JP4097759B2 - Dispensing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a dispensing device that identifies tablets, and more particularly, to a dispensing device such as a tablet identification device that supports a drug auditing operation including tablet type determination at the time of tablet packaging.
[0002]
[Prior art]
FIG. 9 shows a schematic front view and FIG. 10 shows an internal schematic diagram. A tablet packaging machine 10 receives and collects tablets discharged from a large number of tablet feeders, and a tablet collecting mechanism below the tablet collecting mechanism. A packaging device provided with a tablet insertion unit for automatic packaging of tablets, and a counting audit device 20 connected as a medicine auditing support device, and counting audit of tablets that are packaged at the time of tablet packaging It came to support the drug audit work about.
[0003]
That is, in the case of the tablet packaging machine 10, a drug store 11, a collection hopper 12 as a tablet collecting mechanism, and a packaging device 13, in particular, its tablet loading unit 16, are arranged up and down in this order. A large number of tablet feeders 14 are placed side by side on the inner shelf. Each tablet feeder 14 accommodates various tablets separately for each type of medicine.
[0004]
Then, under the control of the controller 15, the tablets 1 discharged from some of the tablet feeders 14 based on the designation of the prescription etc. fall into the collection hopper 12 through a chute etc. (not shown) and are collected there From the outlet, the tablet is loaded into the tablet loading portion 16 of the packaging device 13 disposed below. The tablet 1 is packaged in the packaging band 2 by the packaging device 13 through such a tablet loading route. Then, the wrapping band 2 that wraps the required varieties and the number of tablets 1 for each dosage unit is sequentially sent to the counting inspection device 20 (refer to the dotted line with arrows in each figure for the tablet insertion path and the like).
[0005]
The counting inspection apparatus 20 includes a camera 21, a counting determination unit 22, and a CRT 23. The camera 21 takes a picture of the tablet 1 packaged in the wrapping band 2, and the counting determination unit 22 performs tableting based on the image data. The number is counted, the pass / fail judgment is performed, and an image is displayed on the CRT 23 for further visual confirmation. In this manner, the mechanized processing is supported for the counting audit in the medicine auditing work associated with the tablet packaging.
[0006]
As described above, the conventional tablet packing machine and the audit support device thereof are limited to mechanization of the counting audit, and the tablet identification device that requires even the individual tablet type determination has not yet reached the practical range.
On the other hand, the optimal feature extraction based on principal component analysis was published in the title of “Building a tablet identification system using parameter design” on page 2694 and subsequent pages of “Journal of Information Processing Society of Japan Vol.35 No.12”. Since tablet identification technology using feature dictionaries has been improved by making it possible to create a tablet identification device using this tablet identification technology, it is possible to include even tablet type determination when packaging tablets. Supporting drug auditing has become feasible.
[0007]
[Problems to be solved by the invention]
However, the process of identifying even the type of each tablet needs to take a finer image and process a huge amount of data compared to the counting process as well as the packaging process. This tends to cause a decrease in throughput.
Therefore, in concrete realization of a dispensing device such as a tablet identification device linked to a tablet packaging machine, avoid such inconvenience and prompt support for drug auditing work including tablet type determination at the time of tablet packaging. It is a challenge to devise a system configuration that can be used.
[0008]
This invention was made in order to solve such a subject, and it aims at implement | achieving the dispensing apparatus which can perform the process of the tablet identification performed at the time of tablet packaging efficiently.
[0009]
[Means for Solving the Problems]
About the dispensing apparatus of this invention made | formed in order to solve such a subject, the structure and effect are demonstrated below.
[0010]
The dispensing device of the present invention (as described in claim 1 at the beginning of the application) has a large number of tablet feeders containing various kinds of chemicals and collects and packages the required tablets from these tablet feeders. A dispensing device (such as a tablet identification device or a tablet inspection support device) connected to a tablet packaging machine and identifying a tablet in conjunction with dispensing in the tablet packaging machine, supplied from the tablet packaging machine A mounting mechanism for receiving the tablet, and an imaging device and a cleaning mechanism are provided separately toward the mounting mechanism.
[0011]
Here, the above-mentioned “tablet” includes not only a general ball-shaped tablet but also a capsule capable of the same packaging process by a tablet packaging machine.
