CN114313561B - Medicine split packing box for neurology - Google Patents

Abstract

The invention belongs to the technical field of medicine storage tools, and particularly relates to a medicine dispensing box for neurology, which comprises a rotating box, a fixed box, a partition plate, a protective cover, a circular ring, a medicine outlet mechanism and a medicine receiving box; the rotating box is divided into a plurality of chambers by the partition plate, medicines are stored in different chambers according to the types of the medicines, the medicines in the chambers flow out to the inner space of the ring along the medicine outlet mechanism and flow into the medicine receiving box through the ring, and then the medicines in the medicine receiving box are taken out to a patient by an operator for administration.

Description

Medicine split packing box for neurology

Technical Field

The invention belongs to the technical field of medicine storage tools, and particularly relates to a medicine split charging box for neurology.

Background

At present, a plurality of medicine split charging boxes are available in the market, such as an intelligent medicine split charging box and a portable medicine split charging box, the intelligent medicine has complete functions, but the manufacturing cost is high, and the medicine split charging box is inconvenient to carry; although the portable medicine split charging box is convenient to carry, in the using process of the portable medicine split charging box, the dose of each time of taking by a medicine installation patient needs to be mixed and placed in the same space in advance, different medicines are mixed and placed together for a long time, mutual pollution is easily caused, the quality of the medicines is further influenced, and meanwhile, the mutual pollution among the medicines is more easily caused when the different medicines are stored in the same container, and the treatment effect of the medicines is further influenced; some medicine partial shipment boxes still, though can deposit according to the medicine kind, when the patient need take the medicine, open medicine partial shipment box's lid, the inside medicine of medicine partial shipment box can all expose in the air, and the dust in the air is very easily adhered with the bacterium and follows the medicine on the medicine surface and get into the patient internal, influences patient healthy.

In view of the above, a need exists for a drug dispensing box for neurology that solves the above problems.

Disclosure of Invention

In order to make up for the defects of the prior art, solve the problems that various medicines can be conveniently carried and can be placed according to the types of the medicines, and avoid the problem that the medicine effect is influenced because the medicines are mixed and placed together for a long time, the invention provides the medicine split charging box for the neurology department.

The technical scheme adopted by the invention for solving the technical problems is as follows: the medicine split charging box for the neurology comprises a rotating box and a protective cover, wherein the rotating box is in a cylindrical structural design, the inside of the rotating box is fixedly connected with uniformly arranged partition plates, the partition plates divide the inside of the rotating box into a plurality of chambers uniformly for storing a plurality of medicines, the bottom of the rotating box is in a design that the middle part is thin and the two ends are thick, the protective cover is clamped on the upper surface of the rotating box, the lower surface of the protective cover is fixedly connected with uniformly arranged clamping plates, the clamping plates are used for being clamped on the tops of the partition plates, numbers are etched on the surfaces of the clamping plates, which are far away from one ends of the partition plates, and the outer surfaces of the chambers, and the numbers on the surfaces of the clamping plates are designed correspondingly to the numbers on the outer surfaces of the chambers;

the medicine dispensing box further comprises; the circular ring is hollow, is positioned in the middle of the rotating box and is rotationally connected with the rotating box, and one end, far away from the side wall of the rotating box, of the partition plate is rotationally connected with the outer surface of the circular ring;

a medicine discharging mechanism; the medicine discharging mechanism is arranged in the circular ring and is used for discharging the medicines in the inner cavity of the rotating box;

fixed box, the last sealed surface of fixed box rotate connect in the lower surface of rotating the box, the ring passes rotate box middle part one end with fixed box last fixed surface connects, the ring communicate in fixed box inner space, the draw-in groove has been seted up to the surface of fixed box, the inside sliding connection of draw-in groove connects the medicine box, ring bottom fixedly connected with goes out the pencil, it is close to connect the medicine box go out pencil one end surface seted up with go out the circular port that the pencil corresponds the design, under the initial condition go out the pencil and keep away from ring one end embedding extremely connect inside the medicine box.

Preferably, the medicine discharging mechanism comprises: the medicine outlet is formed in the outer surface of the circular ring in the rotating box and communicated with the space in the circular ring;

the bolt, ring top threaded connection in the bolt, bolt bottom lateral wall sealing sliding connection in ring inner wall surface design, the bolt bottom is the slope form design, under the initial condition bolt bottom shutoff go out the medicine mouth.

Preferably, the upper surface of the bolt is fixedly connected with a twisting block.

Preferably, reminding devices are arranged on the upper surface of the protective cover, and the number of the reminding devices is correspondingly matched with the number of the inner cavities of the rotary box; the reminding device is used for reminding the patient of the dosage of the medicine taken in each cavity every time.

