The present invention relates to a medicine distributing system capable of automating manual medicine dispensation.
So-called manual medicine dispensing devices (individual medicine distributing devices) incorporated in a medicine dispensing apparatus have been put into practical use (see Patent Documents 1 and 2, for example). In the manual medicine dispensing device, a spare dispensing cassette (spare individual distributing cassette) is provided to be drawable from a housing of the medicine dispensing apparatus. A large number of small sectioned chambers (cells) are formed in the spare dispensing cassette to be arranged in columns and rows. The cells each have an opened top to allow input of medicines. The lower surface or bottom wall of the cells is formed from an openable bottom plate, such as a shutter, to discharge medicines. In the manual medicine dispensing device (individual medicine distributing device) according to the related art, medicines are manually input and automatically discharged. Thus, in the housing of the medicine dispensing apparatus, a transporting device (conveyor) is provided under the spare dispensing cassette which has been pushed in. The transporting device has cells corresponding to the cells of the spare dispensing cassette, receives medicines discharged from the cells of the spare dispensing cassette in the cells of the transporting device, and feeds a packing device with the medicines in an amount corresponding to one cell of the spare dispensing cassette at a time. In order to allow the medicines in the cells of the spare dispensing cassette to be collectively transported to the corresponding cells of the transporting device, the bottom plates of the cells in the spare dispensing cassette are configured to be collectively opened and closed for all the cells in the spare dispensing cassettes in response to an operation of a shutter lever, for example. The spare dispensing cassette is not provided with a drive source such as a motor.
Such manual medicine dispensing devices are further configured to indicate the number of cells and the names of the medicines (medicine names). The indication of the number of cells (see Patent Document 1, for example) is intended to reduce the mental burden on an operator who is expected not to mistake the number of packages to be manually dispensed. The number of cells to be used is indicated to the operator in charge of manual dispensation by indicating the number of cells through a two-digit LED, indicating the number of column cells and the number of row cells, or indicating the position of the cell by light emission from one of LEDs disposed for the cells, respectively, or by light emission from LEDs disposed around the cell. In addition to the indication of the number of cells, an indication for double dispensation is also provided. The indication of the medicine names (see Patent Document 2, for example) is printed by a printer along with the reference number of a prescription for manual dispensation.
In the manual medicine dispensing devices according to Patent Documents 1 and 2, all the components are incorporated in the medicine dispensing apparatus. Thus, it is only possible to have the medicines individually distributed beforehand to the cells through manual dispensation for the next dispensation at most, and there inevitably occurs a waiting time for subsequent dispensations. Thus, in order to have the medicines distributed to a spare cassette for a number of subsequent dispensations, there also have been developed several manual medicine dispensing devices (medicine distributing systems) provided separately from the medicine dispensing apparatus (see Patent Documents 3 and 4, for example). In the medicine distributing systems according to Patent Documents 3 and 4, a spare dispensing cassette provided in the manual medicine dispensing device incorporated in the medicine dispensing apparatus and formed with a large number of cells is drawn out toward the front of the medicine dispensing apparatus, and further removed from the manual medicine dispensing device to be used. Thus, the medicine distributing system includes the manual medicine dispensing device, a frame member, and a manual dispensing portion. The frame member is provided separately from the manual medicine dispensing device. The manual dispensing portion is provided to the frame member. The manual dispensing portion includes a large number of input ports formed through the manual dispensing portion and disposed in an arrangement corresponding to the arrangement of the cells of the spare dispensing cassette. A variety of improvements have been made to indicate input ports in a manual dispensation range by means of illumination (see Patent Document 3, for example), and to appropriately limit the range in which medicines put into input ports fall into a spare dispensing cassette through individual opening—closing members (see Patent Document 4, for example).
Patent Document 1: JP03-240604A
Patent Document 2: JP03-240603A
Patent Document 3: JP2007-209600A
Patent Document 4: JP2007-297066A
Thus, also for the manual medicine dispensing devices which complement the automation of the medicine dispensing apparatus, improvements have been made to form a medicine distributing mechanism portion separately from the medicine dispensing apparatus in order to avoid interruption of automatic dispensing operation, and to provide an assisting system configured to prevent a mistake in manual dispensation.
In medicine dispensation, however, automatic processing performed by machines and manual work performed by humans are different in degree of accuracy by an order of magnitude. According to one theory, the frequency of occurrence of a mistake in medicine dispensation is about a hundred times higher with manual work than with automatic processing. In addition, the efficiency with manual work is generally lower than that with automatic processing.
