KR20140049433A - Dispensing box for blister packaging drug - Google Patents

Abstract

A dispensing box for blister-packed drug according to one embodiment of the present invention includes: drug accommodation units which has an accommodation space for separately accommodating a plurality of blister-packed drugs and are arranged in at least one row; and a location movement unit which is coupled to the drug accommodation units and moves the drug accommodation units. The drug accommodation units divides the accommodation space and may include a rotary wall to dispense blister-packed drug.

Description

Dispensing box for blister packaging drug

The present invention relates to a blister packaged drug delivery box, and more particularly, to a blister packaged drug delivery box for improving the accuracy of drug delivery and maximizing efficiency in dispensing the blister packaged drug.

In general, a single-dose medication according to a patient's prescription may include various kinds and forms of medicines, and a medication for a single dose will be delivered to the patient in a basket.

A variety of medicines to be contained in one basket are collected from a box containing each medicament into one basket according to the type and number of the medicines described in the patient's prescription and the basket in which the medicines are collected is delivered to the patient, You will take the medicines collected in the basket.

Meanwhile, in order to collect various medicines in one basket, conventionally, a medicine specialist such as a pharmacist needed to manually select and contain medicines according to a patient's prescription. It was necessary.

This is difficult to guarantee the correctness of medication and always implies the possibility of causing a weakening accident. In addition, as well as the possibility of weakening accidents, the collection process itself is complicated, so it takes a long time to collect the drug in accordance with the prescription of the patient, causing a problem that the work efficiency is reduced.

For this reason, it is necessary to study methods and techniques for improving the accuracy and efficiency in collecting medicines for one dose according to the patient's prescription, thereby providing convenience to users such as pharmacists and preventing weakening accidents in advance Do.

It is an object of the present invention to provide a blister packaging medication dispensing box which allows the blister packaging medication to be dispensed accurately according to a patient's prescription, thereby improving the accuracy of dispensing the medication and at the same time improving the efficiency of the operation.

The blister packaging medicine dispensing box according to an embodiment of the present invention includes an accommodation space accommodating a plurality of blister packaging drugs, each of which is disposed in at least one row; And a position moving part which is engaged with the drug receiving part and moves the drug receiving part, wherein the drug receiving part partitions the accommodation space, and may include a rotatable wall for dispensing the blister packaging medicine. .

The pivoting wall of the blister packaging medicine dispensing box according to an embodiment of the present invention may be rotated when the drug accommodating part is disposed at a predetermined position by the position moving part.

The pivot wall of the blister packaging drug delivery box according to an embodiment of the present invention may be rotated by gravity due to the weight of the pivot wall based on the pivot axis.

The position shifting portion of the blister packaging drug delivery box according to an embodiment of the present invention is wound around two or more rotational shafts and the two or more rotational shafts so that the position of the medicine accommodation portion can be changed in an infinite track by rotation of the two or more rotational shafts. A rail part can be provided.

The position shifting portion of the blister packaging medicine dispensing box according to an embodiment of the present invention may be moved back to its original position after moving the medicine container by rotation.

Dispensing of the blister packaging agent by rotating the pivoting wall of the blister packaging agent dispensing box according to an embodiment of the present invention may be implemented while passing through any one of the at least two rotation shafts.

The drug receiving portion of the blister packaging medicine dispensing box according to an embodiment of the present invention has a bottom wall is fastened to the rail and the blister packaging medicine is seated, the rotating wall is one corner of the bottom wall It can be rotated by the rotating shaft.

A predetermined region of the bottom wall of the blister packaging medicine dispensing box according to an embodiment of the present invention may be spaced apart from the rail part while passing through at least one of the two or more rotating shafts.

The drug receiving portion of the blister packaging drug delivery box according to an embodiment of the present invention is arranged in at least two rows, it may be arranged symmetrically to each other based on the boundary of each row.

The drug receiving portion of the blister packaged drug delivery box according to an embodiment of the present invention, and the drug receiving portion of the column adjacent to the drug receiving portion may be provided with a boundary wall for partitioning each receiving space to set a boundary.

The rotation wall of the blister packaging drug delivery box according to an embodiment of the present invention may be in contact with the boundary wall to block the rotation into the accommodation space.

The drug receiving portion of the blister packaging drug delivery box according to an embodiment of the present invention, and the drug receiving portion of the column adjacent to the drug receiving portion may simultaneously dispense the blister packaging medicine.

The blister packaging medicine dispensing box according to an embodiment of the present invention is disposed in the moving direction of the drug accommodating portion dispensing unit for dispensing the blister packaging medications dispensed from the drug accommodating portion one by one; Can be.

The dispensing portion of the blister packaging medicine dispensing box according to an embodiment of the present invention from the storage unit and the storage unit for temporarily storing the blister packaging medications simultaneously discharged from the drug receiving unit constituting each row It may be provided with an opening and closing portion for dispensing blister packaging medicaments one by one.

The dispensing portion of the blister packaging medicine dispensing box according to an embodiment of the present invention is formed to correspond to the chemical accommodating portion constituting each row, the opening and closing portion corresponding to the chemical accommodating portion constituting one row The storage unit other than the storage unit can be blocked from the outside.

The opening and closing portion of the blister packaging medicine dispensing box according to an embodiment of the present invention, when the blister packaging medicine is discharged to the outside from the unblocked storage unit, one of the blocked storage unit may be in communication with the outside.

Blister packaging drug delivery box according to an embodiment of the present invention may further include an opening and closing power providing unit for providing power for opening and closing the opening and closing portion.

The opening and closing portion of the blister packaging drug delivery box according to an embodiment of the present invention may be opened and closed in the vertical direction by the power by the opening and closing power providing unit.

The blister packaging medicine dispensing box according to an embodiment of the present invention further includes a non-power-off providing unit for providing power for the position movement of the drug-receiving unit by the position moving unit; And power by the opening and closing power providing unit may be different.

The blister packaging medicine dispensing box according to an embodiment of the present invention may further include a dispensing power providing unit for providing power for the position movement of the drug accommodating unit by the position moving unit.

