CN218477950U - Medicine bottle split charging device - Google Patents

Abstract

A medicine bottle subpackaging device comprises a shell and a medicine funnel positioned in the shell, wherein a medicine particle channel is arranged in the medicine funnel, the medicine particle channel comprises a medicine particle inlet positioned above and a medicine particle outlet positioned below, a medicine pump is connected below the medicine particle channel, a blocking piece is arranged at the lower part of the medicine funnel, one end of the blocking piece is rotatably hinged with the medicine funnel, the other end of the blocking piece is a free end, and the hinged end is far away from the pumping end of the medicine pump; the medicine drawer is provided with an inner cavity for bearing medicine granules, when the medicine drawer is drawn out of the outer shell, the blocking piece is propped against the medicine drawer and can block the medicine granule outlet, when the medicine drawer is positioned in the outer shell, the free end of the blocking piece inclines downwards and falls into the inner cavity of the medicine drawer; the scheme of this application has the kind and can not cause the medicine granule to pollute to the control that can be fine gets the advantage of medicine quantity.

Description

Medicine bottle split charging device

Technical Field

The application relates to the technical field of medicine feeding of medicine bottles, in particular to a medicine bottle subpackaging device.

Background

Granular medicines are generally stored in medicine bottles, and most of the common medicine bottles are bottle bodies, wherein the upper ends of the bottle bodies are provided with openings which are sealed through covers; when the medicine needs to be taken, the cover is opened, and the medicine particles are poured out of the medicine bottle on the hands of a user, but more medicine particles than the dose are often poured out in the mode, redundant medicine particles need to be filled back into the medicine bottle again, and the pollution of the medicine particles is probably caused due to the contact between the medicine particles and the hands; and the quantity of the medicine taken is not well controlled.

SUMMERY OF THE UTILITY MODEL

This application is not enough to prior art's the aforesaid, provides one kind and can not cause the medicine grain to pollute to the medicine bottle partial shipment ware of quantity is got in control that can be fine.

In order to solve the technical problem, the technical scheme adopted by the application is as follows: a medicine bottle subpackaging device structurally comprises an outer shell and a medicine funnel positioned in the outer shell, wherein a medicine particle channel is arranged in the medicine funnel and comprises a medicine particle inlet positioned above and a medicine particle outlet positioned below, a medicine pump is connected below the medicine particle channel, a blocking piece is arranged at the lower part of the medicine funnel, one end of the blocking piece is rotatably hinged with the medicine funnel, the other end of the blocking piece is a free end, and the hinged end is far away from a pumping-out end of the medicine pump; the medicine pump is provided with an inner cavity for bearing medicine granules, when the medicine pump is pumped out of the outer shell, the blocking piece is propped against the medicine pump and can block the medicine granule outlet, and when the medicine pump is positioned in the outer shell, the free end of the blocking piece inclines downwards and falls into the inner cavity of the medicine pump.

By adopting the structure, the medicine leakage, the blocking piece and the medicine pump with specific structures are arranged, and medicine particles entering from the medicine particle inlet of the medicine leakage are scratched to the medicine particle outlet through the medicine particle channel; when the medicine drawer is not drawn out of the outer shell and is positioned in the outer shell, the free end of the blocking piece falls into the inner cavity of the medicine drawer in an inclined mode to form an inclined slide way, and medicine particles at the medicine particle outlet are guided to fall into the inner cavity of the medicine drawer; then the medicine pump is pulled out from the outer shell, at the moment, along with the continuous contact of the rear end of the medicine pump and the blocking piece, under the action of the abutting force of the medicine pump, the hinged end of the blocking piece rotates in the circumferential direction, the free end is gradually close to the medicine granule outlet and finally abuts against the medicine granule outlet, so that the medicine granule outlet is blocked, and at the moment, new medicine granules cannot leak out; the distance between the free end of the medicine particles falling into the inner cavity of the medicine pump and the inner cavity is increased in the process that the medicine pump gradually pulls the outer shell, the medicine particles pass through the blocking piece to enter the inner cavity and are taken out of the outer shell together by the medicine pump and taken out by an operator, the medicine taking action of the medicine particles is finished in the process, after the medicine pump is pushed into the outer shell again, the supporting free end of the blocking piece without the medicine pump inclines downwards again to fall into the inner cavity, and the medicine particle outlet leaks again to realize medicine discharging again; therefore, the structure of the application can realize once taking the fixed medicine grains with the leakage quantity, can not cause the pollution of the medicine grains, and can control the medicine taking quantity according to the fluctuation of the baffle plate.