Thus, a technical issue to be addressed is to achieve a medicine distributing system configured to automate manual medicine dispensation in order to improve the accuracy and the efficiency of medicine distribution to a spare dispensing cassette (an individual medicine distributing cassette).
An object of the present invention is to provide a medicine distributing system configured to automate medicine dispensation which has been performed manually in the related art.
The present invention provides a medicine distributing system including an input portion, a cassette placement portion, a medicine container placement portion, a medicine transporting device, and a distribution control device. The input portion allows input of individual medicine distribution information for an individual medicine distributing device provided at a medicine dispensing apparatus. The cassette placement portion serves for placement of a spare individual distributing cassette including a plurality of cells each having an opened top and an openable bottom wall to contain one or more medicines. The medicine container placement portion serves for placement of a medicine container containing a plurality of the medicines. The medicine transporting device performs a transporting operation in which a medicine designated according to the individual medicine distribution information is taken out of the medicine container placed in the container placement portion to put the medicine, which has been taken out, through the opened top into the cell of the spare individual distributing cassette placed in the cassette placement portion. The transporting operation is continued until the medicine in an amount designated according to the individual medicine distribution information is completely distributed to the designated cell. The distribution control device controls the operation of the medicine transporting device based on the individual medicine distribution information.
The medicine distributing system according to the present invention is disposed separately from a medicine dispensing apparatus provided with an individual medicine distributing device (corresponding to the existing manual medicine dispensing device). The individual distributing cassette which may be used for the individual medicine distributing device is placed on the cassette placement portion. The medicine container containing individual medicines that may not be distributed by the medicine dispensing apparatus (medicines for individual distribution and manual dispensation) is placed on the medicine container placement portion. Then, the distribution control device acquires relevant individual medicine distribution information (corresponding to the manual medicine dispensation information according to the related art) through data input from the input portion by operating the operating portion or the like, or through data transmission from the medicine dispensing apparatus or a host control device that provides the medicine dispensing apparatus with a pharmaceutical indication. Medicines are taken out of the medicine container and put into the cells of the individual distributing cassette by the medicine transporting device according to control by the distribution control device. Consequently, medicine distribution which has been performed through manual dispensation in the related art is instead performed through automatic processing, which improves the accuracy and the efficiency of medicine distribution to the individual distributing cassette. Thus, according to the present invention, it is possible to achieve a medicine distributing system configured to automate manual medicine dispensation.
The medicine distributing system may further include a carrier placement portion and a medicine container transporting device. The carrier placement portion serves for placement of a medicine container carrier housing a plurality of medicine containers containing the medicines. The medicine container transporting device takes out one of the plurality of medicine containers from the medicine container carrier placed in the carrier placement portion, and places the medicine container on the medicine container placement portion. Providing the medicine container transporting device can increase the amount or the number of types of medicines for the number of medicine containers mounted to the medicine container carrier, which allows even medicines of a large number of types or in a large amount to be automatically distributed to the individual distributing cassette accurately and efficiently.
The medicine containers may each have an opened top, and may be shaped like a dish, for example. In this case, the medicine container carrier may be configured to house the plurality of medicine containers such that the medicine containers are vertically aligned in a column with the opened tops facing upward. The medicine container transporting device may include a carrier elevating device and a reciprocally moving device. The carrier elevating device moves the medicine container carrier in a vertical direction. The reciprocally moving device draws out the medicine container from the medicine container carrier to the medicine container placement portion, and returns the medicine container to the medicine container carrier upon completion of the medicine transporting operation. Use of the medicine container carrier and the medicine container transporting device configured as described above allows the medicines to be contained in several medicine containers according to the medicine type, in appropriate amounts, or the like and allows the medicine containers to be housed in the medicine container carrier in a vertical column when there are a plurality of types of or a large number of medicines to be distributed to the individual distributing cassette. The medicine container carrier is placed in the carrier placement portion, and the medicine containers are successively taken out of the medicine container carrier by the medicine container transporting device. Then, the medicine transporting device automatically executes medicine distribution. Thus, according to the present invention, even medicines of a large number of types or in a large amount can be distributed to the individual distributing cassette accurately and efficiently.
Preferably, the medicine container carrier includes a lock mechanism configured to allow the plurality of medicine containers to be taken out of the medicine container carrier when the medicine container carrier is placed in the carrier placement portion, and to prevent the plurality of medicine containers from slipping out of the medicine container carrier when the medicine container carrier is lifted from the carrier placement portion. Incorporating such a lock mechanism in the medicine container carrier allows the medicine containers to be carried and set casually and adequately.