Preferably, the reminding device comprises: the rotating wheel is rotatably connected to the upper surface of the protective cover, and all numbers between zero and nine are etched on the rotating surface of the rotating wheel;

the telescopic plate, the rectangular channel has been seted up to the upper surface of visor, the inside sliding connection of rectangular channel has the telescopic plate, the telescopic plate is located two of every cavity top between the runner.

Preferably, the upper surface of the protective cover is hinged with uniformly arranged protective boxes, and the protective boxes are made of transparent plastics.

The invention has the following beneficial effects:

1. the invention relates to a medicine split charging box for neurology, which is provided with a rotating box, a fixed box, a partition plate, a protective cover, a circular ring, a medicine outlet mechanism and a medicine receiving box; the rotating box is divided into a plurality of chambers by the partition plate, an operator pours the same type of medicine into the same chamber by using the medicine spoon, the medicine is stored in different chambers according to the type of the medicine, adverse reaction caused by long-time mixing and placing of the different types of medicine is effectively avoided, the upper surface of the rotating box is blocked by using the protective cover card, when a patient needs to take the medicine in the rotating box, the operator manually adjusts the medicine outlet mechanism according to the particle size of the medicine, the operator flows the medicine in the chamber into the space in the ring along the medicine outlet mechanism according to the dose of the medicine taken each time, the medicine flowing into the space in the ring flows into the medicine receiving box through the ring, then the operator provides the medicine in the medicine receiving box for the patient to take the medicine, and the operator manually closes the medicine outlet mechanism until the medicine is taken completely, the medicine receiving box has the advantages that medicines in the cavity can be effectively prevented from flowing into the medicine receiving box in the moving process, meanwhile, the probability that air enters the rotating box along the medicine outlet mechanism and contacts with the medicines can be reduced, different kinds of medicines can be placed in different cavities, the medicines are effectively prevented from being mutually polluted due to the fact that the medicines are mixed together, the medicine quality is further influenced, and the treatment effect of a patient is synchronously influenced.

2. The medicine dispensing box for the neurology department is provided with the reminding device; after operating personnel pours the medicine into the inside cavity of rotation box, use the visor shutoff to rotate the upper surface, then operating personnel is according to the dose that corresponds the inside medicine of cavity and take at every turn, manual setting reminding device, reminding device is used for reminding the dose that corresponds the inside medicine of cavity and take at every turn, avoid the medicine kind too much to lead to operating personnel to obscure the dose of taking at every turn of medicine, do not need operating personnel to remember the dose that each time was taken of all kinds of medicines deliberately, only need watch the quantity that corresponds cavity top reminding device demonstration alright know all kinds of medicines and take the dose at every turn before taking the medicine for the patient again.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a cross-sectional view of the present invention;

in the figure: the medicine taking device comprises a rotary box 1, a protective cover 11, a clamping plate 111, a protective box 112, a rotating wheel 113, an expansion plate 114, a partition plate 12, a rubber ring 13, a fixed box 2, a clamping groove 21, a medicine receiving box 22, an inclined plate 221, a circular ring 3, a bolt 31, a twisting block 32, a medicine outlet pipe 33 and a medicine outlet 34.

Detailed Description

The embodiment of the invention provides a medicine split charging box for neurology, which solves the technical problems that various medicines can be conveniently carried and can be placed according to the types of the medicines, and the medicine effect is prevented from being influenced by the fact that the medicines are mixed and placed together for a long time.

The embodiment of the invention provides a medicine split-packing box for neurology, which solves the problems and has the following general idea: the medicine taking device is provided with a rotating box, a fixed box, a partition plate, a protective cover, a circular ring, a medicine outlet mechanism and a medicine receiving box; the rotating box is divided into a plurality of chambers by the partition plate, an operator pours the same type of medicine into the same chamber by using the medicine spoon, the medicine is stored in different chambers according to the type of the medicine, adverse reaction caused by long-time mixing and placing of the different types of medicine is effectively avoided, the upper surface of the rotating box is blocked by using the protective cover card, when a patient needs to take the medicine in the rotating box, the operator manually adjusts the medicine outlet mechanism according to the particle size of the medicine, the operator flows the medicine in the chamber into the space in the ring along the medicine outlet mechanism according to the dose of the medicine taken each time, the medicine flowing into the space in the ring flows into the medicine receiving box through the ring, then the operator provides the medicine in the medicine receiving box for the patient to take the medicine, and the operator manually closes the medicine outlet mechanism until the medicine is taken completely, the medicine receiving box has the advantages that medicines of different types can be placed in different cavities, the medicines are effectively prevented from being polluted by each other due to the fact that the medicines are mixed together, the medicine quality is further influenced, the treatment effect of a patient is influenced synchronously, meanwhile, through the design of the medicine receiving box, the contact area of the medicines in the cavities and the outside air can be reduced by an operator in the medicine taking process, the probability that dust bacteria in the air are adhered to the surfaces of the medicines is reduced, and the safety of the medicines in the medicine taking process is synchronously improved.