Furthermore, the rear end of the medicine pump is a horizontally extending propping part, and the horizontally extending length of the propping part can enable the blocking piece to be propped up and propped against the medicine granule outlet after the medicine pump is pumped out; by adopting the structure, the blocking piece can be jacked up to block the outlet after the medicine is pumped out, and the control of the medicine output amount is realized.

Furthermore, when the medicine pump is positioned in the outer shell, a space is formed between the free end of the baffle and the inner cavity, and the space can enable falling medicine particles to cross the baffle; adopt above-mentioned structure, need control the distance between the inner chamber inner wall that separation blade free end and medicine were taken out promptly, guarantee like this that the medicine grain that falls into can lift up the process at the separation blade and can not follow and lift up together, but can cross the separation blade and stop in the inner chamber, take out the back at medicine and conveniently get it filled.

Further, when the medicine is pumped out of the shell, the medicine granule outlet is completely blocked by the blocking piece or a gap is formed between the blocking piece and the blocking piece, and the gap is smaller than the outer diameter of a single medicine granule; namely, after the blocking sheet is jacked up by medicine extraction to block the medicine particle outlet, the blocking sheet and the medicine particle outlet can be completely blocked or have a gap, but the gap is not enough to enable single medicine particles to leak out again.

Furthermore, the inner wall of the inner cavity close to the medicine extraction end is in an arc shape extending obliquely and extends obliquely downwards from outside to inside; adopt this structure, the medicine grain that conveniently falls into can be smooth fall into the inner chamber, and this kind of structure of extending from outer to interior slope down of the inner wall of inner chamber more importantly is taken out at the separation blade and is formed bigger and bigger interval between the process of jack-up gradually and the separation blade by the medicine for the medicine grain is kept somewhere in the inner chamber, prevents effectively that the medicine grain from following the separation blade and is jack-up.

Furthermore, an inclined surface is arranged in the medicine granule channel, and the inclined surface is arranged downwards in an inclined manner from the direction far away from the medicine drawing direction to the medicine drawing direction; by adopting the structure, the medicine granules can conveniently fall into the inner cavity position of the extraction end from the medicine granule channel, and medicine taking is convenient.

Furthermore, rolling shafts are arranged on the upper surface and the lower surface of the medicine drawer, and the medicine drawer is in rolling contact with the rolling shafts; by adopting the structure, the medicine can be conveniently pumped out from the outer shell body smoothly.

Furthermore, the rollers comprise a first roller, a second roller and a third roller; the first rolling shaft is positioned on the upper surface of the medicine drawer, the second rolling shaft and the third rolling shaft are positioned on the lower surface of the medicine drawer, a stopping part is arranged on the lower surface of the medicine drawer, the second rolling shaft is lower than the third rolling shaft, and the stopping part is used for abutting against the third rolling shaft for limiting; adopt above-mentioned structure, three roller bearing can do benefit to more that medicine takes out smooth pull business turn over shell body, takes out the lower surface at medicine in addition and sets up backstop portion, takes out the length of deepening in the shell body to medicine and carries on spacingly to guarantee that medicine grain can be accurate fall into the inner chamber.

Furthermore, a front panel is arranged on the outer shell body and positioned on the drawing side of the medicine drawer, a groove for accommodating the drawing part of the medicine drawer and an opening for the medicine drawer to penetrate out are formed in the front panel, and the drawing part is connected with the penetrating part of the medicine drawer and is stopped by the opening; adopt above-mentioned structure, can follow the outside and operate the pull portion to by the effective resetting of trompil backstop assurance medicine pump.