[0012]
In the dispensing device having such a configuration, the tablet is transported from the tablet packaging machine to the placement mechanism by the transport mechanism or the like at the time of dispensing and is imaged by the imaging device and used for the tablet identification process. Then, the identified tablet is returned to the packaging machine, and after the tablet is discharged, it is cleaned by a cleaning mechanism to receive the next tablet.
[0013]
In this way, tablet identification in conjunction with the package preparation is performed for each individual tablet. At this time, since the imaging device and the cleaning mechanism are separated, parallel processing is possible.
[0014]
Therefore, according to the present invention, it is possible to realize a dispensing device that can efficiently perform the tablet identification process performed at the time of tablet packaging.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
About the dispensing apparatus of this invention achieved by such a solution means, the form for implementing this is demonstrated.
[0016]
[First Embodiment]
By the way, the process of identifying even the type of each tablet needs to take a finer image and process a huge amount of data compared to the process of counting determination, etc. This is difficult to achieve with a slight modification of the counting judgment unit. For this reason, since it is necessary to provide the tablet identification device separately from the counting inspection device, it is considered that the tablet identification device is inserted after the counting inspection device or inserted between the tablet packaging machine and the counting inspection device. It is done.
However, in this case, since imaging and identification of tablets are performed after packaging, in order to take fine images, the material of the packaging band is limited or the number of packaged tablets is reduced so that the tablets do not overlap. There is a need to. In addition, it is necessary to ensure that a wide imaging range is secured in correspondence with the development range of a plurality of tablets and that each tablet image is accurately cut out one by one from the plurality of tablet images prior to individual identification determination. I must. For this reason, even if the purpose is to support drug auditing based on image processing, the same method as the counting auditing device attached to the tablet packaging machine is adopted when mounting the tablet identification device attached to the tablet packaging machine. That is not valid.
Therefore, in concrete realization of a tablet packaging machine with a tablet identification device, a system configuration that can avoid such difficulties and can sufficiently support drug auditing work including tablet type determination at the time of tablet packaging. It is important to devise. As for the tablet packaging machine body, a method has been established in which tablets discharged from a large number of tablet feeders are collected by a tablet collection mechanism such as a collection hopper and then loaded into the tablet loading part of the packaging device. It is also important to maintain its advantages, such as being able to package multiple types of tablets without damaging them.
[0017]
For this purpose, the first embodiment is a tablet packaging machine as described above, which receives and collects tablets discharged from a large number of tablet feeders, and a tablet at a tablet input destination such as below the tablet collection mechanism. In a tablet packaging machine having a packaging device in which an input part is arranged, a tablet identification device that has a loading mechanism and identifies a tablet placed thereon is attached (sideways), A tablet transporting mechanism capable of reciprocating transport (horizontally or horizontally) inserted into a tablet input path from the tablet collecting mechanism to the tablet input unit (the other end) extending to the placement mechanism. It is characterized in that it is interposed (in a state of being laid horizontally and obliquely).
[0018]
In the tablet packaging machine configured as described above, the tablets discharged from each tablet feeder are collected by the tablet collecting mechanism and then transferred to the tablet input unit of the lower packaging device before being supplied to the tablets. It is conveyed by the mechanism to the mounting mechanism of the tablet identification device. In this case, tablet identification is performed by a tablet identification device. Then, it is again transported by the tablet transport mechanism, returned to the tablet input portion, and then packaged by the packaging device.
Therefore, since the tablet insertion route is routed from the tablet packaging machine main body to the tablet identification device, the tablet identification processing by the tablet identification device is performed outside the tablet packaging machine main body between the tablet collection mechanism and the tablet loading unit. This is performed immediately before the packaging by the packaging device.
As a result, the tablet identification device is attached to the main body of the tablet packaging device in the same manner as the counting inspection device, but unlike the counting inspection device, the tablet is identified immediately before packaging instead of after packaging. In addition, it is not necessary to limit the material of the wrapping band or secure a wide shooting range corresponding to the size of the wrapping bag, so that the imaging device of the tablet identification device is small and inexpensive in time, The burden of the identification process for the image data in the tablet identification apparatus can be reduced. Moreover, since the tablet after the identification processing is returned immediately for packaging, there is no possibility that the correspondence relationship between the packaged tablet and its identification information is impaired.
