end and the lower end of the driving ring; the driving ring is arranged on the bottle body through the rotating fit of the two T-shaped guide blocks and the two T-shaped ring grooves;

the upper end of the elastic channel is arranged on the inner side wall of the bottle body through a first support, and the lower end of the elastic channel is arranged on the inner circular surface at the upper end of the ring sleeve through a second support.

2. The packaging bottle apparatus as set forth in claim 1, wherein: the telescopic rod comprises a telescopic outer sleeve, chutes, guide blocks, a telescopic inner rod and an inclined plane, wherein the outer circular surface of the telescopic outer sleeve is circumferentially and uniformly provided with two chutes communicated with the inside and the outside; the two guide blocks are respectively provided with an inclined plane which is convenient for the telescopic inner rod to be inserted into the inner side of the telescopic outer sleeve in the installation process.

3. The packaging bottle apparatus as set forth in claim 1, wherein: the outer circular surface of the bottle body is provided with a guide arc-shaped groove, the driving ring is connected with the first partition plate through a first connecting block, and the first connecting block penetrates through the guide arc-shaped groove to be in sliding fit with the guide arc-shaped groove.

4. The packaging bottle apparatus as set forth in claim 1, wherein: the inner circular surface of the bottle body is provided with a supporting ring groove, the outer circular surface of the first partition plate is provided with an annular support, and the first partition plate is in running fit with the bottle body through the matching of the annular support and the supporting ring groove.

5. The packaging bottle apparatus as set forth in claim 1, wherein: two sealing rings which are distributed up and down are arranged between the inner circular surface of the driving ring and the outer circular surface of the bottle body, and the two sealing rings are positioned on the upper side and the lower side of the guide arc-shaped groove.

Images