Furthermore, a balancing weight is arranged below the medicine pump in the outer shell, and a gasket is arranged at the bottom of the outer shell; by adopting the structure, the arrangement of the balancing weight can keep the whole device stable in the medicine drawing process, so as to prevent the medicine drawing device from toppling; the setting of gasket can protect the shell body to prevent wearing and tearing, can also make the more firm stand of whole device at the process of getting it filled simultaneously.

Furthermore, an inward convex point is arranged on the inner side wall of the outer shell and above the medicine particle inlet of the medicine leakage, and the convex point is used for being clamped with a clamping groove of the medicine bottle mouth; by adopting the structure, the medicine bottle can be stably arranged on the medicine granule inlet, and the accurate feeding of the medicine granules is ensured.

Furthermore, the outer shell comprises a first outer shell and a second outer shell, and the first outer shell and the second outer shell are buckled with each other to form a complete outer shell; adopt the assembly and the dismantlement of the mechanism of getting it filled of assembly and inside of above-mentioned convenient shell body of above-mentioned structure.

Drawings

FIG. 1 is a schematic diagram of a Shen Yaoping dispenser.

Fig. 2 is a schematic view of the present invention showing a side-removed outer case.

Fig. 3 is a schematic view of the medicine bottle dispenser of the present application with the medicine drawer removed.

Figure 4 is a schematic cross-sectional view of the vial dispenser of the present application as it is drawn into the outer housing.

Figure 5 is a schematic cross-sectional view of the vial dispenser of the present application as it is being withdrawn from the outer housing.

Fig. 6 is a schematic view of the present application showing the vial clamping position in the vial dispenser.

Figure 7 is a schematic view of the construction of the vial dispenser assembly of the present application.

As shown in the attached drawings: 1. the medicine bottle comprises an outer shell, 11 parts of a first outer shell, 12 parts of a second outer shell, 2 parts of a medicine leakage, 21 parts of a medicine granule channel, 22 parts of a medicine granule inlet, 23 parts of a medicine granule outlet, 24 parts of an inclined surface, 3 parts of a medicine pump, 31 parts of an inner cavity, 32 parts of a top leaning part, 33 parts of a stopping part, 34 parts of a drawing part, 4 parts of a stopping piece, 5 parts of a rolling shaft, 51 parts of a first rolling shaft, 52 parts of a second rolling shaft, 53 parts of a third rolling shaft, 6 parts of a front panel, 61 parts of a groove, 62 parts of an opening hole, 7 parts of a balancing weight, 8 parts of a gasket, 9 parts of a convex point and 10 parts of a medicine bottle.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the embodiments and the accompanying drawings, and it is obvious that the described embodiments are only preferred embodiments, and not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without any creative effort belong to the protection scope of the present invention;

further, it is to be noted that: when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present, secured by way of the intervening elements. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in the accompanying drawings 1-7, the medicine bottle subpackaging device of the present application comprises an outer shell 1, a medicine funnel 2 located in the outer shell 1, a medicine granule passage 21 arranged in the medicine funnel 2, the medicine granule passage 21 comprising a medicine granule inlet 22 located above and a medicine granule outlet 23 located below, a medicine pump 3 received below the medicine granule passage 21, a blocking piece 4 arranged below the medicine funnel 2, one end of the blocking piece 4 rotatably hinged to the medicine funnel 2, the other end being a free end, and the hinged end being far away from the drawing end of the medicine pump 3 (i.e. the hinged end between the blocking piece and the medicine funnel is located inside and far away from the drawing end of the medicine pump); medicine take out 3 on be provided with the inner chamber 31 that bears the weight of the medicine grain, medicine take out 3 take out shell body 1 during, separation blade 4 by medicine take out 3 top lean on and can the shutoff medicine grain export 23 (separation blade rotates along the hinged end, is taken out the medicine gradually and takes out the jack-up, and is close to between the export or the laminating realizes the shutoff), medicine take out 3 be located shell body 1 in the time, the free end slope of separation blade 4 downwards and fall into to medicine take out 3 in the inner chamber 31 (hinged end is leaked fixedly with the medicine, only takes place circumferential direction promptly to the slope of the free end nature of separation blade is under the action of gravity in the downward entering inner chamber.