The blister packaging medicine dispensing box according to an embodiment of the present invention is fastened to the position moving unit is a non-power transmission unit for receiving the power by the dissipation power providing unit to be interlocked with the power providing unit; Can be.

The blister packaging medicine dispensing box according to an embodiment of the present invention may further include a dispensing power medium disposed to be engaged between the dispensing power providing unit and the discharging power transmitting unit to mediate the power transmission.

The dispensing power providing unit, the dispensing power mediating unit and the dispensing power transmitting unit of the blister packaging medicine dispensing box according to an embodiment of the present invention may be a spur gear.

The blister packaging medicine dispensing box according to an embodiment of the present invention may further include a movement blocking unit which contacts the dispensing power medium and blocks the movement of the drug accommodating unit by the position moving unit.

The blister packaging drug delivery box according to an embodiment of the present invention is fastened so as to be rotatable from the main body so that the drug receiving portion, the position shifting portion and the dispensing portion are disposed in the main body portion and the drug receiving portion to be exposed to the outside. Rotating portion; further comprising, a locking portion for determining whether to rotate the rotating portion; may further include a.

The pivot wall of the blister packaging drug delivery box according to an embodiment of the present invention may include at least one friction reducing part protruding to reduce frictional force with the blister packaging drug during rotation.

The friction reducing part of the blister packaging medicine dispensing box according to an embodiment of the present invention may be continuously formed along the dispensing direction of the blister packaging medicine.

According to the blister packaging medicine dispensing box according to the present invention, it is possible to accurately dispense blister packaging medication according to a patient's prescription to improve the accuracy of dispensing the medication and at the same time improve the work efficiency.

In addition, since the dispensing of the blister medicine can be easily implemented by the movement of the drug receiving portion, the configuration can be simplified.

In addition, when the blister packaging medicine is added, the blister packaging medicine can be prevented from being caught by other components, so that the blister packaging medicine can be accurately introduced into the drug receiving portion.

1 is a schematic perspective view showing a blister packaging drug delivery box according to an embodiment of the present invention.
Figure 2 is a schematic perspective view showing a state in which the rotating part provided in the blister packaging drug delivery box according to an embodiment of the present invention is rotated from the main body portion.
3 and 4 are schematic perspective views for explaining the principle that the rotating part provided in the blister packaging drug delivery box according to an embodiment of the present invention is rotated from the main body.
FIG. 5 is a schematic perspective view illustrating a blister packaging medicine being dispensed from the first row of medicine accommodating parts provided in the blister packaging medicine dispensing box according to an embodiment of the present invention. FIG.
6 is an internal configuration diagram for explaining a state in which blister packaging medicines are dispensed from the first row of medicine receiving portions provided in the blister packaging medicines dispensing box according to an embodiment of the present invention.
7 and 8 are the internal configuration shown by omitting the dispensing portion to explain the principle of dispensing the blister packaging medicament from the first row of drug receiving portion provided in the blister packaging medicament delivery box according to an embodiment of the present invention Degree.
FIG. 9 is a schematic perspective view illustrating a blister packaging medicine being dispensed from the second row of medicine receiving portions provided in the blister packaging medicine dispensing box according to an embodiment of the present invention. FIG.
10 is an internal configuration diagram illustrating a state in which blister packaging medicines are dispensed from the medicine receiving portion of the second row provided in the blister packaging medicines dispensing box according to an embodiment of the present invention.
11 and 12 are schematic diagrams for explaining the operating principle of the opening and closing portion for dispensing blister packaging medicine from the second row of drug receiving portion provided in the blister packaging medicine dispensing box according to an embodiment of the present invention.
Figure 13 is a schematic exploded perspective view for explaining the principle that the drug receiving portion provided in the blister packaging drug delivery box according to an embodiment of the present invention is fixed to the rail portion.
Figure 14 is a schematic perspective view for explaining the process of the blister packaging medicine is injected into the blister packaging drug delivery box according to an embodiment of the present invention.
Figure 15 and Figure 16 is an internal configuration for explaining the process of the blister packaging medicine is injected into the blister packaging drug delivery box according to an embodiment of the present invention.
Figure 17 is an internal configuration for explaining the jam prevention portion provided in the blister packaging drug delivery box according to an embodiment of the present invention.
Figure 18 is a schematic exploded perspective view for explaining the jam prevention portion provided in the blister packaging drug delivery box according to an embodiment of the present invention.
19 is a schematic perspective view showing a modification of the blister packaging drug delivery box according to an embodiment of the present invention.
20 is an internal configuration diagram showing a modification of the blister packaging drug delivery box according to an embodiment of the present invention.
Figure 21 is an exploded perspective view showing a modification of the blister packaging drug delivery box according to an embodiment of the present invention.

Hereinafter, with reference to the drawings will be described in detail a specific embodiment of the present invention. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

1 is a schematic perspective view showing a blister packaging medicine dispensing box according to an embodiment of the present invention, Figure 2 is a rotating part provided in the blister packaging medicine dispensing box according to an embodiment of the present invention is rotated from the body portion 3 and 4 are schematic perspective views for explaining the principle that the pivoting portion provided in the blister packaging medicine dispensing box according to the embodiment of the present invention is rotated from the main body portion.

1 to 4, the blister packaging medicine dispensing box 100 according to an embodiment of the present invention includes a plurality of blister packaging medicines P containing and receiving at least one or more rows of medicine accommodating parts 110. ), A dispensing part (120, FIG. 6) for moving the position of the drug accommodating part 110 and the blister packaging drug (P) accommodated in the drug accommodating part 110 is discharged to the outside ( 130).

That is, the drug receiving unit 110 is fastened to the position moving unit 120 may be rotated in accordance with the rotational movement of the position movement unit 120, the drug receiving unit is located in a predetermined position according to the rotational movement 110 may be dispensed out of the received blister packaging medicine (P) through the discharge portion 130.

On the other hand, the blister packaging drug delivery box 100 according to an embodiment of the present invention may be a box for dispensing blister packaging drugs (P) to the outside one by one according to the prescription of the patient, the ampoule drug delivery box It can be fixed to the cartridge of the drug delivery device together with the pouch-type drug delivery box.