The configuration of the medicine transporting device is not specifically limited. The medicine transporting device may include a handling robot and an exchangeable unit. The handling robot is driven by the distribution control device. The exchangeable unit is exchangeably provided at a distal end of an arm of the handling robot, and includes one or more medicine holding members to perform a holding operation and a releasing operation under control by the distribution control device. In this case, preferably, the medicine distributing system further includes a unit storage device and a cleaning device. The unit storage device exchangeably stores the plurality of exchangeable units. The cleaning device cleans the exchangeable unit that is stored in the unit storage device and that has been used. The handling robot is easily available, and therefore facilitates forming the medicine transporting device. Storing the plurality of exchangeable units in the unit storage device and causing the cleaning device to clean the exchangeable unit that is stored in the unit storage device and that has been used allows the medicine holding members of the exchangeable unit to be repeatedly utilized. Therefore, the medicine distributing process can be continued inexpensively in a clean state.
Specifically, the exchangeable unit may replaceably include one or more medicine holding members. The one or more medicine holding members may each be a suction nozzle driven by air. In this case, the cleaning device may be a suction cleaning device configured to suction matter attached to the suction nozzle that has been used. In this case, preferably, the suction cleaning device includes a brushing device and a dust collector. The brushing device comes in contact with the suction nozzle to brush off powder of the medicine attached to the suction nozzle. The dust collector suctions the powder of the medicine brushed off by the brushing device. Use of the thus configured suction cleaning device can reliably remove the powder of the medicine from the medicine holding members.
The medicine distributing system may further include a cassette advancing/retracting device configured to convey the individual distributing cassette into and out of the cassette placement portion. This further promotes automation.
The medicine distributing system may further include a cassette transfer device configured to transfer the spare individual distributing cassette from the cassette placement portion to the individual medicine distributing device of the medicine dispensing apparatus. The individual distributing cassette which has been subjected to medicine distribution at the cassette placement portion is transferred to the medicine dispensing apparatus by the cassette transfer device. Thus, not only distribution of the medicines to the individual distributing cassette but also setting of the individual distributing cassette to the medicine dispensing apparatus is automatically processed. Thus, according to the present invention, it is possible to achieve a medicine distributing system configured to set the individual distributing cassette in addition to manually dispensing the medicines.
A medicine distributing system according to an embodiment of the present invention will be described below with reference to the drawings. In the following description, for the sake of clarity etc., fasteners such as bolts, couplers such as hinges, driving sources such as electric motors, power transmission members such as timing belts, electric circuits such as motor drivers, and electronic circuits such as controllers are not illustrated, and components necessary for or related to description of the present invention are mainly illustrated.
The medicine distributing system 10 (see
The internal space of the housing 11 is partitioned into upper and lower spaces by the board 13 having a sufficient mechanical strength. Various mechanical components are disposed in the space above the board 13 and the space immediately below the board 13. An electrical component portion is disposed on a bottom plate 15 located below the board 13.
Although not shown, the electrical component portion houses air piping for vacuum chucks, air piping for a cleaner, etc. in addition to a distribution control device 19 (
A portion of outer plates of the housing 11 that mainly surrounds the space above the board 13 is provided with a large door 12 for maintenance, a small door 14 for entry and exit of the medicine container carrier 20, a cassette entry/exit port 16 for entry and exit of an individual distributing cassette 6, an operating portion 17 that also serves as an input portion in which several push buttons are disposed, for example, to manually command entry and exit operations of the individual distributing cassette 6 and a start of medicine distribution, and a display 18 formed from a liquid crystal display, for example, to visually display the apparatus operating state and individual medicine distribution information (corresponding to the manual medicine dispensation information according to the related art). Casters for movement and bolts for fixation are also provided on the lower surface of the bottom plate 15.
The medicine container carrier 20, a medicine container 2, and the individual distributing cassette 6 are provided as components to be inserted into and drawn out of the medicine distributing system 10 (see
The medicine container carrier 20 (see
In the box member 21 of the medicine container carrier 20 (see
On the contrary, as shown in
The medicine containers 2 (see
Medicines 4 shown in
The individual distributing cassette 6 is a cassette removably attachable to the existing individual medicine distributing device (manual medicine dispensing device) incorporated in the separate medicine dispensing apparatus 80 (
The internal structure of the medicine distributing system 10 will be described with reference to
The medicine container transporting device 30 takes out the medicine containers 2, one at a time, from the medicine container carrier 20 placed in the carrier placement portion 31 to transfer the medicine container 2 to the medicine container placement portion 34 for temporary storage, and returns the medicine container 2 which has been emptied to the medicine container carrier 20. The medicine container transporting device 30 includes the medicine container placement portion 34 which is provided with a guide, a stopper, or the like that is larger than the bottom surface of the medicine container 2 to allow the medicine container 2 containing the medicines 4 to be temporarily disposed in a stationary posture.