In order to better understand the technical solution, the technical solution is described in detail below with reference to the drawings and the specific embodiments.

As shown in fig. 1 to 3, the medicine split charging box for neurology comprises a rotating box 1 and a protective cover 11, wherein the rotating box 1 is designed in a cylindrical structure, uniformly arranged partition plates 12 are fixedly connected inside the rotating box 1, the partition plates 12 uniformly divide the inside of the rotating box 1 into a plurality of chambers for storing a plurality of medicines, the bottom of the rotating box 1 is designed to be thin in the middle and thick at two ends, the protective cover 11 is clamped on the upper surface of the rotating box 1, uniformly arranged clamping plates 111 are fixedly connected to the lower surface of the protective cover 11, the clamping plates 111 are used for being clamped on the top of the partition plates 12, numbers are etched on the surfaces of the chambers and the surface of one end of the clamping plates 111, which is far away from the partition plate 12, and the numbers on the surfaces of the clamping plates 111 are designed to correspond to the numbers on the outer surfaces of the chambers;

the medicine dispensing box further comprises; the circular ring 3 is hollow, the circular ring 3 is positioned in the middle of the rotating box 1 and is rotationally connected with the rotating box 1, and one end, far away from the side wall of the rotating box 1, of the partition plate 12 is rotationally connected with the outer surface of the circular ring 3;

a medicine discharging mechanism; the medicine discharging mechanism is arranged inside the circular ring 3 and is used for discharging medicines in the cavity inside the rotating box 1;

the upper surface of the fixed box 2 is connected to the lower surface of the rotating box 1 in a sealing and rotating manner, the ring 3 penetrates through one end of the middle of the rotating box 1 and is fixedly connected with the upper surface of the fixed box 2, the ring 3 is communicated with the space in the fixed box 2, a clamping groove 21 is formed in the outer surface of the fixed box 2, a medicine receiving box 22 is connected to the inside of the clamping groove 21 in a sliding manner, a medicine outlet pipe 33 is fixedly connected to the bottom of the ring 3, a circular hole which is designed to correspond to the medicine outlet pipe 33 is formed in the surface of one end, close to the medicine outlet pipe 33, of the medicine receiving box 22, and one end, far away from the ring 3, of the medicine outlet pipe 33 is embedded into the medicine receiving box 22 in an initial state;

when the medicine taking device works, as shown in figures 1 and 3, the partition plates 12 which are uniformly arranged are fixedly connected inside the rotating box 1, so that the partition plates 12 divide the inside of the rotating box 1 into a plurality of chambers, an operator pours medicines of the same type into the same chamber by using a medicine spoon, the medicines are stored in different chambers according to the types of the medicines, adverse reactions caused by long-time mixing and placing of the medicines of different types are effectively avoided, because the middle part of the rotating box 1 is rotatably connected with the ring 3, one end of the partition plate 12, far away from the side wall of the rotating box 1, is rotatably connected with the ring 3, a medicine outlet mechanism is arranged inside the ring 3, the clamping plates 111 which are uniformly arranged are fixedly connected with the lower surface of the protective cover 11, when the operator stores all the medicines in the chambers inside the rotating box 1, the upper surface of the rotating box 1 is blocked by using the protective cover 11, the medicines in the rotating box 1 are effectively prevented from falling to the outside of the rotating box 1 in the moving process, by etching numbers on the surface of one end of the clamping plate 111 far away from the partition plate 12 and the outer surface of the cavity, the numbers on the surface of the clamping plate 111 correspond to the numbers on the outer surface of the cavity, when an operator needs to take the medicine in the rotating box 1, the medicine outlet mechanism is arranged in the ring 3 by correspondingly clamping the protective cover 11 on the upper surface of the rotating box 1 according to the numbers on the surface of the clamping plate 111 and the outer surface of the cavity, the operator rotates the rotating box 1 first to rotate the medicine storage cavity which needs to be taken by the patient to be symmetrical to the medicine outlet mechanism according to the grain size of the medicine, the operator manually adjusts the medicine outlet mechanism according to the grain size of the medicine, the bottom of the rotating box 1 is designed to be thin in the middle and thick at two ends, so that the medicine stored in the cavity in the rotating box 1 slides towards the direction of the ring 3, and the operator opens the medicine outlet mechanism according to the grain size of the medicine, the medicine in the cavity flows out to the inner space of the ring 3 along the medicine outlet mechanism, the fixed box 2 is connected to the bottom of the rotary box 1 in a rotating mode, the clamping groove 21 is formed in the outer surface of the fixed box 2, the medicine receiving box 22 is connected to the inner portion of the clamping groove 21 in a sliding mode, the medicine receiving box 22 is communicated with the ring 3 through the medicine outlet pipe 33, the medicine flowing into the inner space of the ring 3 flows into the medicine receiving box 22 through the ring 3, the medicine outlet pipe 33 and the circular hole, then the medicine receiving box 22 is taken out of the fixed box 2 by an operator, the medicine in the medicine receiving box 22 is given to a patient according to the administration dosage of the medicine every time, the medicine is provided for the patient to take, when the quantity of the medicine flowing out to the inner portion of the medicine receiving box 22 along the cavity is larger than the dosage taken by the patient every time, the operator pushes the medicine receiving box 22 to slide to the inner portion of the fixed box 2, at the moment, one end, far away from the ring 3, of the medicine outlet pipe 33 is embedded into the medicine receiving box 22 through the circular hole, then an operator turns the rotating box 1 to the upper part of the fixed box 2, so that the medicine in the medicine receiving box 22 flows into the cavity in the rotating box 1 along the circular hole, the medicine outlet pipe 33 and the medicine outlet mechanism, when a patient needs to take the medicine in other cavities, the rotating box 1 is rotated again, the corresponding cavity is rotated to the position corresponding to the medicine outlet mechanism, the medicine outlet mechanism is opened according to the diameter of the medicine particles in the cavity, then the operator turns the rotating box 1 to the upper part of the fixed box 2, so that the medicine in the cavity flows into the medicine receiving box 22, the operation is circulated in sequence, until the medicine is taken, the operator manually closes the medicine outlet mechanism, the medicine in the cavity can be effectively prevented from flowing into the medicine receiving box 22 in the moving process, meanwhile, the probability of the air entering the rotating box 1 along the medicine outlet mechanism to contact with the medicine can be reduced, the invention can place different medicines in different cavities, effectively avoid mutual pollution of the medicines caused by mixing the medicines together, further influence the quality of the medicines and synchronously influence the treatment effect of a patient, and meanwhile, through the design of the invention, an operator can reduce the contact area between the medicines in the cavities and the outside air in the medicine taking process, reduce the probability of dust bacteria in the air adhering to the surfaces of the medicines and synchronously improve the safety of the medicines in the taking process.

