JP4504578B2 - Drug packaging device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention divides and supplies necessary medicines for each dosage period for drugs such as tablets, capsules, powders, etc., as in tablet packing machines and powder packing machines used in hospitals, dispensing pharmacies and other medical facilities. The present invention relates to a medicine packaging apparatus for packaging with wrapping paper.
[0002]
[Prior art]
Conventionally, in a medicine packaging machine, a medicine is supplied every time of administration (administration time) such as “morning”, “noon”, “evening”, “before going to bed”, and the like.
[0003]
In the first conventional example (Japanese Patent Publication No. 4-8282), a supply interval is designated for each type of medicine to be supplied, and a count is made every time it is determined whether or not to wrap a medicine in one sachet. Thus, there has been disclosed a medicine supply device that makes it possible to supply medicines with different dosing intervals to a series of sachets.
[0004]
The second conventional example (Japanese Patent Application Laid-Open No. 64-84802) facilitates the management of the dispensed medicine by providing a means for classifying and storing the input sachet data by taking date. A drug packaging machine is disclosed.
[0005]
In the third conventional example (Japanese Utility Model Laid-Open No. 1-96801), a member for designating the first medication start time and the medication start time designated by the designated member are printed on the medicine package. A printing apparatus for a medicine packaging machine including a member is disclosed. According to this device, when it is time to take (dosage) the first dose of medicine based on the occurrence of a prescription by a doctor, the start time of taking can be clearly indicated on the medicine package.
[0006]
[Problems to be solved by the invention]
By the way, a prescription consists of the kind of medicine, dosage, usage, and the number of days (or the number of times). In addition, there are not a few daily administrations, administration every other day, administration in which the dose is gradually decreased or increased after several days, and alternate administration in which the two drugs are alternately administered every other day.
[0007]
However, in the above-described medicine packaging machine, only the interval and start are specified in units of taking times such as “morning”, “noon”, and “evening”, and the interval days and starting dates are specified in units of taking days. It is not possible. Therefore, in special prescriptions such as administration every other day, the pharmacist has to manually divide and package the tablets using a tablet hand-splitting device provided in the medicine packaging machine, which takes time and effort.
[0008]
In addition, the packing order includes repeated packing that repeats the time of taking “morning, noon, evening, morning, noon, evening” in order of time, and the time of taking “morning, morning, noon, noon, evening, evening”. There is a continuous parcel that is continuous, and it must be able to handle both specifications. Generally, when taking by self-management like an outpatient, there are many repeated sachets, and when a nurse distributes and takes like a hospitalized patient, there are many continuous sachets. However, in the first conventional example, it is only possible to sachet at intervals of the dosing time. Further, in the second conventional example, only management that classifies and stores the package data for each dose date can be performed. Furthermore, in the third conventional example, only printing that designates the start date of taking can be performed.
[0009]
Therefore, the present invention provides a drug packaging device capable of automatically packaging special prescriptions for every other day administration, gradually decreasing or gradually increasing administration, and every other day alternate administration, by the function of packaging every day of administration. The issue is to provide.
[0010]
[Means for Solving the Problems]
As a means for solving the above problems, the present invention provides:
A medicine supply means for supplying the medicine;
Packaging means for packaging the medicine supplied from the medicine supply means;
Storage means for storing prescription data including medication and timing of taking;
Based on the prescription data stored in the storage means, wherein the agent from the supply means a supply process of Ru is supplied to the appropriate drug, control means for performing a packing process for Buntsutsumi per dose timing by said packing means When,
In a medicine packaging device comprising:
The prescription data stored in the storage means includes, for each drug, input information including a start date of taking, a dose time division amount, a dose, and the number of days.
The control means executes the supply process and the packaging process in units of the prescription data based on input information included in the prescription data of the storage means .
The dose time division amount of the input information may be a list of drug doses at each dose time.
It is preferable that the prescription data stored in the storage means can include a plurality of different input information for the same medicine.
[0011]
The storage means includes, as prescription data to be stored, input information in the case of continuous administration, administration every other day, gradual administration, or alternate administration every other day,
When there are a plurality of pieces of input information included in the same prescription data, the control means is based on a plurality of pieces of input information combining continuous administration, every other day administration, or gradual administration if the input information relates to the same medicine. If the supply process and the sachet process can be performed and are related to different drugs, the supply process and the supply process based on a plurality of input information combining continuous administration, every other day administration, gradually decreasing administration, or every other day alternate administration It is preferable that the packaging process can be executed.