The medicine distributing system 10 additionally includes a cassette placement portion 36 and a cassette advancing/retracting device 35 provided on the board 13. The cassette placement portion 36 is a drawing mechanism configured to advance and retract through the cassette entry/exit port 16 for temporary placement of the individual distributing cassette 6. The cassette advancing/retracting device 35 allows the individual distributing cassette 6 on the cassette placement portion 36 to enter and exit through the cassette entry/exit port 16 by expanding and contracting a drawing member of the cassette placement portion 36.
The medicine distributing system 10 further includes a plurality of exchangeable units 42, a lighting unit 43, an image sensing device 44, a medicine transporting device 45, and a unit storage 46. The plurality of exchangeable units 42 are each provided with a plurality of, for example, three, medicine holding members 41 configured to suction and hold the medicines 4 through vacuum suction, for example. The lighting unit 43 illuminates the medicine container 2 placed on the medicine container placement portion 34. The image sensing device 44 images the medicines 4 in the medicine container 2 placed on the medicine container placement portion 34. The medicine transporting device 45 may carry one of the exchangeable units 42 being used. The unit storage 46 may be mounted with a plurality of exchangeable units 42 standing by.
The medicine transporting device 45 includes a general-purpose handling robot, for example. The handling robot includes an arm 45A capable of not only horizontal movement (movement in the X and Y directions) but also vertical movement (movement in the Z direction). The exchangeable unit 42 is mounted to the distal end of the arm 45A. The other end of the arm 45A is rotatably attached to an end of a rotary arm 45B. A servomotor (not shown) is disposed at an articulating mechanism between the arm 45A and arm 45B. A motor 45C has a shaft to which the other end of the arm 45B is coupled. The motor 45C makes both rotational motion and linear motion, as a result of which the arm 45A makes horizontal movement and vertical movement, respectively.
The medicine transporting device 45 automatically performs medicine distribution by moving the distal end of the arm 45A to the medicine container placement portion 34 to take out the medicines 4 in the medicine container 2 placed on the medicine container placement portion 34 through the medicine holding members 41, and moving the distal end of the arm 45A to the individual distributing cassette 6 to put the medicines 4 into the cells 8 of the individual distributing cassette 6 placed on the cassette placement portion 36. In the embodiment, as described in detail later, the medicine holding members 41 are each a suction nozzle that utilizes air.
In the embodiment, although not shown
The cleaning device 50 includes a cleaning brush 51 (brushing device) and a dust collector 53. The cleaning brush 51 is rotated about an axis by a rotary brush supporting portion 52. The dust collector 53 includes a suction port directed toward the cleaning brush 51. The cleaning device 50 may be other types of cleaning means, rather than the type showing in the drawing. The cleaning device 50 is configured to clean the medicine holding members 41 mounted to the exchangeable unit 42 which has approached the cleaning device 50 through rotation etc. of the unit storage 46, among the exchangeable units 42 held by the unit storage 46, either standing by to be mounted to the medicine transporting device 45 or returned after use at the medicine transporting device 45.
The distribution control device 19 includes a programmable microprocessor or sequencer, for example. The distribution control device 19 acquires, from a control device for the medicine dispensing apparatus 80 incorporating the individual medicine distributing device (manual medicine dispensing device) or a host control device configured to provide the medicine dispensing apparatus with a pharmaceutical indication, individual medicine distribution information related to the individual medicine distributing device (manual medicine dispensing device) of the medicine dispensing apparatus, if any, through appropriate wired or wireless communication means, and controls an operation of the medicine transporting device 45 and other devices based on the individual medicine distribution information. The handling robot is adequately driven through recognition of the medicines 4 and position verification based on image data obtained with the imaging device 44.
The content of control performed by the distribution control device 19 will be described with reference to the flowchart of
When an operator checks the display or the prescription, the operator manually collects necessary medicines 4 from a medicine storage or the like, and separately distributes the necessary medicines in several medicine containers 2 according to the medicine type, for example. Further, the medicine containers 2 are housed in the medicine container carrier 20. After the medicine containers 2 are housed, the medicine container carrier 20 is carried to the medicine distributing system 10 with the medicine containers 2 locked by the lock mechanism 25 not to slip out of the medicine container carrier 20, and the medicine container carrier 20 is placed in the carrier placement portion 31 through the small door 14. When the medicine container carrier 20 is placed in the carrier placement portion 31, the lower end of the rod 27 of the lock mechanism 25 is pushed up by the carrier placement portion 31. This unlocks the medicine container carrier 20 to allow the medicine containers 2 to be taken out.