In other words, when the blister packaging medicine dispensing box 100 is fixed to the cartridge of the medicine dispensing device and the blister packaging medicine P is included in the prescription according to the patient's prescription, It may be a blister packaging medication storage box.

Here, after discharging all the blister packaging medicine P contained in the blister packaging medicine dispensing box 100 to the outside through the dispensing unit 130, a new blister packaging medicine P is dispensed with the medicine accommodating part ( 110), thereby allowing semi-permanent use.

That is, the blister packaging drug dispensing box 100 is the main body portion 101 to provide a predetermined internal space so that the aforementioned drug receiving portion 110, the position moving portion 120 and the dispensing portion 130 is disposed It may include a), the rotating portion 102 is fastened to the main body portion 101 to be rotatable from the main body portion 101 so as to be exposed to the drug receiving unit 110 to the outside. have.

Accordingly, the pivoting unit 102 may be rotated from the main body unit 101 to introduce a new blister packaging medicine P into the drug receiving unit 110, and whether the pivoting unit 102 is rotated. May be determined by the locking part L fastened to the opposite side of the dispensing part 130.

In other words, as shown in FIGS. 3 and 4, the locking part L is additionally rotated to rotate the rotating part 102 to introduce the new blister packaging medicine P into the drug receiving part 110. It can be rotated using a release member, the locking jaw 103 of the pivoting portion 102 is moved in conjunction with the locking portion (L) when the locking member (L) by rotating the release member The rotation part 102 may be rotated from the main body part 101 by being separated from the corresponding part L1.

On the other hand, the dissociation member is composed of a kind of key can be rotated by the rotation part 102 by inserting the lock portion (L) according to the user's need, the key is provided for preventing the professionalism and weakening of the drug You can also use a separate refill station.

That is, when the new blister packaging drug (P) is to be injected into the drug receiving unit 110 of the blister packaging drug delivery box 100, the blister packaging drug delivery box 100 is separated from the drug delivery device. After the insertion into the refill station it is possible to rotate the lock (L).

At this time, the key, which is a release member provided in the refill station is automatically inserted into the lock portion (L) to rotate the lock portion (L).

Therefore, when using the refill station than when using the dismantling member consisting of the existing key only for the rotation of the locking portion (L) can improve the safety, and prevent the weakening accident due to the wrong injection of the drug in advance. Can be.

FIG. 5 is a schematic perspective view illustrating a blister packaging medicine being dispensed from the first row of medicine accommodating parts provided in the blister packaging medicine dispensing box according to an embodiment of the present invention, and FIG. 6 is an embodiment of the present invention. It is an internal block diagram for demonstrating the blister packaging medicines being dispensed from the chemical | medical agent accommodation part of the 1st row provided in the blister packaging medicines delivery box which concerns on an example.

In addition, Figures 7 and 8 are omitted to illustrate the principle of dispensing the blister packaging medicament from the first column of drug receiving portion provided in the blister packaging medicament delivery box according to an embodiment of the present invention It is a block diagram.

5 to 8, the blister packaging medicine dispensing box 100 according to an embodiment of the present invention includes a medicine accommodating part 110 and accommodating a plurality of blister packaging medicines P, respectively. It may include a position moving unit 120 is fastened to the drug receiving unit 110 to move the position of the drug receiving unit 110.

First, when the terms for the rotation direction are defined, the dispensing direction X is rotated such that the drug receiving unit 110 disposed above the rotating shafts R1 and R2 faces the dispensing unit 130 as shown in FIG. 6. It may be a direction to, the injection direction (Y) may be a direction to rotate opposite to the dispensing direction (X).

The drug receiving unit 110 may include a receiving space (S) for accommodating a plurality of blister packaging drugs (P), respectively, and may be arranged in at least one row.

Here, the position moving unit 120 may move the drug receiving unit 110 to the endless track by the rotation, the present invention by the position movement of the drug receiving unit 110 by the position moving unit 120 The blister packaging medicine dispensing box 100 according to an embodiment of the blister packaging medicine P may be dispensed out one by one in order.

In other words, the blister packaging medicine dispensing box 100 is dispensed out one by one by the rotational movement of the medicine accommodating part 110 by the position moving part 120 regardless of the number of rows of the medicine accommodating part 110. It can be done.

However, when the number of rows of the drug receiving unit 110 is 2 or more, it may be provided with an opening and closing portion 133 to be described later for the sequential dispensing of one of the blister packaging medicine (P), without the opening and closing portion 133 Dispensing of the single blister packaging medicine P in sequence may be realized by disposing the medicine receiving portion 110 constituting each row in a mutually offset manner.

That is, the drug receiving unit 110 according to the present invention may be disposed in at least one or more rows and discharge the blister packaging drugs (P) one by one as needed, but in the following case formed in two rows for convenience of description. An example will be described.

The drug receiving unit 110 may be arranged in two rows, and may be disposed symmetrically with respect to the boundary of each row.

Accordingly, the drug receiving unit 110 may simultaneously dispense the drug receiving unit 110 and the blister packaging medicine P in the neighboring row to the discharge unit 130.

This may be implemented to change the position of the drug receiving unit 110 by the position moving unit 120, the final discharge of blister packaging drug (P) is the rotation axis (R1, R2) of the position moving unit 120 It can be implemented while passing through either.

Here, the position moving unit 120 is wound around two or more rotation shafts (R1, R2) and the two or more rotation shafts (R1, R2) by the rotation of the two or more rotation shafts (R1, R2) of the drug receiving portion ( It may include a rail portion 122 to enable the position change of 110, the discharge of blister packaging medicine (P) from the drug receiving portion 110 is a rotating shaft (R1) close to the discharge portion 130 While passing through it may be dispensed to the dispensing unit 130 by the gravity caused by the position change of the drug receiving unit (110).

On the other hand, the position moving unit 120 may be provided with a pitch sensor for detecting a change in position, the pitch sensor to detect the change in the position of the drug receiving unit 110 for the rotational movement of the position moving unit 120. Can be.