In addition, the tablet transporting mechanism interposed between the tablet packing machine and the tablet identification device attached thereto is only partly inserted between the tablet collecting mechanism and the tablet loading unit. Is based on the conventional method of collecting tablets discharged from a large number of tablet feeders by a tablet collection mechanism such as a collection hopper and putting them into the tablet input part of the packaging device. The same number is generally secured. Thus, while maintaining this advantage, by adding a tablet identification device or the like, it is possible to easily identify individual varieties of individual tablets.
Therefore, according to this embodiment, it is possible to realize a tablet packaging machine that can identify tablets without impairing the packaging function during tablet packaging.
[0019]
[Second Embodiment]
Tablet identification such as product type identification is performed for individual tablets, and if the correspondence with the packaging unit is secured at the time of tablet packaging, a plurality of packaging units are identified at a time. Is not necessary.
[0020]
Therefore, the second embodiment is the above-described tablet packaging machine, and when the tablets to be identified by the tablet are discharged from the tablet feeder, the tablets are discharged for each tablet in synchronization with the transport state of the tablet transport mechanism. And a control device that controls the operation of the tablet feeder and the tablet transport mechanism.
[0021]
In this case, since the tablets are subjected to the identification process in order of one tablet, the tablet transport mechanism is small as long as the tablets can be divided and transported one by one, and the tablet packaging machine body is affected by that amount. In addition, the tablet identification device needs to be configured on the premise of processing for each tablet. Therefore, the mounting mechanism and the imaging device become considerably small, and the image of multiple tablets. The process of cutting out the image of each individual tablet from the inside becomes unnecessary. Thereby, in addition to miniaturization of the mechanism part, simplification and speeding up of the identification process can be achieved.
[0022]
[Third Embodiment]
Since a part of the tablet transport mechanism is inserted between the tablet collecting mechanism and the tablet input part of the packaging device, the tablet packaging machine main body is inevitably changed, but it is desired to suppress the change as much as possible.
Therefore, in the third embodiment, the tablet transport mechanism is a transport conveyor, and the transport conveyor has a driven end located on the tablet packaging machine side and a drive end located on the tablet identification device side. It is characterized by being.
In this case, it is not necessary to place the drive mechanism of the transport conveyor in the tablet packaging machine, and the driven end portion can generally be made smaller than the drive end portion, so that the member inserted between the tablet collecting mechanism and the tablet insertion portion. By reducing the height, it is possible to suppress the influence on the tablet packaging machine body.
[0023]
[Fourth Embodiment]
In a tablet packaging machine with a tablet identification device, even after the device is installed in a pharmacy, new identification objects are added one after another with the appearance of new drugs. Additional registration of feature data in the corresponding feature dictionary It is necessary to improve the identification capability of the tablet identification device as needed. In addition, in order to identify a tablet and determine whether it is acceptable or not, drug information such as the name of the tablet, tablet code, and drug efficacy is also required. For this reason, when the feature data is additionally registered in the dictionary, it is necessary to additionally input such drug information.
However, after the device is installed in a pharmacy, the pharmacist and other workers will perform additional registration of feature data and additional input of drug information. Not only can it be complicated, but those workers do not go into the internal structure of the equipment and work, so we expect every work to be done with great care and accuracy. It is cruel. In addition, when introducing a new drug, it is possible to store the new drug in one of the tablet feeders of the tablet packaging machine and add drug information such as the name of the tablet, tablet code, and drug efficacy to the drug information file of the tablet packaging machine. Needed. For this reason, the additional input operation of the drug information is performed twice for the tablet packaging machine and the tablet identification device, which not only doubles the work amount but also causes data inconsistency due to an input error or the like in one of them. An erroneous result may be obtained in the tablet identification or the pass / fail judgment.
[0024]
In view of this, the fourth embodiment is the above-described tablet packaging machine, wherein the attached tablet identification device stores feature data corresponding to the tablet type, and the tablet A placement mechanism that receives tablets supplied from the packaging machine, an imaging device that takes images of the tablets on the placement mechanism, and feature extraction that receives the image data from the imaging device and extracts the feature data Means for searching for and identifying stored data in the feature data storage means for the feature data of the feature extraction means when the operation mode is the identification mode, and the feature extraction means when the operation mode is the registration mode. The feature data is additionally stored in the feature data storage means, and the corresponding medicine information is received from the tablet packaging machine and corresponds to the feature data storage means or other storage means. Only to those with a registration means for storing.
Here, the “corresponding” means that the feature data to be additionally stored is associated with the corresponding drug information. Furthermore, the “drug information” only needs to include one of the drug name or the tablet code, and other information is not essential.