As an embodiment of the present invention, the medicine dispensing mechanism includes: the medicine outlet 34 is formed in the outer surface of the circular ring 3 in the rotating box 1, and the medicine outlet 34 is communicated with the space in the circular ring 3;

the top of the circular ring 3 is connected with the bolt 31 in a threaded manner, the side wall of the bottom of the bolt 31 is connected with the surface of the inner wall of the circular ring 3 in a sealing and sliding manner, the bottom of the bolt 31 is designed in an inclined manner, and the bottom of the bolt 31 blocks the medicine outlet 34 in an initial state;

during operation, as shown in fig. 3, since the outer surface of the ring 3 inside the rotating box 1 is provided with the medicine outlet 34, the medicine outlet 34 is communicated with the space inside the ring 3, and the top of the ring 3 is connected with the bolt 31 by the thread, when an operator takes medicines for a patient, the rotating box 1 rotates the medicine storage chamber required to be taken by the patient to correspond to the medicine outlet 34, the operator manually rotates the bolt 31 upwards, the opening diameter of the medicine outlet 34 is gradually enlarged in the upward movement process of the bolt 31, the operator adjusts the opening diameter of the medicine outlet 34 according to the particle size of the medicines inside the chamber, the medicines inside the chamber are poured into the space inside the ring 3 along the medicine outlet 34, and the medicines flow into the medicine receiving box 22 through the ring 3, the medicine outlet 33 and the circular hole, so as to avoid that the medicines inside the chamber completely flow into the medicine receiving box 22 along the medicine outlet 34 due to the overlarge diameter of the medicine outlet 34, when the amount of the medicine flowing out of the chamber interior to the interior of the drug receiving cassette 22 is greater than the dose taken by the patient each time, the operator pushes the drug receiving cassette 22, so that the medicine receiving box 22 slides to the inside of the fixing box 2, at this time, one end of the medicine outlet pipe 33 far away from the circular ring 3 is embedded into the medicine receiving box 22 through the circular hole, then the operator turns the rotating box 1 over the fixed box 2, and then the bottom of the bolt 31 is designed to be inclined, so that the medicine in the medicine receiving box 22 smoothly flows into the chamber in the rotating box 1 along the circular hole, the medicine outlet pipe 33 and the ring 3, thereby effectively avoiding the medicine remaining in the space in the ring 3, through the design of a medicine discharging mechanism, an operator can reduce the contact area between medicines in the cavity inside the rotating box 1 and the outside air in the medicine taking process, the probability of adhesion of dust and bacteria in the air on the surfaces of the medicines is reduced, and the safety of the medicines in the taking process is synchronously improved.