[0012]
The control means rearranges all medicines included in the prescription data stored in the storage means in order from the medication start date in order of the medication date and the medication time according to the input information, and causes the packaging device to package the medicines. It is preferable to perform repeated packaging.
[0013]
The control means classifies all drugs included in the prescription data stored in the storage means according to the input information according to the dosage time, and rearranges in order of the dosage date from the dosage start date for each dosage period, It is preferable to perform continuous packaging in which packaging is performed by the packaging means.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments according to the present invention will be described below with reference to the accompanying drawings.
[0015]
FIG. 1 shows a device configuration of a medicine packaging device. This medicine packaging device (FIG. 1) includes a medicine division packaging mechanism device 1, a display device 2 such as a liquid crystal display or a CRT display, an input device 3 such as a keyboard / mouse or a touch panel, and a storage device 4 such as a hard disk or flash memory. The whole medicine packaging device is controlled by a central processing unit (CPU) 5. Reference numeral 11 denotes a host computer.
[0016]
The medicine division packaging mechanism device 1 includes a medicine supply unit 6, a medicine packaging unit 7, and a wrapping paper printing unit 8, and is a device of a mechanism that divides a large number of medicines for each taking time and wraps them with wrapping paper. is there.
[0017]
The medicine supply unit 6 includes a tablet feeder, a tablet hand splitting device, a powder splitting device, and the like, and divides the tablet / capsule and powder into the medicine packaging unit 7 for each dose. A large number of tablet feeders are provided for each tablet / capsule, and a specified number of tablets / capsules are supplied to the medicine packaging unit 7. The tablet manual dividing apparatus supplies the tablets and capsules to the medicine packaging unit 7 by manually handing as many as necessary for the divided punch corresponding to each package. The powder dividing device scrapes the powder uniformly deposited on the distribution disk in a fixed amount or drops it into a plurality of divided containers arranged in accordance with the number of divisions. And is supplied to the medicine packaging unit 7.
[0018]
The medicine packaging unit 7 drops the medicine supplied at each time of taking the medicine onto the heat-fusible wrapping paper (packaging sheet) drawn from the wrapping paper roll through the medicine chute, The side is heat-sealed and sealed to continuously form a sachet packed with the medicine.
[0019]
The wrapping paper printing unit 8 prints the taking date, taking time, patient name, and the like on each medicine wrap portion of the wrapping paper before packaging the medicine.
[0020]
The display device 2 and the input device 3 are used for operation input of the entire medicine packaging device, input of prescription data, and data input of various master files.
[0021]
The central processing unit (CPU) 5 has a built-in memory (RAM) 9 for temporarily storing various data. The memory 9 is used as a prescription data memory for storing prescription data, a work memory for processing, and the like. . Further, the central processing unit (CPU) 5 incorporates a control program (ROM) 10 for controlling the entire medicine packaging device.
[0022]
In the storage device 4, various master data for storing related information when inputting prescription data is stored as a file. The various master files include a drug master, a usage master, a patient master, a medical institution master, a medical department master, a doctor master, a ward master, and a prescription category master.
[0023]
The display device 2, the input device 3, the central processing unit (CPU) 5, and the storage device 4 may be constituted by a personal computer. Note that the hardware device is not limited to these, and the type and the number of hardware devices can be arbitrarily used.
[0024]
The host computer 11 is a computer having a function of transmitting prescription data, and is connected when medicine packaging is performed using the prescription data. Examples of the host computer 11 include a hospital host on which a prescription ordering system and a medical accounting system of a hospital operate, a medical office (receipt) computer of a dispensing pharmacy, and the like.
[0025]
Since the prescription data can be input only by the medicine packaging device, the host computer 11 is not necessarily required. The storage device 4 is an independent file / database server device (CPU built-in), and the display device 2, the input device 3, and the central processing unit (CPU) 5 serve as client terminals, and the server device and the network (LAN The client / server configuration may also be the same as in (1).
[0026]
Next, the medicine packaging process of the medicine packaging apparatus will be described with reference to the flowchart of FIG.
[0027]
In the medicine packaging process, first, an input screen is started from a menu screen (not shown because it is a screen where only start buttons are arranged) (step S1). That is, the “prescription data input” screen shown in FIG. 3 is initially displayed with the display / input fields below the “patient number” field empty.