[0025]
In this case, in addition to being able to support drug auditing work including tablet type determination at the time of tablet packaging, only the operation of switching the operation mode is performed on the tablet identification device when introducing a new drug. Just do it. That is, additional registration of feature data based on the cooperation with the tablet packaging machine, without performing special operations such as feature extraction and feature data addition for new drugs, and additional input work of drug information associated therewith, and Additional input of drug information is almost automatically completed. Therefore, by automating additional input of drug information in addition to additional registration of feature data, a tablet packaging machine with a tablet identification device that can flexibly cope with the addition of new drugs can be realized.
[0026]
[Fifth Embodiment]
Tablets such as pills and capsules are round and easy to roll, and the loading position on the mounting mechanism is not stable simply by receiving the supplied tablets.
Therefore, the fifth embodiment is the above-described tablet packaging machine, wherein the placement mechanism is characterized in that a tablet placement frame capable of vibration or rotation is provided on the upper surface.
In this case, since the supplied tablet enters the inside of the tablet mounting frame, the mounting position is defined and stabilized, and the tablet is moved to the inner side of the tablet mounting frame by vibrating the tablet mounting frame. Even if it leans and leans, it can lie in the frame reliably. In addition, by taking an image after rotating the tablet placement frame, even if the tablet is easy to roll, since it is surely separated from the tablet placement frame at the time of imaging, image data processing for cutting out the tablet portion from the tablet image is easy. Become. Furthermore, even when the inside of the tablet mounting frame is sucked for cleaning, it can be further cleaned by vibrating and rotating.
[0027]
[Sixth Embodiment]
In order for the tablet identification device to receive tablets from the tablet packaging machine, it is necessary to provide a transport mechanism that extends between the tablet identification device and the tablet packaging machine, and to obtain an image of the tablet, it is necessary to provide an imaging device. It is also necessary to provide a cleaning mechanism in order to avoid sticking to other different types of tablets even if there is a small amount of fragments. Since these mechanisms all act on the tablet placement site on the placement mechanism, they must be arranged correspondingly. However, if all these mechanisms are concentrated in one place, mechanism design and maintenance work become difficult.
Therefore, the sixth embodiment is the above-described tablet packaging machine, in which the above-described placement mechanism is rotatable around a vertical axis, and in addition to the imaging device, the tablet transport unit and the cleaning mechanism are placed in the above-described place. It is arranged along the rotation path in any one of the upper, lower and upper and lower sides of the mechanism.
In this case, even if each of the above mechanisms is dispersedly arranged, necessary processing is sequentially performed on the tablet placement site as the placement mechanism rotates, and the above-described difficulty can be avoided. .
[0028]
【Example】
A specific configuration of an embodiment of the dispensing device of the present invention will be described with reference to the drawings. FIG. 1 is an internal schematic diagram corresponding to FIG. 10 of the conventional example. FIG. 2 is a schematic front view thereof and corresponds to FIG. 9 of the conventional example. 3 and 4 are detailed views of a novel mechanism such as the tablet transport mechanism, and FIG. 5 is a perspective view around the mounting table and a plan view of the tablet mounting frame. FIG. 6 is a functional block diagram of the main part of the control unit / data processing unit, FIG. 7 is a schematic flowchart of the tablet packaging process, and FIG. 8 is a schematic flowchart of the tablet identification process. is there. In the illustration, a simple support mechanism such as a frame or a bolt is omitted.
[0029]
In this tablet packaging machine 40, a counting auditing device 20 for counting audit immediately after packaging is attached to the right side in the drawing like the conventional tablet packaging machine 10, and further, individual tablets are audited immediately before packaging. Therefore, a tablet identification device 30 connected to the opposite side, that is, from the left side in the figure, is also provided.
In order to enable such a connection, the tablet packaging machine 40 is provided with a tablet transport unit 50 interposed between the collection hopper 12 and the tablet insertion unit 16 of the packaging device 13. It is mechanically different from the packaging machine 10 (see FIGS. 1 and 2).