Therefore, after the blister packaging medicine P is dispensed to the dispensing part 130 by the rotational movement of the drug accommodating part 110, it is possible to control whether the next rotational movement is performed.

On the other hand, dispensing of blister packaging medicine (P) according to the change of the position of the drug receiving portion 110 may be implemented by the rotation of the pivoting wall 111, which partitions the receiving space (S) and is rotatable. It will be described later.

The position moving part 120 moves the drug receiving part 110 in the direction toward the dispensing part 130 by the rotation of the two or more rotation shafts R1 and R2, and then dispenses blister packaging medicine P. It may be dispensed to the unit 130 and may be returned to its original position.

Here, the dispensing unit 130 may be disposed in the moving direction of the drug accommodating unit 110 so that the blister packaging medicine P accommodated in the drug accommodating unit 110 may be dispensed out one by one. The unit 131 and the opening and closing unit 133 may be included.

The storage unit 131 may temporarily store the blister packaging medicine P simultaneously discharged from the drug receiving unit 110 constituting each row before being discharged to the outside, and the opening and closing unit 133 may be It may be a kind of opening and closing door for discharging the blister packaging medicine P from the storage unit 131 to the outside one by one.

In other words, the dispensing part 130 may be formed to correspond to the pharmaceutical accommodating part 110 constituting each row. When the dispensing part 110 is arranged in two rows, the dispensing part 130 is accordingly disposed. 2 may be formed.

Here, the opening and closing part 133 may block any one of the two storage parts 131 from the outside, which is to discharge the blister packaging medicine (P) one by one sequentially.

That is, when the blister packaging medicine P is discharged to the outside from the storage unit 131 which is not blocked, the opening and closing unit 133 communicates with the outside of one of the blocked storage units 131 and sequentially dispenses one by one. You can do that.

Specifically, since the drug receiving unit 110 may be disposed symmetrically with respect to each other on the basis of the boundary of each row, the bliss received in the drug receiving unit 110 of the neighboring rows by the position change by the position moving unit 120 The packaging agent (P) may also be dispensed to the discharge unit 130 at the same time as the blister packaging agent (P) accommodated in the drug receiving unit 110, the storage unit 131 by the opening and closing unit 133. ) Is not blocked, the two blister packaging drugs (P) are discharged to the outside at the same time.

Therefore, when the blister packaging agent P is discharged to the outside from the storage unit 131 which is not blocked in order to discharge the blister packaging agent P to the outside one by one sequentially, the opening and closing part 133 is blocked. It is to be opened for dispensing of the blister packaging agent (P) from the unit (131).

Here, the power for opening and closing of the opening and closing portion 133 may be provided by the opening and closing power providing unit 140, the opening and closing power providing unit 140 is a blister packaging drug dispensing box 100 according to the present invention a kind of It may be a small motor disposed inside the body portion 101 of the.

The rotating shaft rotated by the opening / closing power providing unit 140 may be coupled to the opening and closing power rotation unit 141 which is a kind of spur gear, and the opening and closing power rotation unit 141 is opened and closed by the opening and closing power medium unit 142. Open and close the power transmission unit 143 for opening and closing may be interlocked with each other.

In other words, the opening and closing power rotation unit 141, the opening and closing power transmission unit 142 and the opening and closing power transmission unit 143 is a kind of spur gear, may be arranged in engagement with each other, the opening and closing power providing unit 140 When the opening and closing power rotation unit 141 is rotated, the opening and closing power medium 142 is also rotated, and thus the opening and closing power transmission unit 143 is also rotated.

Therefore, when the opening and closing power transmission unit 143 is rotated, the opening and closing moving unit 134 coupled to one side end of the opening and closing unit 133 is moved upward by the rotation of the opening and closing power transmission unit 143 to open and close the opening and closing unit ( 133 is opened.

Here, the opening and closing moving part 134 may be a rack gear which is a kind of linear gear that can be moved upwards with respect to the rotation of the opening and closing power transmission part 143 which is a kind of spur gear, and the opening and closing part 133 is opened. After it can be closed again by switching the rotational direction of the opening and closing power providing unit 140.

Therefore, opening and closing of the opening and closing portion 133, that is, the opening and closing can be implemented by the automatic control by the opening and closing power providing unit 140, which is a non-motor power to provide the power to rotate the position moving unit 120 Study 151 may be different from each other.

Here, the dispensing power providing unit 151 is a kind of spur gear, and once the blister packaging medication dispensing box 100 according to the present invention is fixed to the cartridge of the medication dispensing apparatus, the medication dispensing automatically according to the prescription of the patient. Engagement with one component of the device can provide external power and can be rotated by the external power provided.

When the discharge power providing unit 151 is rotated by an external power as described above, the rotational power of the discharge power providing unit 151 is fastened to the rotation shaft R1 of the position moving unit 120 and the rotation shaft R1. Rotational force transmission unit 153 rotates in conjunction with.

In this case, the rotation of the non-power transmission unit 153 by the rotational power of the non-power-providing unit 151 may be a power transmission by the non-power media unit 152 disposed to engage between the components. This can be realized by arranging the components to engage with each other in a kind of spur gear.

Therefore, the power for the rotational movement of the position moving unit 120 and the power for opening and closing of the opening and closing unit 133 may be different power in that the external power and the internal power.

On the other hand, the dispensing of the blister packaging medicine (P) from the drug receiving portion 110 that is rotated by the dispensing power providing unit 151 is rotated by the rotation wall 111 that partitions the receiving space (S) The pivot wall 111 may be rotated when the medicine container 110 is disposed at a predetermined position by the position moving part 120.

Here, the drug receiving unit 110 may include a plurality of walls to partition the receiving space (S), specifically, the plurality of walls are fastened with the rail unit 122 and blister packaging drug (P) 17, the partition wall 113 extending toward the outside of the rail portion 122 from the other edge of the bottom wall 114, one drug receiving portion 110 and the neighborhood And a side wall 115 constituting an outer wall of the drug receiving part 110 adjacent to one row of the drug receiving part 110 and one drug receiving part 110 adjacent to each other. Can be.

In addition, the pivot wall 111 may be rotated using one side edge of the bottom wall 114 as a pivot.