[0028]
Subsequently, prescription data is input (step S2). The prescription data is input by receiving data from the host computer 11 or keyboard / mouse input, and the input prescription data is written in the memory 9. However, since the prescription data (FIG. 4) is composed only of various codes in order to reduce the amount of data, when displaying the contents of the prescription data on the screen, various codes are used as search keys from various master files. Reads name data. For example, if the drug code is “Shioe” stored in the prescription data, the drug name “Tablet A” is read from the drug master file.
[0029]
In the “input prescription data” screen, the date of today engraved by the calendar clock built in the central processing unit (CPU) 5 is displayed on the dispensing date. The operator (pharmacist) inputs arbitrary prescription data from the patient number. For example, when the patient number “98083671” is entered on the keyboard, the patient name (kana, kanji), gender (male = 1, woman = 2), date of birth (year: Meiji = 1, Taisho = 2, Showa = 3, Heisei = 4) is read from the patient master file and displayed. The age is calculated and displayed from the date of birth and today's date. The prescription date is the date on which the doctor issued a prescription. Initially, today's date is displayed, but any date can be overwritten. In the fields of medical institution, medical department, doctor, ward, and prescription category, when each code is input, name data is read from various corresponding master files and displayed. For example, if “01” is input in the “clinical department code” field, “internal medicine” is displayed. The outpatient / hospitalization code (outpatient = 1, hospitalization = 2) is a patient division code. The exchange number is the number of the “return ticket” that is handed over at the end of the transaction only for outpatients. Since this example is an outpatient prescription, the ward code and room number for the inpatient are blank. The order of packing (repetition = 1, continuous = 2) indicates that the order of packing at the time of taking is repeated “morning, noon, evening, morning, noon, evening” or continuous “morning, morning, noon, noon, evening, evening” ”Is entered. In the “Prescription No.” column, a serial number of “Prescription” in which one or more drugs and usages are combined is input. This “prescription” can be entered in multiple numbers. Basically, the “prescription” unit, that is, prescription number data is packaged as a unit. The “code” column is a column for inputting a drug code or a usage code. When a code is entered, name data is read from the medicine master file or usage master file and displayed. In the “Code” column, a drug code is normally input (for example, “Shioe”), but when a “/” symbol is input at the beginning, a usage code is input thereafter (for example, “301”). The usage name corresponding to “301” is “morning / lunch / after dinner”). In the “Dose / Day” column, the daily dose of the drug is input in the drug row in which the drug code is input. Units (tablet = “T”, capsule = “CAP”, gram = “g”, etc.) are read from the drug master file and displayed. In the usage line in which the usage code has been entered, the number of days is entered in the “Dose / Day” field (for example, “3 days”). Furthermore, as a special usage, if “// 1” is entered in the “Code” column, “Interval Days” is displayed in the usage name, and the interval days are entered in the “Dose / Days” column (for example, “1 day interval”). "). In the “dose time divided amount / dose start date” column, in the case of a drug row, the divided amount obtained by dividing the dose (daily dose) for each dose time is input. In the case of a usage row, the date of the day after the dispensing date (today) is initially displayed as the start date of administration, but any date can be overwritten. If the start date of taking is a date other than the next day, a caution mark “*” is displayed on the start date and the number of days.
[0030]
In the prescription data (FIG. 4), prescription No. 1 shows an example of administration every other day, prescription No. 2 shows a gradual decrease administration, and prescription No. 3 shows an example of alternate administration every other day. In the case of every other day administration of Formulation No. 1, tablet A is for 3 days of every other day administration, and is packaged together with capsule B for 6 days of daily administration. As for taking time, tablet A is “morning”, “noon”, and “evening”, and capsule B is only “morning”. In the gradual reduction administration of Formulation No. 2, capsule C is administered for 4 days in 3 capsules, then reduced to 2 capsules and administered for 3 days. The only time to take is “sleeping”. In alternate administration of Formulation No. 3 every other day, tablet D and tablet E are administered every other day for 4 days and 3 days for a total of 7 days. The dosage period is “morning” and “evening” for both tablet D and tablet E.
[0031]
FIG. 5 shows the supply of medicines for each medicine on the date of taking and the time for taking medicine based on the prescription data (FIG. 4). It should be noted that the sachet is performed only in the dosing period in which the divided amount of the drug exists in the dosing period column. For example, in the prescription No. 1, “11.01” (November 01, 2000) “morning” wraps “tablet A = 1, capsule B = 2”, “daytime” and “evening”. Packs “Tablet A = 1” and does not pack “Sleep”. “11.02” wraps “capsule B = 2” only in “morning”.