By adopting the structure, the medicine leakage, the blocking piece and the medicine pump with specific structures are arranged, and medicine particles entering from the medicine particle inlet of the medicine leakage are scratched to the medicine particle outlet through the medicine particle channel; when the medicine drawer is not drawn out of the outer shell and is positioned in the outer shell, the free end of the blocking piece falls into the inner cavity of the medicine drawer in an inclined mode to form an inclined slide way, and medicine particles at the medicine particle outlet are guided to fall into the inner cavity of the medicine drawer; then the medicine pump is pulled out from the outer shell, at the moment, along with the continuous contact of the rear end of the medicine pump and the blocking piece, under the action of the abutting force of the medicine pump, the hinged end of the blocking piece rotates in the circumferential direction, the free end is gradually close to the medicine granule outlet and finally abuts against the medicine granule outlet, so that the medicine granule outlet is blocked, and at the moment, new medicine granules cannot leak out; the distance between the free end of the medicine particles falling into the inner cavity of the medicine pump and the inner cavity is increased in the process that the medicine pump gradually pulls the outer shell, the medicine particles pass through the blocking piece to enter the inner cavity and are taken out of the outer shell together by the medicine pump and taken out by an operator, the medicine taking action of the medicine particles is finished in the process, after the medicine pump is pushed into the outer shell again, the supporting free end of the blocking piece without the medicine pump inclines downwards again to fall into the inner cavity, and the medicine particle outlet leaks again to realize medicine discharging again; therefore, the structure of the application can realize once taking the fixed medicine grains with the leakage quantity, can not cause the pollution of the medicine grains, and can control the medicine taking quantity according to the fluctuation of the baffle plate.

As shown in fig. 2, 4-5 and 7, the rear end of the medicine drawer 3 in the present application is a horizontally extending abutting portion 32, and the horizontally extending length of the abutting portion 32 is such that the medicine drawer 3 can be pulled out, and then the blocking sheet 4 is jacked up and abutted against the medicine granule outlet 23 (specifically, as shown in fig. 5, the medicine drawer is in a pulled-out state, and at this time, the blocking sheet is jacked up by the rear end of the medicine drawer to block the medicine granule outlet); the top of the rear end of the medicine extraction back end is used for jacking the separation blade, so that the separation blade can be jacked to block the outlet after the medicine extraction, and the medicine output amount is controlled.

As shown in fig. 2 and 4, when the medicine drawer 3 is located in the outer casing 1, a space is provided between the free end of the retaining piece 4 and the inner cavity 31 (i.e. when the free end is in an inclined state, a space is provided between the front end of the free end and the inner wall of the inner cavity, the free end and the inner wall are not in contact, so that medicine particles can conveniently pass through the space), and the space enables the falling medicine particles to pass over the retaining piece; adopt above-mentioned structure, need control the distance between the inner chamber inner wall that separation blade free end and medicine were taken out promptly, guarantee like this that the medicine grain that falls into can lift up the process at the separation blade and can not follow and lift up together, but can cross the separation blade and stop in the inner chamber, take out the back at medicine and conveniently get it filled.

As shown in fig. 5, when the medicine drawer 3 is located outside the outer shell 1, the medicine granule outlet 23 is completely blocked by the blocking piece 4 or a gap is formed between the two, and the gap is smaller than the outer diameter of a single medicine granule; after the blocking sheet is jacked up by medicine to block the medicine granule outlet, the blocking sheet and the medicine granule outlet can be completely blocked (the blocking sheet completely covers the medicine granule outlet) or a gap is formed between the blocking sheet and the medicine granule outlet, but the gap is not enough to enable single medicine granules to leak out again.