As an embodiment of the present invention, a torsion block 32 is fixedly connected to an upper surface of the bolt 31;

during operation, as shown in fig. 1 and 2, in order to facilitate the rotation of the bolt 31 by the operator, the upper surface of the bolt 31 is fixedly connected with the twisting block 32, when the opening diameter of the medicine outlet 34 needs to be adjusted by rotating the bolt 31, the operator can drive the bolt 31 to move only by rotating the twisting block 32, so that the size of the opening diameter of the medicine outlet 34 can be adjusted, and the bolt 31 is convenient to rotate by the operator.

As an embodiment of the present invention, the protective cover 11 has reminding devices mounted on its upper surface, and the number of the reminding devices is designed to match the number of the internal cavities of the rotating box 1; the reminding device is used for reminding the patient of the dosage of the medicine in each cavity taken each time;

during operation, as shown in fig. 1 and 2, a reminding device is mounted on the upper surface of the protective cover 11, the number of the reminding device is designed to be matched with the number of the cavities in the rotating box 1 correspondingly, after an operator pours medicines into the cavities in the rotating box 1, the protective cover 11 is used for sealing the rotating upper surface, the serial number on the surface of the clamping plate 111 is designed to correspond to the serial number on the outer surface of the cavity, the operator clamps the protective cover 11 on the upper surface of the rotating box 1 correspondingly according to the serial numbers on the surface of the clamping plate 111 and the outer surface of the cavity in the process of sealing the upper surface of the rotating box 1, then the operator sets the reminding device manually according to the dosage of each time of taking medicines in the corresponding cavity, the reminding device is used for reminding the dosage of each time of taking medicines in the corresponding cavity, the phenomenon that the operator is confused by too many kinds of medicines and takes the dosage of each time is avoided, the operator does not need to remember the dosage of each time that the medicines are taken by the operator intentionally, before the medicines are taken by the patient, the dosage of each kind of medicines taken at each time can be known only by watching the quantity displayed by the reminding device above the corresponding cavity.

As an embodiment of the present invention, the reminder device includes: the rotating wheel 113 is rotatably connected to the upper surface of the protective cover 11, and all numbers between zero and nine are etched on the rotating surface of the rotating wheel 113;

a rectangular groove is formed in the upper surface of the protective cover 11, the telescopic plate 114 is connected to the inside of the rectangular groove in a sliding manner, and the telescopic plate 114 is located between the two rotating wheels 113 above each chamber;

when the medicine packaging box is in operation, as shown in fig. 1 and fig. 2, the rotating wheels 113 are rotatably connected to the upper surface of the protective cover 11, all numbers between zero and nine are etched on the rotating surfaces of the rotating wheels 113, two rotating wheels 113 are installed above each cavity, after an operator pours medicines into the cavities in the rotating box 1, the upper surface of the rotating box 1 is blocked by the protective cover 11, through the design that the serial number of the surface of the clamping plate 111 corresponds to the serial number of the outer surface of the cavity, in the process of blocking the upper surface of the rotating box 1, the operator correspondingly blocks the protective cover 11 on the upper surface of the rotating box 1 according to the serial numbers of the surface of the clamping plate 111 and the outer surface of the cavity, then according to the dose of the medicines in the corresponding cavity, the operator manually sets the number of the rotating surface of the roller above the corresponding cavity to the dose number of the medicines in the cavity for each time, when part of the medicines need to be taken for a plurality of times, through having seted up the rectangular channel at protecting cover 11 upper surface, the inside sliding connection of rectangular channel has expansion plate 114, pull out expansion plate 114 along the rectangular channel, then to be located the left side runner 113 that corresponds the cavity top and set for the figure and take several times for a right side runner 113 number according to a medicine one minute and set for, thereby can remind operating personnel medicine taking dosage, when operating personnel need take the medicine for the patient, just can know the dosage that corresponds the inside medicine of cavity and take at every turn through looking over the figure that the gyro wheel set for on the surface, avoid obscuring the dosage of taking at every turn of medicine because of the too much operating personnel that leads to of medicine kind, cause the patient to take the medicine and excessively influence patient healthy.

As an embodiment of the present invention, the upper surface of the protection cover 11 is hinged with uniformly arranged protection boxes 112, and the protection boxes 112 are made of transparent plastics;

in operation, as shown in fig. 1 and 2, to avoid the operator from accidentally touching the numbers on the surface of the wheel 113 during use of the rotating cartridge 1, by hinging the protection boxes 112 uniformly arranged on the upper surface of the protection cover 11, the rotating wheel 113 is positioned inside the protection boxes 112, when the operator sets each dose of medicine inside the corresponding chamber, the protective box 112 is opened manually, then, the dosage of the medicine in the corresponding cavity is set, after the setting is finished, the protective box 112 is closed, thereby effectively avoiding the situation that the operator touches the rotating wheel 113 by mistake in the process of using the rotating box 1, which causes the change of the number set on the surface of the rotating wheel 113, the protective box 112 is made of transparent plastic, even if the protective box 112 is in the closed state, the operator can also observe the numbers set on the surface of the rollers inside the protective box 112, and take the medicine according to the set dosage of the medicine inside the corresponding cavity each time.