[0032]
If the operator (pharmacist) audits and there is no problem with the contents of the prescription data, the user proceeds to the next processing step “acquire prescription No. data” by clicking the “input OK” button with the mouse. If there is a problem, the prescription data being displayed is deleted by clicking the “Cancel” button with the mouse.
[0033]
In obtaining the prescription number data, the first prescription number data is obtained in order to execute the repeated / continuous packaging process (step S3). For example, in the prescription data (FIG. 4), 5-line data of prescription No. 1 is acquired.
[0034]
Next, it is determined whether the packaging order corresponds to repetitive / continuous (step S4). If it is iteration, the process proceeds to “repetitive packaging process” (FIG. 8) described later (step S5). Otherwise, the process proceeds to “continuous packaging process” (FIG. 12) described later (step S6).
[0035]
Further, it is determined whether or not all prescription number data has been acquired (step S7). If all are acquired, it will progress to step S9, and if it is not acquired, the next prescription No. data will be acquired (step S8), it will return to said step S4 and it will repeat from judgment of a packaging order. For example, in the prescription data (FIG. 4), first, four lines of prescription No. 2 are acquired and repeated from the packaging order judgment, and then six lines of prescription No. 3 are acquired and repeated.
[0036]
Thereafter, until the “end” button on the “prescription data input” screen (FIG. 3) is clicked with the mouse by the operator (step S9), the prescription data input in step S2 is repeated, and the “end” button is clicked. Then, the medicine packaging process is finished and the screen returns to the menu screen (not shown).
[0037]
A flowchart of the repetitive packaging process is shown in FIG.
[0038]
In FIG. 8, i indicates an index variable for repeatedly processing data for each drug in the prescription number data. D (i) means the next dose date (sequence data) corresponding to each drug in the prescription number data (year YYYYMMDD), that is, the next dose date to be packaged. The next dosing day D (i) starts from the start date of taking and advances the date according to the interval days for each dosing day (if there are no interval days, the date is advanced one day). N (i) means the number of remaining days (sequence data) corresponding to each drug in the prescription number data, that is, the remaining number of days taken. The remaining number of days N (i) starts from the number of days taken and is reduced to 0 by 1 for each day taken. CT indicates the current dosing time to be processed (wakeup time = 1, morning = 2, daytime = 3, evening = 4, before going to sleep = 5, night = 6, seventh time = 7, eighth time = 8) . CD indicates the current dose date (YYYYMMDD) to be processed. Q (i, CT) indicates a dose time division amount (two-dimensional array data) corresponding to each drug in the prescription number data.
[0039]
In the repetitive packaging process, first, a D / N / CD initial setting process is performed (step S11).
[0040]
In the D · N · CD initial setting process, as shown in FIG. 9, the dose start date (i) in each prescription No. data is added to the next dose date D (i) of all (i = 1 to the number of drugs). Set (step S21). Then, the number of days taken in each prescription No. data is set to all the remaining days N (i) (step S22). Further, the closest (minimum) date among all the start dates is set for the current dose date CD (step S23). For example, in the prescription No. 1, tablet A “D (1) ← 20001101” and capsule B “D (2) ← 20001101” are set. Then, tablet A “N (1) ← 3” and capsule B “N (2) ← 6” are set. Further, “CD ← 20001101” is set.
[0041]
Subsequently, it is determined whether or not all (i = 1 to the number of drugs) next dose D (i) are different from the current dose date CD (step S12). If they are all different (all D (i) ≠ CD), the current dosing date CD is not subject to sachet, so the process proceeds to step S19. Is initially set to “1” when waking up (step S13).
[0042]
Then, it is determined whether or not all the dose time division amounts Q are “0” at the current dose time CT set in step S13 (step S14). If all of them are “0”, they are not targeted for packaging, and the process proceeds to step S16. If one is not “0”, they are targeted for packaging, and the process proceeds to the CD / CT drug supply packaging process (step S15). For example, in the case of prescription No. 1, since “all Q (i, 1) = 0” when waking up, it is out of the scope of packaging.