As shown in fig. 4, 5 and 7, the inner wall of the inner cavity 31 of the present application, which is close to the drawing end of the medicine drawer 3, is in an arc shape extending obliquely and extends obliquely downwards from the outside to the inside (the inner wall extends in an arc shape which is inclined downwards from the drawing end of the medicine drawer); adopt this structure, the medicine grain that conveniently falls into can be smooth fall into the inner chamber, and this kind of structure of extending from outer to interior slope down of the inner wall of inner chamber more importantly is taken out at the separation blade and is formed bigger and bigger interval between the process of jack-up gradually and the separation blade by the medicine for the medicine grain is kept somewhere in the inner chamber, prevents effectively that the medicine grain from following the separation blade and is jack-up.

As shown in fig. 4 and 5, an inclined surface 24 is arranged in the tablet channel 21, and the inclined surface is inclined downward from the direction away from the medicine extracting direction 3 to the medicine extracting direction (i.e. gradually inclined downward from left to right as shown in the drawings); by adopting the structure, the medicine granules can conveniently fall into the inner cavity position of the extraction end from the medicine granule channel, and medicine taking is convenient.

As shown in fig. 2-5 and 7, the upper surface and the lower surface of the medicine drawer 3 are provided with rollers 5, and the medicine drawer 3 is in rolling contact with the rollers 5; in the process of drawing the medicine pump, the contact of the medicine pump is realized by the rolling of the rolling shaft, so that the medicine pump can conveniently enter and exit the outer shell body more smoothly; the roller of this application is through setting up axle interconnect on the shell body inner wall, realize fixed and with the rolling contact that the medicine was taken out.

As shown in fig. 2-5 and 7, the roller 5 of the present application includes a first roller 51, a second roller 52 and a third roller 53; the first roller 51 is positioned on the upper surface of the medicine drawer, the second roller 52 and the third roller 53 are positioned on the lower surface of the medicine drawer, the stopping part 33 is arranged on the lower surface of the medicine drawer 3, the second roller 52 is lower than the third roller 53, and the stopping part 33 is used for being abutted against and limited by the third roller 53; the three rolling shafts are arranged at specific positions respectively, so that rolling contact on the upper surface of the medicine drawer and rolling contact on the lower surface of the medicine drawer can be realized, and the three rolling shafts can be more favorable for the smooth drawing of the medicine drawer in and out of the outer shell; the stopping part is arranged on the lower surface of the medicine drawer, and the depth length of the medicine drawer in the outer shell is limited, so that medicine granules can accurately fall into the inner cavity; the first roller bearing of this application is located the top of portion, the second roller bearing of this application is close to the end of taking out that the medicine was taken out, the third roller bearing of this application is close to the intermediate position and is used for leaning on spacingly with backstop portion.

As shown in fig. 1-3 and 7, a front panel 6 is disposed on the outer casing 1 at the drawing side of the medicine drawer 3, a groove 61 for accommodating the drawing part 34 of the medicine drawer 3 and an opening 62 for the medicine drawer 3 to penetrate out are disposed on the front panel 6, and the drawing part 34 is connected with the penetrating part of the medicine drawer 3 and is stopped by the opening 62; the front panel of the application is a frame with lateral side walls (narrow edges) and a transverse direction, wherein the lateral side walls are used for arranging openings and positioning medicine drawers, and the transverse direction is used for connecting an outer shell, fixedly connecting medicine bottles and the like; adopt above-mentioned structure, can follow the outside and operate the pull portion to by the effective resetting of trompil backstop assurance medicine pump.