[0030]
The tablet packaging machine 40 is also different from the conventional one in that an individual audit process is added to the control routine of the conventional controller 15. That is, the control routine 45a in the controller 45 of the tablet packaging machine 40 performs tablet discharge control of the tablet feeder by the tablet feeder control routine 45ad in accordance with the prescription processing by the prescription processing routine 45aa, or is held in the medicine information file 45b. Based on the medicine information, the packaging control routine 45ab generates the packaging information file 45c to perform packaging control, provides the packaging information to the counting audit routine 22a of the counting determination unit 22, or an operation console (not shown) In addition to additionally storing additional medicine information input via the etc. in the medicine information file 45b, it also has an individual audit processing routine 45ac responsible for processing for individual auditing, thereby conveying tablets. When the tablet 50 is supplied to the tablet identification device 30 by controlling the unit 50 Moni drug information to access the file 45b and drug information corresponding to the tablet 1 is also adapted to deliver the tablet identification unit 32 of the tablet identification apparatus 30 (see FIG. 1, FIG. 6).
[0031]
The tablet identification device 30 is provided with a mounting mechanism 60 for mounting and receiving the tablet 1 that has been conveyed from the tablet packaging machine 40 by the tablet conveying unit 50, and a loading mechanism 60 is provided for identifying the tablet 1. A camera 31 as a placement mechanism, a tablet identification unit 32 responsible for data processing of tablet identification / image determination, and a CRT 23 for displaying determination results and images (see FIGS. 1 and 2). Thereby, the tablet identification device 30 has a mounting mechanism and identifies a tablet placed thereon.
[0032]
The tablet transport unit 50 transports the unidentified tablet 1 on a small movable hopper 51 having a wide upper opening and a narrow lower discharge port, and an endless belt extending from below the movable hopper 51 to above the mounting mechanism 60. The conveyor 52, the conveyor 53 for carrying the identified tablet 1 on the endless belt extending from the lower side of the mounting mechanism 60 to the front of the tablet insertion unit 16 of the packaging device 13, and the conveyor 1 that is transported by the conveyor 53 and temporarily placed. When the tablets 1 that have been delivered reach the package amount, the movable push plate 54 that pushes them out to the tablet loading unit 16 and the tablet 1 discharged from the lower discharge port of the movable hopper 51 are directly guided to the tablet loading unit 16. A guide 55 is provided (see FIG. 1).
[0033]
More specifically (see FIGS. 3 and 4), the movable hopper 51 is configured such that when the link 51b is swung by the rotation of the driving wheel 51c and the slider 51a moves horizontally in accordance therewith, the conveyor 51 side and the guide 55 side accordingly. It moves horizontally between. Further, the movable hopper 51 is provided immediately below the collection hopper 12 so that the tablet 1 that has fallen from the outlet of the collection hopper 12 is received in the upper opening regardless of which side it is moved to. Yes.
[0034]
The guide 55 is provided in the right half of the drawing between the movable hopper 51 and the tablet insertion portion 16 together with the guide side plate 55a and the guide lower end portion 55b, and forms a substantially vertical guide mechanism. The tablet 1 dropped from the lower discharge port of the movable hopper 51 is guided to the tablet insertion portion inner cylinder 16 a and the tablet insertion portion 16. That is, this guide mechanism is inserted in the right half of the tablet loading path from the tablet collecting mechanism to the tablet loading unit in the figure, and directly collects the tablets collected by the tablet collecting mechanism to the tablet loading unit of the packaging device. It is to be thrown into.
[0035]
In the transport conveyor 52, the transport surface of the endless belt is divided into compartments 52b by a number of partition plates 52a in order to transport the tablets 1 one by one on the forward path from the tablet packaging machine 40 to the tablet identification device 30. The tablet 1 is accommodated and transported in each compartment 52b. The conveyor 52 is covered with a cover 52c, and a driving end portion of a driving wheel 52e that is rotationally driven by a driving motor 52d is positioned above the tablet receiving portion of the mounting mechanism 60, while the driven wheel 52f A given driven end portion is located in the left half of the figure between the movable hopper 51 and the tablet insertion portion 16. Then, the tablet 1 dropped from the lower discharge port of the movable hopper 51 at the time of the left movement is accommodated and transported by the inclined plate 52g in the vacant compartment 52b below it. The driven wheel 52f has a smaller diameter than the drive wheel 52e, and also in this respect, the separation between the collection hopper 12 and the tablet insertion unit 16 is suppressed.