[0043]
In the CD / CT drug supply packaging process, as shown in FIG. 10, first, an index variable i is initially set to “1” (step S31). For example, in the prescription No. 1, the tablet A with “i = 1” is first targeted. Then, it is determined whether or not the next dose date D (i) is the same as the current dose date CD (step S32). If they are not the same, it is not a target for drug supply, and the process proceeds to step S35. For example, in the case of tablet A “D (1) = 200001103” and “CD = 200001102” in the prescription No. 1, the drug supply is excluded. If they are the same, it is determined whether or not the dose period divided amount Q is “0” at the current dose time CT (step S33). If it is “0”, the medicine supply is out of scope and the process proceeds to step S35. If it is not “0”, the process proceeds to the taking time division amount medicine supply process (step S34). For example, in the prescription No. 1, since there is no “daytime” of the capsule B, “Q (2,3) = 0”, which is outside the scope of drug supply. In the dose period divided amount medicine supply, the dose of the dose time divided quantity Q in the current dose time CT is supplied. Here, it is determined whether or not the index variable i matches the number of medicines that is the final value (step S35). If they do not match, the index variable i is incremented by 1 (step S36), and the process returns to step S32 to repeat from the determination of the next dose D (i). For example, in the prescription No. 1, “1” is increased to “2” and the next capsule B is targeted. If i matches the number of drugs, it is determined whether or not even one drug is supplied (step S37). For example, in the prescription No. 1, i matches “2”. If no medicine is supplied, the process returns to the caller's “repetitive packaging” (FIG. 8). On the other hand, if at least one medicine is supplied, the current medication date CD, the current medication time CT, the patient name, etc. are printed on the medication packaging portion of the wrapping paper (step S38). Then, the medicine of the current taking day CD and taking time CT is packaged with a wrapping paper (step S39).
[0044]
When the CD / CT drug supply packaging process is completed, it is determined whether or not the current dose time CT is the final “8” (8th time) (step S16). If it is “8”, the current dosing time CT is advanced by one (step S17), and the process returns to step S14 to repeat the processing from the determination of “0” for the all-dosing time division amount Q. For example, “1” wake-up is advanced to “2” morning, and the processing from step S14 is repeated. Then, the D / N update process is started (step S18).
[0045]
In the D / N update process, as shown in FIG. 11, first, an index variable i is initially set to “1” (step S41). Then, it is determined whether or not the next dose date D (i) is the same as the current dose date CD (step S42). If they are not the same, they are not subject to update, and the process proceeds to step S45. For example, in the prescription No. 1, the tablet A “D (1) = 200001103” and “CD = 200001102” are not subject to update. If they are the same, the date of the next dose D (i) is set to “1 + interval days (i)” (step S43). At this time, the date is also updated. If there is no data of interval days (i), the interval days is “0”. For example, in the prescription No. 1, tablet A “D (1) ← date {D (1) + 1 + 1}” and capsule B “D (2) ← date {D (2) + 1 + 0}”. Then, the remaining number of days N (i) is decreased by one (step S44). Here, it is determined whether or not the index variable i matches the number of medicines that is the final value (step S45). If they do not match, the index variable is incremented by 1 (step S46), and the process returns to step S42 to repeat from the determination of the next dose D (i). If they match, the process returns to the caller's “repetitive packaging” (FIG. 8).
[0046]
When the D / N update process is completed, it is determined whether or not all remaining days N (i) are “0” (step S19). If all are “0”, the process returns to the “medicine packaging process” (FIG. 2) of the caller. For example, in prescription No. 1, tablet A and capsule B return to “drug packaging” with “N (1) = N (2) = 0”. If even one is not “0”, the date of the current dose is advanced by one day (step S20). At this time, the date is also updated. And it returns to the said step S12 and repeats from judgment of all and the next taking day D (i). For example, if the date is “20001101”, it is updated to “200001102”, and if it is “200001130”, it is updated to “20001201”. As a result of the above, the packing order (dosing date CD and taking time CT) obtained for each prescription data shown in prescription Nos. 1, 2, and 3 is shown in FIG.
[0047]
FIG. 12 shows a flowchart of the continuous packaging process.
[0048]
In the continuous packaging process, first, the current dosing time CT is initially set when waking up (step S51). Then, it is determined whether or not all (i = 1 to the number of drugs) dosing time division amounts Q in the current dosing time CT are “0” (step S52). If all of them are “0”, the current dosing time CT is not subject to packaging, and the process proceeds to a CT final determination (step S59) described later. On the other hand, if even one of the dose time division amounts Q is not “0”, it is an object to be packaged, and thus the D · N · CD initial setting process shown in FIG. 9 is performed (step S53). Here, it is determined whether or not all the next dose dates D (i) are different from the current dose date CD (step S54). If at least one is the same, it is a target for packaging, and as described above, after the CD / CT drug supply packaging process shown in FIG. 10 (step S55), the D / N update process shown in FIG. 11 is started (step S56). ). On the other hand, if all the next dose dates D (i) are different, the current dose date CD is not subject to packaging, so the D / N update process is started without performing the CD / CT drug supply packaging process ( Step S56). Thereafter, it is determined whether or not all the remaining days N (i) are “0” (step S57). If even one is not “0”, the date of the current taking day CD is advanced by 1 (step S58). ). At this time, the date is also updated. And it returns to the said step S54 and repeats from all and the next taking day "0" judgment. On the other hand, if all are “0”, it is determined whether or not the current dose time CT is the final “8” (8th time) (step S59). If it is “8”, the process returns to the “medicine packaging process” (FIG. 2) of the caller, and if it is not “8”, the current taking time CT is advanced by one (step S60). It repeats from "0" judgment of dosing time division amount Q.