As an embodiment of the present invention, a rubber ring 13 is fixedly connected to an inner wall of the rotating box 1, and the rubber ring 13 is located above the partition plate 12 and is correspondingly designed to match with the protective cover 11;

in operation, as shown in fig. 3, for improving the sealing performance of rotating the inside of box 1, through rotating box 1 inner wall fixedly connected with rubber circle 13, rubber circle 13 corresponds the matching design with visor 11, when operating personnel used visor 11 shutoff to rotate box 1 upper surface, visor 11 lower surface bellying joint in the groove of rubber ring, thereby can effectively improve visor 11 and rotate the sealing performance between the box 1, reduce the air inflow that rotates box 1 outer space to rotate box 1 inner space and the medicine contact of rotating box 1 inner space, in step, reduce the dust bacterium adhesion probability on the medicine surface of air and medicine in the contact process air, and then improve the security performance that rotates the inside medicine of box 1 and deposit.

In one embodiment of the present invention, the medicine outlet tube 33 is designed to be inclined as a whole;

during operation, as shown in fig. 3, for avoiding rotating the medicine in the inside cavity of box 1 and falling into in the twinkling of an eye along a medicine mouth 34 and connect medicine box 22 inside, wholly be the design of slope form through a pencil 33, rotate the inside medicine of box 1 and flow into 3 inner spaces of ring along a medicine mouth 34, the medicine of 3 inner spaces of ring is followed and is followed the landing of a pencil 33 inner wall to connect medicine box 22 inner space, thereby can effectively avoid rotating the inside medicine of box 1 and directly drop to connect medicine box 22 inside along a medicine mouth 34, it leads to the medicine damage to reduce the medicine to drop in the twinkling of an eye under the effect of the inside impact force of medicine box 22, thereby influence the normal taking of patient.

As an embodiment of the present invention, an inclined plate 221 is fixedly connected inside the drug receiving box 22, one end of the inclined plate 221, which is close to the drug outlet tube 33, is thick, and the other end of the inclined plate 221, which is far from the drug outlet tube 33, is thin, and the drug receiving box 22 is made of transparent material;

during operation, as shown in fig. 3, through the inside fixedly connected with swash plate 221 of box 22 that connects, the medicine that flows out along play pencil 33 flows into the upper surface of swash plate 221 first, rethread swash plate 221 is close to the design that play pencil 33 one end is thick to keep away from a pencil 33 one end thin for the medicine that falls into to the swash plate 221 upper surface is direct to be followed the direct landing of swash plate 221 to the one end that connects box 22 to be close to fixed box 2 lateral wall, the operating personnel of being convenient for looks over and connects whether the quantity of the inside medicine of box 22 is unanimous with the medicine quantity that runner 113 set for.

As an embodiment of the invention, all parts of the medicine dispensing box are made of food-grade PP transparent materials;

the during operation, all use food level PP transparent material to make through the spare part of medicine partial shipment box and form, utilize the nontoxic, the quality of PP material is slim and graceful and not absorbent characteristic, can make the long-time safe deposit of medicine inside the medicine partial shipment box.

The specific operation flow is as follows:

the partition plate 12 equally divides the inside of the rotating box 1 into a plurality of chambers, an operator pours the medicines of the same kind into the same chamber by using the medicine spoon, when the operator stores all the medicines in the chambers in the rotating box 1, the upper surface of the rotating box 1 is blocked by using the protective cover 11, the protective cover 11 is clamped on the upper surface of the rotating box 1 according to the number correspondence between the surface of the clamping plate 111 and the outer surface of the chamber in the process of blocking the upper surface of the rotating box 1, when the patient needs to take the medicines in the rotating box 1, the operator firstly rotates the rotating box 1 to rotate the medicine storage chamber needed to be taken by the patient to be symmetrical to the medicine discharging mechanism, the operator manually adjusts the medicine discharging mechanism according to the grain size of the medicines, and because the bottom of the rotating box 1 is designed to be thin at the middle part and thick at the two ends, the medicines stored in the chambers in the rotating box 1 slide towards the direction of the ring 3, an operator opens the medicine discharging mechanism according to the particle size of the medicine, so that the medicine in the cavity flows out to the inner space of the ring 3 along the medicine discharging mechanism, the bottom of the rotating box 1 is rotatably connected with the fixed box 2, the clamping groove 21 is formed in the outer surface of the fixed box 2, the medicine receiving box 22 is slidably connected in the clamping groove 21, the medicine receiving box 22 is communicated with the ring 3 through the medicine discharging pipe 33, the medicine flowing into the inner space of the ring 3 flows into the medicine receiving box 22 through the ring 3, the medicine discharging pipe 33 and the circular hole, then the operator takes the medicine receiving box 22 out of the fixed box 2, the medicine in the medicine receiving box 22 is given to the patient according to the administration dosage of the medicine every time for the patient to take, when the quantity of the medicine flowing out to the inside of the medicine receiving box 22 along the cavity is larger than the dosage taken by the patient every time, the operator pushes the medicine receiving box 22, so that the medicine receiving box 22 slides to the inside the fixed box 2, at the moment, one end of the medicine outlet pipe 33 far away from the circular ring 3 is embedded into the medicine receiving box 22 through a circular hole, then the operator turns the rotating box 1 over the fixed box 2, so that the medicine in the medicine receiving box 22 flows into the chamber in the rotating box 1 along the circular hole, the medicine outlet pipe 33 and the medicine outlet mechanism, when the patient needs to take the medicines in other cavities, the rotating box 1 is rotated again, the corresponding cavity is rotated to the position corresponding to the medicine discharging mechanism, the medicine discharging mechanism is opened according to the diameter of the medicine particles in the cavity, then the operator turns the rotating box 1 over the fixed box 2, so that the medicine in the cavity flows into the medicine receiving box 22, the operation is circulated in sequence until the medicine is taken, the operator manually closes the drug discharge mechanism, which effectively prevents the drug inside the chamber from flowing into the drug receiving box 22 during the movement.