Before or after the medicine container carrier 20 is set, the operating portion 17 is operated to advance the cassette placement portion 36 out of the cassette entry/exit port 16. After an empty individual distributing cassette 6 is placed on the cassette placement portion 36, the cassette placement portion 36 is lightly pushed, or the operating portion 17 is operated again, to retract the cassette placement portion 36 back to its original position and draw the individual distributing cassette 6 inside through the cassette entry/exit port 16.
Now that preparations have been made for automatic processing of medicine distribution, the operating portion 17 is operated to start automatic processing of medicine distribution (steps ST2 and ST3). Then, the distribution control device controls operations of various members based on the individual medicine distribution information to automatically execute medicine distribution (steps ST4 to ST14).
More particularly, in step ST4, the medicine containers 2 are fed, one at a time, from the medicine container carrier 20 to the medicine container placement portion 34 by the medicine container transporting device 30 under control by the distribution control device 19. The medicine type and the position of the medicines 4 contained in the medicine container placement portion 34 are detected by reading a code or characters based on image data from the image sensing device 44 and further by data processing such as pattern extraction and matching. In the example, if a wrong medicine container has been conveyed, the process returns to step ST4 by way of step ST6 to feed the correct medicine container to the medicine container placement portion 34. It is also possible for the process to directly proceed from step ST4 to step ST7, without providing steps ST5 and ST6, so that the medicine transporting device 45 takes the medicines 4 out of the medicine container 2 in the medicine container placement portion 34 according to the results of comparison between the medicine type and the position detected based on the image from the image sensing device 44 and the individual medicine distribution information and the medicines 4 which have been taken out are put into appropriate cells 8 of the individual distributing cassette 6. Next, in step ST9, the medicine container carrier 20 housing the medicine container 2 which has been emptied is returned to its height at the time when it was set. The unit storage 46 operates in the following step ST10 to exchange the exchangeable units in step ST11. Then, a cleaning operation is executed in step ST12, and an operation of the handling robot is finished in step ST13. In step ST14, it is determined whether or not there are further medicines to be distributed. If there are further medicines to be distributed, the process returns to step ST4 to repeat similar operations. When it is confirmed in step ST14 that medicine distribution indicated by the individual medicine distribution information has been finished, the individual distributing cassette 6 is ejected from the cassette entry/exit port 16, and the display 18 displays an indication of finish of distribution in step ST15.
If the same medicines are contained in a plurality of the same medicine containers, steps ST10 to ST12 are omitted, and it is determined in step ST14 whether or not distribution of medicines in n medicine containers has been finished.
In this way, distribution of the medicines 4 to the individual distributing cassette 6 is efficiently and immediately performed through automatic medicine distribution performed by the medicine distributing system 10. Moreover, the distribution is executed with high accuracy to cause few distribution errors.
Only preparation such as assorting the medicines 4 and setting the individual distributing cassette 6 and post-processing such as taking out the medicine container carrier which has been subjected to medicine distribution and transporting the individual distributing cassette 6 to the manual medicine dispensing device depend on operator's work.
A specific configuration of a medicine distributing system according to a third embodiment of the present invention will be described with reference to the drawings.
The configurations shown in
In the configuration of
In the configuration shown in
In the configuration shown in
According to the present invention, it is possible to achieve a medicine distributing system configured to automate manual medicine dispensation.
Number | Date | Country | Kind |
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2011-053258 | Mar 2011 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2012/056092 | 3/9/2012 | WO | 00 | 9/9/2013 |
Publishing Document | Publishing Date | Country | Kind |
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WO2012/121365 | 9/13/2012 | WO | A |
Number | Name | Date | Kind |
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20050021173 | Pinney | Jan 2005 | A1 |
20090152291 | Ohmura et al. | Jun 2009 | A1 |
20090188937 | Kim | Jul 2009 | A1 |
20110139293 | Yuyama et al. | Jun 2011 | A1 |
Number | Date | Country |
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03-240603 | Oct 1991 | JP |
03-240604 | Oct 1991 | JP |
2007-209600 | Aug 2007 | JP |
2007-297066 | Nov 2007 | JP |
2009-067434 | Apr 2009 | JP |
2009-067438 | Apr 2009 | JP |
2009-96557 | May 2009 | JP |
2010-046469 | Mar 2010 | JP |
4585629 | Nov 2010 | JP |
2011018998 | Feb 2011 | WO |
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Number | Date | Country | |
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20130345859 A1 | Dec 2013 | US |