As a result of the above, the packing order (dosing date CD and taking time CT) obtained for each prescription data shown in prescription Nos. 1, 2, and 3 is shown in FIG.
[0049]
【The invention's effect】
As is clear from the above description, according to the present invention, it is possible to specify the number of interval days and the start date by taking the day of administration as a unit, so that it is possible to specially combine every other day administration, gradually decreasing or gradually increasing administration, and every other day alternate administration. The prescription can be automatically packaged. In addition, the pharmacist does not manually divide and package, and the labor and time of dispensing can be reduced. By specifying both repeated and continuous packing in the packing order, it is possible to easily create a packing bag band suitable for the medication / medication situation of a patient or medical facility.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a device configuration of a medicine packaging apparatus.
FIG. 2 is a flowchart showing a medicine packaging process.
FIG. 3 is a diagram showing a screen of “input prescription data”.
FIG. 4 is a chart showing stored contents of prescription data.
FIG. 5 is a chart for explaining drug supply.
FIG. 6 is a chart for explaining repetitive packaging.
FIG. 7 is a chart for explaining continuous parcels.
FIG. 8 is a flowchart showing the repeated packaging process.
FIG. 9 is a flowchart showing D / N / CD initial setting processing;
FIG. 10 is a flowchart showing processing of a CD / CT drug supply packaging.
FIG. 11 is a flowchart showing D / N update processing;
FIG. 12 is a flowchart showing a process of continuous packaging.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Drug division packaging mechanism apparatus 2 ... Display apparatus 3 ... Input device 4 ... Storage device 5 ... Central processing unit 6 ... Drug supply part 7 ... Drug packaging part 8 ... Separation paper printing part 9 ... Memory 10 ... Control program 11 ... Host computer

Claims (6)

A medicine supply means for supplying the medicine;
Packaging means for packaging the medicine supplied from the medicine supply means;
Storage means for storing prescription data including medication and timing of taking;
Based on the prescription data stored in the storage means, wherein the agent from the supply means a supply process of Ru is supplied to the appropriate drug, control means for performing a packing process for Buntsutsumi per dose timing by said packing means When,
In a medicine packaging device comprising:
The prescription data stored in the storage means includes, for each drug, input information including a start date of taking, a dose time division amount, a dose, and the number of days.
The said control means performs the said supply process and the said packaging process in the said prescription data unit based on the input information contained in the prescription data of the said memory | storage means, The medicine packaging apparatus characterized by the above-mentioned . 2. The medicine packaging device according to claim 1, wherein the dose time division amount of the input information is a list of drug doses at each dose time . 3. The medicine packaging apparatus according to claim 1, wherein the prescription data stored in the storage means can include a plurality of different input information for the same medicine . The storage means includes, as prescription data to be stored, input information in the case of continuous administration, administration every other day, gradual administration, or alternate administration every other day,
When there are a plurality of pieces of input information included in the same prescription data, the control means is based on a plurality of pieces of input information in which continuous administration, every other day administration, or gradual administration is combined if the input information relates to the same medicine. If the supply process and the sachet process can be performed and are related to different drugs, the supply process and the supply process based on a plurality of input information combining continuous administration, every other day administration, gradual administration, or every other day alternate administration The medicine packaging apparatus according to any one of claims 1 to 3, wherein the packaging process is executable . The control means rearranges all medicines included in the prescription data stored in the storage means in order from the medication start date in order of the medication date and the medication time according to the input information, and causes the packaging device to package the medicines. The medicine packaging apparatus according to any one of claims 1 to 4, wherein repeated packaging is performed . The control means classifies all medicines included in the prescription data stored in the storage means according to the input information according to the dosage time, and rearranges in order of the dosage date from the dosage start date for each dosage period, The medicine packaging apparatus according to any one of claims 1 to 4, wherein continuous packaging is performed by the packaging means.

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