The pivot wall 111 may be rotated by gravity due to the weight of the pivot wall 111 based on the pivot axis, and the pivot of the pivot wall 111 is at least two rotation axes of the position moving part 120. It can be implemented while passing through either.

In other words, the pivot wall 111 is not rotated when passing through a rotation shaft R2 other than the rotation shaft R1 adjacent to the upper side, the lower side, and the discharge portion 130 of at least two of the rotation shafts R1 and R2. It may be rotated only while passing through the rotating shaft R1 adjacent to the discharge unit 130.

That is, assuming that the drug receiving unit 110 is moved in the dispensing direction X by the rotational movement of the position moving unit 120, the drug receiving unit 110 is at least two or more of the rotating shaft (R1, R2) In the case of disposed above, the pivot wall 111 of each medicine container 110 is arranged in the same row and rotated in the dispensing direction X by the partition wall 113 of the neighboring medicine container 110. It may not be.

In addition, the pivot wall 111 of the drug accommodating part 110 may be in contact with the boundary wall 112, and the rotation of the drug accommodating part 110 into the accommodation space S may also be blocked.

For the same reason, even when the medicine accommodating part 110 is disposed below the at least two rotation shafts R1 and R2 and moved, the rotation of the pivot wall 111 may be blocked.

In addition, when the drug receiving portion 110 is moved in the dispensing direction (X), when the position is moved from the lower side to the upper side of at least two of the rotation shaft (R1, R2) is accommodated by contact with the boundary wall 112 Rotation into the space S may be blocked.

As a result, the rotation of the rotation wall 111 of the drug receiving unit 110 is moved from the upper side of the rotation axis (R1), that is, at least two or more of the rotation shafts (R1, R2) adjacent to the dispensing unit (130) to the lower side. Only the case can be rotated, by the rotation of the rotating wall 111, blister packaging drug (P) can be freely dropped and discharged to the discharge unit (130).

Meanwhile, a predetermined region of the bottom wall 114 of the medicine accommodating part 110 may be spaced apart from the rail part 122 while passing through at least one rotation shaft R1 of at least two rotation shafts R1 and R2. .

That is, a predetermined region of the bottom wall 114 of the medicine accommodating part 110 may be spaced apart from the rail part 122 when moved from the upper side to the lower side of the at least two rotation shafts R1 and R2.

This is due to the fastening method of the position moving unit 120 with the rail unit 122, the fastening method of the rail unit 122 and the position moving unit 120 is the bottom wall 114 of the drug receiving unit 110. The fastening protrusions 116 (see FIG. 13) and the detachable protrusions 117 (see FIG. 13) formed from the protrusions may be inserted into and fastened to the fastening holes H formed in the rails 122.

This will be described later with reference to FIG. 13.

On the other hand, when the drug receiving unit 110 is moved from the upper side to the lower side of the at least two rotary shafts (R1, R2) by the position movement by the position moving unit 120, blister packaging drug (P) can be dispensed At this time, the frictional force is reduced between the rotation wall 111 and the blister packaging agent (P) can be effectively discharged to the discharge unit 130.

That is, at least one friction reducing part 118 protruding from one side of the pivot wall 111 may be formed, and the friction reducing part 118 may be a direction in which the blister packaging agent P is discharged. Accordingly, at least one or more may be formed continuously.

Therefore, when the blister packaging agent P is dispensed, the pivot wall 111 and the blister packaging agent P may be discharged to the dispensing unit 130 while a minimum frictional force is applied by line contact. .

In addition, the friction reducing unit 118 may be formed in the storage unit 131, and thus, when the blister packaging agent P is dispensed, the storage unit 131 and the blister packaging agent P are discharged. Frictional force is reduced in between, enabling effective outflow.

However, the friction reducing unit 118 is not limited to being continuously formed along the dispensing direction (X) of the blister packaging agent (P), it turns out that a plurality of protrusions may be formed.

FIG. 9 is a schematic perspective view illustrating a blister packaging medicine being dispensed from the second row of medicine receiving portions provided in the blister packaging medicine dispensing box according to an embodiment of the present invention, and FIG. 10 is an embodiment of the present invention. It is an internal block diagram for demonstrating the blister packaging medicines being dispensed from the chemical | medical agent accommodation part of the 2nd row provided in the blister packaging medicines delivery box which concerns on an example.

11 and 12 are schematic diagrams for explaining the operation principle of the opening and closing portion for dispensing blister packaging medicine from the second row of drug receiving portion provided in the blister packaging medicine dispensing box according to an embodiment of the present invention. .

9 to 12, as described with reference to FIGS. 5 to 8, the dispensing unit 130 for dispensing the blister packaging medicine P may include a storage unit 131 and an opening / closing unit 133. Can be.

Here, when the drug receiving unit 110 of the blister packaging drug delivery box 100 according to the present invention is arranged in two rows, one drug receiving unit by the rotation of the drug receiving unit 110 by the position moving unit 120 At the same time, the blister packaging agent P accommodated in the drug receiving unit 110 and the neighboring column 110 is simultaneously dispensed.

At this time, the dispensing of the blister packaging agent (P) should be implemented sequentially one by one, which may be implemented by opening and closing the opening and closing portion 133 as described above.

That is, among blister packaging drugs P simultaneously dispensed into the storage unit 131 of the discharge unit 130, the blister packaging agent P dispensed into the storage unit 131 in which the opening and closing unit 133 is not disposed is naturally If the dispenser can be dispensed to the outside and dispensed with another blister packaging medicament P after dispensing, dispensing from the storage unit 131 closed by the opening and closing unit 133 should be implemented.

In this case, the opening and closing part 133 may be opened for dispensing to the outside of another blister packaging medicine P, and the power for opening and closing of the opening and closing part 133 may be provided by the opening and closing power providing unit 140. Can be.

On the other hand, the opening and closing power providing unit 140 may be coupled to the opening and closing power rotation unit 141, the opening and closing power rotation unit 141 is the opening and closing power transmission for opening and closing of the opening and closing portion 133 by the opening and closing power medium 142. The unit 143 may be linked with each other.