As shown in fig. 2-5 and 7, a counterweight 7 is arranged below the medicine suction 3 in the outer shell 1, and a gasket 8 is arranged at the bottom of the outer shell 1; by adopting the structure, the arrangement of the balancing weight can keep the whole device stable in the medicine drawing process, so as to prevent the medicine drawing device from toppling; the arrangement of the gasket can protect the outer shell from abrasion, and meanwhile, the whole device can stand more stably in the medicine taking process; the gasket can be an anti-skid plastic pad or a felt pad and the like and is connected with the bottom of the shell body in a bonding mode and the like; the balancing weight can be provided with a plug-in groove in the outer shell and is plugged in the outer shell to realize fixation.

As shown in fig. 6 and 7, inward convex points 9 are arranged on the inner side wall of the outer shell 1 and above the medicine granule inlet 21 of the medicine funnel 2, the convex points 9 are used for being clamped with the clamping grooves of the bottle mouth of the medicine bottle 10 (namely, the medicine bottle is used for containing medicine granules, when the dispensing device is used, the medicine bottle is reversely buckled into the outer shell, the bottle mouth of the medicine bottle is provided with at least one circle of inwards concave clamping grooves, and the corresponding inward convex points are arranged on the inner wall of the outer shell and used for being clamped with the grooves, so that the medicine bottle is fixed on the outer shell; by adopting the structure, the medicine bottle can be stably arranged on the medicine granule inlet, and the accurate feeding of the medicine granules is ensured.

As shown in fig. 7, the outer shell 1 of the present application includes a first outer shell 11 and a second outer shell 12, where the first outer shell 11 and the second outer shell 12 are fastened to form a complete outer shell 1; adopt the assembly and the dismantlement of the mechanism of getting it filled of assembly and inside of above-mentioned convenient shell body of above-mentioned structure.

As an example, the inner chamber of medicine pump described in this application, after separation blade free end fell into it, the space size between separation blade to the medicine pump inner chamber (that receives the medicine grain) was for only allowing the medicine grain (one, two or three etc. set up according to the medicine grain volume of going out the medicine at every turn) of fixed granule and holds the space of entering, prevent like this that too much medicine grain from falling into the inner chamber, also can be in the medicine pump process, the medicine grain that the separation blade falls into earlier crosses after lift up the process and do not have new medicine grain and fall into the inner chamber, thereby guarantee to come out with fixed medicine grain volume at every turn.

The specific theory of operation and process of the structure of this application: firstly, the medicine leakage, the medicine suction, the blocking pieces and the like are combined and installed according to the mode shown in figure 7 to form a complete subpackaging device structure; then, the medicine bottle is placed at the position of the medicine particle inlet at the upper end of the medicine funnel in an inverted mode (the medicine bottle is fixed at the position by the convex points), the medicine particles can fall into the medicine particle channel, the medicine pump is located in the outer shell at the moment, and the free end of the blocking piece is obliquely and downwards located in the inner cavity of the medicine pump; at the moment, the medicine particles slide out from the medicine particle outlet at the lower part of the medicine particle channel and enter the inner cavity; then the medicine pump is stretched outwards, the blocking piece is jacked up by the rear end of the medicine pump along with the continuous drawing of the medicine pump, and the medicine particle outlet is blocked; the medicine particles falling into the inner cavity are drawn out of the outer shell body for picking up; then the medicine pump is pushed into the outer shell, at the moment, the rear end of the medicine pump is separated from the support of the baffle, the free end of the baffle inclines downwards again to enter the inner cavity, the medicine particle outlet is opened, and new medicine particles fall down; the actions are repeated to realize the actions of distributing and taking out the medicines; the above-mentioned structure of this application can not cause the unnecessary condition of pouring out still need repacking of medicine grain to the pollution problem of medicine has just also effectively been avoided.