When an operator takes medicines for a patient, the rotary rotating box 1 rotates a medicine storage cavity which needs to be taken by the patient to correspond to the medicine outlet 34, the operator manually rotates the bolt 31 upwards, the opening diameter of the medicine outlet 34 is gradually enlarged in the upward movement process of the bolt 31, the operator adjusts the opening diameter of the medicine outlet 34 according to the particle size of the medicines in the cavity, the medicines in the cavity are poured into the space in the ring 3 along the medicine outlet 34, the medicines flow into the medicine receiving box 22 through the ring 3, the medicine outlet pipe 33 and the circular hole, the situation that the medicines in the cavity all flow into the medicine receiving box 22 along the medicine outlet 34 due to the fact that the diameter of the medicine outlet 34 is too large is avoided, when the quantity of the medicines flowing out of the cavity into the medicine receiving box 22 is larger than the dosage taken by the patient each time, the operator pushes the medicine receiving box 22 to enable the medicine receiving box 22 to slide into the fixed box 2, at this moment, go out pencil 33 and keep away from 3 one ends of ring and pass through the circular port embedding to connect medicine box 22 inside, then operating personnel will rotate box 1 upset to the top of fixed box 2, and rethread bolt 31 bottom is the design of slope form for the medicine that is located to connect medicine box 22 inside smoothly flows into to rotating the inside cavity of box 1 along circular port, play pencil 33 and ring 3.

By fixedly connecting the twisting block 32 on the upper surface of the bolt 31, when the bolt 31 needs to be rotated to adjust the opening diameter of the medicine outlet 34, an operator can adjust the bolt 31 to move only by rotating the twisting block 32.

When an operator pours medicines into a cavity inside the rotating box 1, the protective cover 11 is used for sealing and rotating the upper surface, the serial number on the surface of the clamping plate 111 corresponds to the serial number on the outer surface of the cavity, the operator clamps and connects the protective cover 11 on the upper surface of the rotating box 1 according to the serial number on the surface of the clamping plate 111 and the serial number on the outer surface of the cavity in the process of sealing and rotating the upper surface of the box 1, then the operator manually sets the number of the rotating surface of the idler wheel above the corresponding cavity to be consistent with the number of the medicine taken in the cavity each time according to the dose of the medicine taken in each time inside the corresponding cavity, when part of the medicines need to be taken for a plurality of times, the upper surface of the protective cover 11 is provided with a rectangular groove, the telescopic plate 114 is connected inside the rectangular groove in a sliding manner, the telescopic plate 114 is pulled out along the rectangular groove, then the left side rotating wheel 113 above the corresponding cavity is set as the number of a right side rotating wheel 113, and the medicines are taken for a plurality of times, thereby being capable of reminding the operator of taking the dosage of the medicine.

When an operator sets the dose of the medicine in the corresponding cavity for each time, the protective box 112 is manually opened, then the dose of the medicine in the corresponding cavity for each time is set, after the setting is finished, the protective box 112 is closed, thereby effectively preventing the operator from mistakenly contacting the rotating wheel 113 in the process of using the rotating box 1, and causing the number set on the surface of the rotating wheel 113 to change, the protective box 112 is made of transparent plastic, even if the protective box 112 is in a closed state, the operator can also observe the number set on the surface of the roller in the protective box 112, and the medicine is taken according to the set dose of the medicine in the corresponding cavity for each time.