That is, when the opening and closing power rotation unit 141 is rotated by the opening and closing power providing unit 140, the opening and closing power medium 142 is also rotated, and thus the opening and closing power transmission unit 143 is also rotated.

Therefore, when the opening and closing power transmission unit 143 is rotated, the opening and closing moving unit 134 coupled to one side end of the opening and closing unit 133 is moved upward by the rotation of the opening and closing power transmission unit 143 to open and close the opening and closing unit ( 133 is opened.

Figure 13 is a schematic exploded perspective view for explaining the principle that the drug receiving portion provided in the blister packaging drug delivery box according to an embodiment of the present invention is fixed to the rail portion.

Referring to FIG. 13, the coupling between the rail 122 and the drug receiving unit 110 includes a fastening protrusion 116 and a detachable protrusion 117 protruding from the bottom wall 114 of the drug receiving unit 110. It may be implemented by being inserted into each of the fastening holes (H) formed on both sides of the rail portion 122.

That is, the fastening protrusion 116 may protrude from one side of the bottom surface of the bottom wall 114 and bend outward to have an overall "L" shape, and the detachable protrusion 117 may be disposed at the fastening hole H. It may be a half arrowhead shape that can be fitted.

Therefore, when the fastening protrusion 116 is inserted into the fastening hole H, the detachable protrusion 117 is inserted into the fastening hole H by applying an external force to the drug accommodating part 110. Can be fixed stably with (122).

Meanwhile, the rail unit 122 may be formed by connecting a plurality of rail elements 123 to each other, and the bottom wall 114 of the medicine accommodating unit 110 may correspond to two rail elements 123. have.

However, the fastening protrusion 116 and the detachable protrusion 117 protruding from the bottom wall 114 may be coupled to the fastening hole H formed at both ends of one rail element 123.

Therefore, when the medicine container 110 rotates in the dispensing direction X, a predetermined region of the bottom wall 114 of the medicine container 110 is at least one of at least one of the rotation shafts R1 and R2. It may be spaced apart from the rail portion 122 while passing through the rotation axis (R1).

In other words, a predetermined region of the bottom wall 114 of the drug receiving unit 110 may be spaced apart from the rail unit 122 when moved from the upper side to the lower side of the at least two rotation shafts R1 and R2. .

14 is a schematic perspective view for explaining a process of the blister packaging medicament is injected into the blister packaging drug delivery box according to an embodiment of the present invention, Figures 15 and 16 is a blister according to an embodiment of the present invention It is an internal structure for demonstrating the process which blister packaging medicine is put into a packaging drug delivery box.

In addition, Figure 17 is an internal configuration for explaining the jam prevention portion provided in the blister packaging drug delivery box according to an embodiment of the present invention, Figure 18 is a blister packaging drug delivery according to an embodiment of the present invention It is a schematic exploded perspective view for demonstrating the jam prevention part provided in a box.

14 to 18, the blister packaging medicine dispensing box 100 is the body portion when the blister packaging medicine (P) received from the drug receiving unit 110 is all dispensed out through the dispensing unit 130, By rotating the rotating unit 102 from 101, a new blister packaging agent P can be introduced into the empty drug receiving unit 110.

Here, the rotation of the rotation unit 102 is the lock portion (L) by separating the blister packaging drug delivery box 100 from the drug delivery device and then inserted into the refill station as described with reference to FIGS. It can be implemented by rotating.

At this time, the key, which is a release member provided in the refill station is automatically inserted into the lock portion (L) to rotate the lock portion (L).

On the other hand, when the rotating unit 102 is rotated from the main body 101 and the drug receiving unit 110 is exposed to the outside, a new blister packaging drug (P) is introduced into the drug receiving unit 110 and the Injection into the drug receiving unit 110 can be completed while automatically or manually rotating the drug receiving unit 110 in the feeding direction (Y) opposite to the dispensing direction (X).

Here, for the rotational movement of the drug receiving unit 110, that is, the rotation of the position movement unit 120 in the injection direction (Y) is in contact with the dispensing power medium 152 by the position movement unit 120 The movement blocking unit 160 for blocking the position movement of the drug receiving unit 110 should be separated from the discharge power medium 152, which may be implemented by a release providing unit provided in the refill station.

In addition, in order to discharge the blister packaging medicine P from the medicine container 110 by the rotational movement of the position moving part 120, the movement blocking part is provided by a release providing part provided in the cartridge of the drug delivery device. The 160 may be separated from the dissipation force medium 152.

On the other hand, when the blister packaging agent (P) is dispensed from the drug receiving unit 110 and when the blister packaging agent (P) is injected into the drug receiving unit 110, the blister packaging agent (P) is It is possible to prevent the pinch portion 170 from being caught between the partition wall 113 and the main body portion 101.

Hereinafter, a description will be given as to whether or not the blister packaging medicine P is caught between the partition wall 113 and the main body 101 according to the position and rotation direction of the drug receiving unit 110.

First, when the blister packaging medicine (P) is accommodated in all the drug receiving portion 110 and the blister packaging medicine (P) is discharged from the drug receiving portion 110 in the rotational movement of the position moving part 120 Looking at, the drug receiving portion 110 passing through the upper side of the two or more rotation shafts (R1, R2) does not cause the blister packaging drug (P) is caught between the partition wall 113 and the main body portion 101.

This means that when the drug receiving unit 110 passes the upper side of two or more rotation shafts R1 and R2, the blister packaging drug P is seated on the bottom wall 114 of the drug receiving unit 110 by gravity. This is because the location is moved.

Further, even when the drug receiving unit 110 passes the lower side of two or more rotation shafts R1 and R2 after discharging the blister packaging medicine P while passing through the dispensing unit 130 and the rotating shaft R1 adjacent thereto. It doesn't matter.

However, before the blister packaging medicine P is discharged from the medicine accommodation unit 110, the blister packaging medicine P is received and the lower side of two or more rotation shafts R1 and R2 is received. When passing through and when the rotary shaft R2 other than the discharge unit 130 and the adjacent rotary shaft R1 of the two or more rotary shafts R1 and R2 passes, the blister packaging agent P is moved by gravity to the body portion 101. ) May be seated on the inner surface, there is a possibility that the blister packaging agent (P) is sandwiched between the partition wall 113 and the main body portion (101).