Claims (12)

1. A medicine bottle split charging device is characterized in that: the structure comprises an outer shell (1) and a medicine funnel (2) positioned in the outer shell (1), wherein a medicine particle channel (21) is arranged in the medicine funnel (2), and the medicine particle channel (21) comprises a medicine particle inlet (22) positioned above and a medicine particle outlet (23) positioned below; a medicine pump (3) is received below the medicine particle channel (21), a blocking piece (4) is arranged at the lower part of the medicine filter (2), one end of the blocking piece (4) is rotatably hinged with the medicine filter (2), the other end of the blocking piece is a free end, and the hinged end is far away from the pumping end of the medicine pump (3); the medicine is taken out (3) on be provided with inner chamber (31) that bears the weight of the medicine grain, medicine take out (3) take out the shell body when, separation blade (4) by medicine take out (3) top lean on and can the shutoff medicine grain export (23), medicine take out (3) be located shell body (1) when the free end slope of separation blade (4) downwards and fall into to medicine take out in inner chamber (31) of (3).

2. A vial dispenser according to claim 1, wherein: the rear end of medicine take out (3) for being the top that horizontal extension leans on portion (32), and the horizontal extension length of top leaning on portion (32) for enabling the medicine take out (3) take out the back, with separation blade (4) jack-up and with medicine grain export (23) support and lean on.

3. A vial dispenser according to claim 1, wherein: when the medicine pump (3) is positioned in the outer shell (1), the free end of the baffle plate (4) and the inner cavity (31) are separated by a distance, and the falling medicine particles can cross the baffle plate (4) by the distance.

4. A vial dispenser according to claim 1, wherein: when the medicine pump (3) is positioned outside the outer shell (1), the medicine particle outlet (23) is completely blocked by the baffle sheet (4) or a gap is formed between the medicine particle outlet and the baffle sheet (4), and the gap is smaller than the outer diameter of a single medicine particle.

5. A vial dispenser according to claim 1, wherein: the inner wall of the inner cavity (31) close to the extraction end of the medicine extractor (3) is in an arc shape extending obliquely and extends obliquely downwards from outside to inside.

6. A vial dispenser according to claim 1, wherein: an inclined surface (24) is arranged in the medicine granule channel (21), and the inclined surface (24) is arranged downwards in an inclined mode from a direction far away from the medicine drawing direction to the medicine drawing direction.

7. A vial dispenser according to claim 1, wherein: the upper surface and the lower surface of the medicine drawer (3) are provided with rolling shafts (5), and the medicine drawer (3) is in rolling contact with the rolling shafts (5).

8. A vial dispenser according to claim 7, wherein: the roller (5) comprises a first roller (51), a second roller (52) and a third roller (53); the medicine box is characterized in that the first rolling shaft (51) is located on the upper surface of the medicine drawer (3), the second rolling shaft (52) and the third rolling shaft (53) are located on the lower surface of the medicine drawer (3), a stopping part (33) is arranged on the lower surface of the medicine drawer (3), the second rolling shaft (52) is lower than the third rolling shaft (53), and the stopping part (33) is used for abutting against and limiting the third rolling shaft (53).

9. A vial dispenser according to claim 7, wherein: the utility model discloses a medicine taking device, including shell body (1), front panel (6) are provided with to lie in the side of taking out that medicine was taken out (3) on shell body (1), front panel (6) on be provided with recess (61) that the holding medicine was taken out (3) pull portion (34) and be used for medicine to take out trompil (62) that (3) were worn out, pull portion (34) with the medicine take out the portion of wearing out of (3) be connected and by trompil (62) backstop.

10. A vial dispenser according to claim 1, wherein: the medicine pump is characterized in that a balancing weight (7) is arranged below the medicine pump (3) in the outer shell (1), and a gasket (8) is arranged at the bottom of the outer shell (1).

11. A vial dispenser according to claim 1, wherein: the inner side wall of the outer shell (1) and the upper part of a medicine particle inlet (22) positioned on the medicine funnel (2) are provided with inward convex points (9), and the convex points (9) are used for being clamped with a clamping groove of the mouth of the medicine bottle (10).

12. A vial dispenser according to claim 1, wherein: the outer shell (1) comprises a first outer shell (11) and a second outer shell (12), wherein the first outer shell (11) and the second outer shell (12) are buckled with each other to form a complete outer shell.

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