Through rotating 1 inner wall fixedly connected with rubber circle 13 of box, rubber circle 13 and visor 11 correspond the matching design, when operating personnel used 11 shutoff of visor to rotate 1 upper surfaces of box, 11 lower surfaces of visor arch joint in the groove of rubber ring department to can effectively improve visor 11 and rotate the sealing performance between the box 1.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. A medicine split charging box for neurology comprises a rotating box (1) and a protective cover (11), the rotating box (1) is designed to be a cylindrical structure, the inner part of the rotating box (1) is fixedly connected with uniformly arranged partition boards (12), the partition plates (12) divide the interior of the rotating box (1) into a plurality of chambers uniformly for storing a plurality of medicines, the bottom of the rotating box (1) is designed to be thin in the middle and thick at two ends, the protective cover (11) is clamped on the upper surface of the rotating box (1), the lower surface of the protective cover (11) is fixedly connected with clamping plates (111) which are uniformly arranged, the clamping plate (111) is used for being clamped at the top of the partition plate (12), the surface of one end of the clamping plate (111) far away from the partition plate (12) and the outer surface of the cavity are both etched with numbers, the number of the surface of the clamping plate (111) is designed to correspond to the number of the outer surface of the cavity; the method is characterized in that: the medicine dispensing box further comprises;

the circular ring (3) is in a hollow design, the circular ring (3) is positioned in the middle of the rotating box (1) and is rotationally connected with the rotating box (1), and one end, far away from the side wall of the rotating box (1), of the partition plate (12) is rotationally connected with the outer surface of the circular ring (3);

a medicine discharging mechanism; the medicine discharging mechanism is arranged inside the circular ring (3) and is used for discharging medicines in the inner cavity of the rotating box (1);

the medicine receiving box comprises a fixed box (2), wherein the upper surface of the fixed box (2) is connected to the lower surface of a rotating box (1) in a sealing and rotating mode, a circular ring (3) penetrates through one end of the middle of the rotating box (1) and is fixedly connected with the upper surface of the fixed box (2), the circular ring (3) is communicated with the space in the fixed box (2), a clamping groove (21) is formed in the outer surface of the fixed box (2), a medicine receiving box (22) is connected to the inside of the clamping groove (21) in a sliding mode, a medicine outlet pipe (33) is fixedly connected to the bottom of the circular ring (3), a circular hole which is designed corresponding to the medicine outlet pipe (33) is formed in the surface of one end, close to the medicine outlet pipe (33), of the medicine outlet pipe (33), far away from the circular ring (3), and is embedded into the medicine receiving box (22) in an initial state;

the mechanism that goes out medicine includes:

the medicine outlet (34) is formed in the outer surface of the circular ring (3) in the rotating box (1), and the medicine outlet (34) is communicated with the space in the circular ring (3);

bolt (31), ring (3) top threaded connection in bolt (31), bolt (31) bottom lateral wall sealing sliding connection in ring (3) inner wall surface design, bolt (31) bottom is the design of slope form, under the initial condition bolt (31) bottom shutoff go out medicine mouth (34).

2. The medicine split charging box for neurology department according to claim 1, wherein the medicine split charging box comprises: the upper surface of the bolt (31) is fixedly connected with a twisting block (32).

3. The medicine dispensing box for neurology department according to claim 1, wherein: reminding devices are arranged on the upper surface of the protective cover (11), and the number of the reminding devices is correspondingly matched with the number of the inner cavities of the rotating box (1); the reminding device is used for reminding the patient of the dosage of the medicine taken in each cavity every time.

4. A drug dispensing box for neurology department according to claim 3, wherein: the reminding device comprises:

the rotating wheel (113) is rotatably connected to the upper surface of the protective cover (11), and all numbers between zero and nine are etched on the rotating surface of the rotating wheel (113);

the telescopic plate (114), the rectangular channel has been seted up to the upper surface of visor (11), the inside sliding connection of rectangular channel has telescopic plate (114), telescopic plate (114) are located two of every cavity top between runner (113).

5. The medicine split charging box for neurology department according to claim 4, wherein the medicine split charging box comprises: the upper surface of the protective cover (11) is hinged with protective boxes (112) which are uniformly arranged, and the protective boxes (112) are made of transparent plastics.

6. The medicine split charging box for neurology department according to claim 1, wherein the medicine split charging box comprises: rotate box (1) inner wall fixedly connected with rubber circle (13), rubber circle (13) are located the top of baffle (12) with visor (11) correspond the matching design.

7. The medicine split charging box for neurology department according to claim 1, wherein the medicine split charging box comprises: the medicine outlet pipe (33) is integrally designed in an inclined shape.

8. The medicine dispensing box for neurology department according to claim 1, wherein: the medicine receiving box (22) is internally and fixedly connected with an inclined plate (221), the inclined plate (221) is close to one end of the medicine outlet pipe (33) and is thick and far away from one end of the medicine outlet pipe (33) and is thin, and the medicine receiving box (22) is made of transparent materials.

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