 In addition, when all blister packaging medicines P are dispensed from the medicine accommodation part 110, and a new blister packaging medicine P is thrown while rotating the said medicine accommodation part 110 to the injection direction Y, When the drug receiving unit 110 into which the new blister packaging agent P is introduced passes through a rotation shaft R2 other than the rotation shaft R1 adjacent to the discharge unit 130 among the two or more rotation shafts R1 and R2, and 2 Even when passing below the rotational shafts R1 and R2, there is a possibility that the blister packaging agent P is caught between the partition wall 113 and the main body 101 for the same reason as described above.

As a result, the possibility of the blister packaging agent P being caught between the partition wall 113 and the main body portion 101 is reduced, and interference with the inner surface of the main body portion 101 of the partition wall 113 is reduced. In order to minimize the smooth rotational movement, the distance between the circumferential wall 113 and the main body 101 should be minimized and at the same time finely spaced. It may mean that the path and the inner surface of the body portion 101 should be close.

Therefore, the movement path through which the partition wall 113 of the medicine container 110 passes through the rotation shaft R2 other than the rotation shaft R1 adjacent to the discharge unit 130 among the two or more rotation shafts R1 and R2 is rounded. Since the inner surface of the main body portion 101 corresponding to the movement path is formed to be round, the moving path of the open end 113-2, which is the end of the partition wall 113, and the inner surface of the main body portion 101 are close to each other. You can.

In addition, even when the drug receiving unit 110 passes below two or more rotation shafts R1 and R2, the open end 113-2 of the partition wall 113 and the inner surface of the main body unit 101 may be formed to be adjacent to each other. Can be.

Here, when the moving path of the open end 113-2, which is the end of the partition wall 113, and the inner surface of the body portion 101 are close to each other, the blister is disposed between the partition wall 113 and the body portion 101. Although the possibility of jamming the packaging agent (P) can be reduced, it is not possible to completely exclude the possibility of jamming due to the characteristics of the blister packaging due to the minute spacing.

Therefore, while preventing the possibility of the blister packaging agent P being caught between the partition wall 113 and the main body portion 101, the interference with the inner surface of the main body portion 101 of the partition wall 113 is prevented. The present invention may be provided with a jam-proof portion 170 to minimize and implement a smooth rotation movement.

Specifically, the pinch prevention portion 170 may be formed on the movement path of the drug receiving portion 110 by the position moving portion 120, any of the partition wall 113 and the main body portion 101 A protrusion 172 formed in one and a receiving portion 174 formed in the other may be provided to accommodate the protrusion 172.

The pinch preventing part 170 may prevent the blister packaging agent P from being pinched therebetween by forming at least one bend between the partition wall 113 and the body part 101. The protrusion 172 and the receiving portion 174 constituting the pinch prevention portion 170 may have a shape corresponding to each other.

However, the protruding portion 172 and the receiving portion 174 is not necessarily limited to the formation corresponding to each other, any shape that can form a bend between the partition wall 113 and the main body portion 101 May be applicable.

Here, the partition wall 113 may include a fixed end 113-1 fastened to the rail unit 122 and an open end 113-2 adjacent to the main body unit 101, and the accommodation unit 174 may be recessed and formed from the open end 113-2 of the partition wall 113.

In addition, the plurality of accommodation portions 174 may be formed to be spaced apart from each other, the protrusion 172 may also be the same.

On the other hand, the protruding portion 172 need not be formed in all regions of the inner surface of the main body portion 101, the blister packaging agent (P) during the rotational movement of the position moving portion 120 in the injection direction (Y) Only the part which may be pinched by the partition wall 113 and the main body part 101 may be formed.

That is, the protruding portion 172 may be formed on the movement path of the drug receiving portion 110 corresponding to the lower side of two or more rotation shafts R1 and R2 among the inner surfaces of the main body portion 101, and the blister The packaging agent may be formed on the movement path of the drug receiving portion 110 passing through the rotary shaft (R2) other than the rotating shaft (R1) passing for dispensing.

In other words, for the injection of the blister packaging medicine (P) to the drug receiving unit 110, the position moving unit 120 is rotated in the feeding direction (Y) which is opposite to the dispensing direction (X) to the drug receiving unit ( 110 also rotates the protrusion 172 is a movement path in which the position of the drug receiving portion 110 of the inner surface of the body portion 101 is moved from the upper side to the lower side of the two or more rotation shafts (R1, R2) And it may be formed only on the movement path passing through the lower side.

Therefore, when the blister packaging medicine (P) is introduced into the medicine accommodating part 110 by rotating the position moving part 120 in the feeding direction (Y), the partition wall 113 by the pinch preventing part 170. ) And the problem that the blister packaging agent (P) is caught or caught between the main body portion 101 can be prevented in advance.

In addition, the above contents may be applied as it is even if the blister packaging medicine (P) is accommodated in the drug receiving unit 110 and rotates for dispensing.

As a result, the pinch prevention unit 170 may perform a guide function to prevent the pinching phenomenon of the blister packaging agent (P) in advance and at the same time to smoothly rotate the drug holding unit (110).

19 is a schematic perspective view showing a modification of the blister packaging drug delivery box according to an embodiment of the present invention, Figure 20 is a modification of the blister packaging drug delivery box according to an embodiment of the present invention 21 is an internal exploded perspective view showing a modified example of the blister packaging drug delivery box according to an embodiment of the present invention.

19 to 21, the blister packaging medicine dispensing box 200 has the foregoing embodiments, configurations, and effects except for the guide hole 2000 formed on the sidewall and the guide protrusion 1000 formed on the pivot wall. Since is the same, descriptions other than the guide hole 2000 and the guide protrusion 1000 will be omitted.

The rotating wall can be rotated by free fall by gravity, and in this case, the rotating range can be limited.

That is, since the guide protrusions 1000 formed on the rotating wall are inserted into the guide holes 2000 formed on the side walls, the range in which the rotating wall freely falls and rotates may be limited within the length range of the guide hole 2000. .

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be apparent to those skilled in the art that such modifications or variations are within the scope of the appended claims.

That is, in the drawings, the drug receiving unit 110 is illustrated in a rectangular parallelepiped shape, but the present invention is not limited thereto and may be a trapezoidal shape having a narrow width toward the position moving unit 120.

In addition, the arrangement surface of the drug receiving portion 110 is not limited to being formed symmetrically in two rows, and may be formed to be offset from each other, and may be formed in a plurality of rows or more.

In addition, the driving force for the rotation of the position moving unit 120 and the driving of the opening and closing unit 133 and the like may be provided by a driving device by a motor or the like, such as the blister packaging drug delivery box 100 according to the present invention. have.

100: blister packaging pharmaceutical dispensing box
110: drug receiving unit
120: moving position
130: dismissal
133:
170: jamming prevention

Claims (27)

A drug receiving portion having a receiving space for receiving a plurality of blister packaging drugs separated from each other, and arranged in at least one row; And
Includes; and the position moving unit is fastened to the drug receiving portion to move the drug receiving portion,
The medicine receiving portion partitions the receiving space, and blister packaging drug delivery box having a rotatable wall for dispensing the blister packaging drug.
The method of claim 1,
The pivot wall is blister packaging medicine dispensing box that is rotated when the medicine container is disposed in a predetermined position by the position moving unit.
3. The method of claim 2,
The rotating wall is blister packaging drug delivery box is rotated by the gravity by the weight of the rotating wall on the basis of the rotation axis.
The method of claim 1,
And the position moving part has a rail unit which is wound around two or more rotation shafts and the two or more rotation shafts so as to change the position of the medicine container in an endless track by rotation of the two or more rotation shafts.
5. The method of claim 4,
The blister packaging drug dispensing box to move the drug accommodating portion by the rotation to return back to its original position.
5. The method of claim 4,
Dispensing of the blister packaging agent by the rotation of the rotating wall is a blister packaging drug dispensing box is implemented passing through any one of the at least two or more rotational axis.
The method according to claim 6,
The drug receiving portion has a bottom wall fastened to the rail portion and the blister packaging medicine is seated,
The rotating wall is blister packaging drug delivery box is rotated by rotating the one side edge of the bottom wall as a rotating shaft.
8. The method of claim 7,
And a predetermined area of the bottom wall is spaced apart from the rail while passing through at least one of the two or more rotation shafts.
The method of claim 1,
The drug receiving portion is arranged in at least two rows, blister packaging drug delivery box is arranged symmetrically to each other based on the boundary of each row.
10. The method of claim 9,
The blister packaging medicine delivery box having the said medicine accommodating part and the medicine accommodating part of the row which adjoins the said chemical accommodating part, and the boundary wall which partitions each accommodation space and sets a boundary.
11. The method of claim 10,
And the pivot wall is in contact with the boundary wall to block rotation into the accommodation space.
10. The method of claim 9,
A blister packaged drug delivery box for dispensing the blister packaged drug simultaneously with the drug receiving part and the drug receiving part adjacent to the drug receiving part.
The method of claim 12,
And a dispensing unit disposed in a moving direction of the chemical accommodating unit to dispense the blister packaging chemicals dispensed from the chemical accommodating unit one by one to the outside.
14. The method of claim 13,
The dispensing unit includes a storage unit for temporarily storing the blister packaged medicament simultaneously dispensed from the drug receiving unit constituting each row, and an opening and closing unit for dispensing the blister packaged medicament from the storage unit one by one. Blister Packaging Pharmaceutical Dispensing Box.
15. The method of claim 14,
The dispensing portion is formed to correspond to the drug receiving portion constituting each of the heat,
The opening and closing portion of the blister packaging drug dispensing box to block the storage unit other than the storage unit corresponding to the drug receiving unit constituting one row from the outside.
16. The method of claim 15,
The blister packaging drug dispensing box for opening and closing the blister packaging medicament to the outside when the blister packaging medicament is discharged to the outside from the unblocked storage.
16. The method of claim 15,
The blister packaging drug delivery box further comprising; opening and closing power providing unit for providing power for opening and closing the opening and closing portion.
18. The method of claim 17,
The opening and closing portion of the blister packaging drug delivery box capable of opening and closing in the vertical direction by the power by the opening and closing power providing unit.
18. The method of claim 17,
It further comprises; a non-drive force providing unit for providing power for the position movement of the drug receiving portion by the position movement unit,
A blister packaged medicine dispensing box, wherein the power by the dispensing power provider and the power by the opening and closing power provider are different.
The method of claim 1,
The blister packaging medicine dispensing box further comprising; a dispensing power providing unit for providing power for the movement of the position of the drug receiving portion by the position moving unit.
21. The method of claim 20,
A blister packaging medicine dispensing box further comprising: a dispensing power transmission unit coupled to the position moving unit to receive the power by the dispensing power providing unit so as to be interlocked with the power providing unit.
22. The method of claim 21,
A blister packaging medicine dispensing box further comprising: a dispensing power medium disposed to engage between the dispensing power providing unit and the dispensing power transmitting unit to mediate the power transmission.
The method of claim 22,
The blister packaging medicine dispensing box of the dispensing power providing unit, the dispensing power mediating unit and the dispensing power transmitting unit are spur gears.
The method of claim 22,
A blister packaging medicine dispensing box further comprising: a movement blocking unit which contacts the dispensing power mediating unit and blocks the movement of the drug accommodating unit by the position moving unit.
The method of claim 1,
And a rotatable portion fastened to be rotatable from the main body portion to expose the drug receiving portion, the body moving portion and the dispensing portion, and the drug receiving portion to the outside.
The blister packaging drug dispensing box further comprises a locking unit for determining whether to rotate the rotation unit.
The method of claim 1,
The rotating wall has a blister packaging medicine dispensing box having at least one friction reducing portion protruding to reduce the frictional force with the blister packaging medicine during rotation.
27. The method of claim 26,
The friction reducing unit is blister packaging drug dispensing box is formed continuously along the dispensing direction of the blister packaging drug.

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