[0036]
Contrary to the transport conveyor 52, the transport conveyor 53 is responsible for transporting the tablets 1 on the return path from the tablet identification device 30 to the tablet packaging machine 40. However, in order to transport the tablets one by one, the transport surface of the endless belt is also used. Is partitioned into compartments 53b by a large number of partition plates 53a, and each tablet 53 contains a single tablet 1 for transport. Further, the transport conveyor 53 is also covered with a cover 53c, and a driving end portion having a driving wheel 53e that is rotationally driven by a driving motor 53d is positioned below the discharge hopper 67 of the mounting mechanism 60, while a driven wheel 53f is provided. The driven end portion is located below the transport conveyor 52 in the left half of the drawing between the movable hopper 51 and the tablet insertion portion 16. However, the driven wheel 53f does not enter between the movable hopper 51 and the tablet insertion portion 16 as much as the driven wheel 52f, and remains on the left side in the figure. The driven wheel 53f is also smaller in diameter than the drive wheel 53e.
[0037]
The movable push plate 54 is driven horizontally by a push pin 54b on the upper surface of a horizontal plate 54a placed below the end of the conveyor 53 on the driven wheel 53f side. The horizontal plate 54a is for holding the tablet 1 conveyed by the conveyor 53 on its upper surface, and one end of the horizontal plate 54a extends to the upper end of the tablet loading portion inner cylinder 16a of the tablet loading portion 16. . Then, the movable push plate 54 moves from the lower side of the driven wheel 53f to immediately before the tablet insertion portion 16 to input the tablet 1 held on the upper surface of the horizontal plate 54a into the upper end opening of the tablet insertion portion inner cylinder 16a. It is like that.
[0038]
Thereby, the tablet conveyance mechanism comprising the conveyance conveyors 52, 53 and the movable push plate 54 can be reciprocated by a pair of conveyance conveyors in the forward path and the return path, and the driven end of the conveyance conveyor is It is located on the side of the tablet packaging machine and is inserted in the left half of the tablet input path from the tablet collection mechanism to the tablet input unit in the figure, and the drive end of the conveyor is on the tablet identification device side And extends to the mounting mechanism there.
[0039]
When the individual audit is performed, the movable hopper 51 moves to the transport conveyor 52 side under the control of the controller 45, and the tablet 1 fed from the tablet feeder 14 is moved to the upper surface of the placement mechanism 60 by the movable hopper 51 and the transport conveyor 52. The tablets 1 discharged from the mounting mechanism 60 are loaded into the tablet loading unit 16 of the packaging device 13 by the transport conveyor 53 and the movable push plate 54 (see FIGS. 1 and 3). Further, when the individual audit is not performed, the movable hopper 51 moves to the guide 55 side under the control of the controller 45, and the tablet 1 delivered from the tablet feeder 14 falls along the guide 55 and immediately becomes the tablet of the packaging device 13. It is inserted into the insertion unit 16 (see FIGS. 1 and 4).
[0040]
The mounting mechanism 60 is horizontally provided with a turntable 61 which is formed in a disk shape and whose upper surface is finished flat. The turntable 61 is rotatably supported by a support shaft 61a from below, and via the support shaft 61a. The turntable 61 is rotationally driven by the motor 61b (see FIG. 1). Thereby, the mounting mechanism 60 can rotate around the vertical axis.
[0041]
On the upper surface of the mounting mechanism 60, tablet mounting frames 62, 63, 64, 65 are arranged every 90 ° on the same virtual circle (see FIG. 5A). Among these, the terminal end of the conveyor 52, that is, the driving end extends above the current position of the tablet placement frame 62, and the tablets 1 conveyed by the conveyor 53 are transferred to the inside 62a of the tablet placement frame 62. Fall. Thereby, the mounting mechanism 60 receives the tablets supplied from the tablet packaging machine.
[0042]
On the other hand, a camera 31 with a cover 66 is disposed above the current position of the tablet placement frame 63 so that the tablet placement frame 63 can be photographed. The cover 66 is for obtaining an image free from unwanted shadows by blocking ambient light. On the other hand, a discharge hopper 67 is provided below the current position of the tablet placement frame 64. When a shutter plate (not shown) is opened, a vertical hole is formed in the turntable 61 corresponding to the tablet placement frame. The tablet 1 in the tablet placement frame 64 falls to the discharge hopper 67 through the through hole, and is further guided onto the transport belt of the transport conveyor 53. For the remaining tablet mounting frame 65, the end face of the exhaust duct 68 extends above the current position, and if a tablet fragment or the like remains in the tablet mounting frame 65, it is removed by the exhaust suction force. . As a result, the mounting mechanism 60 is configured such that, in addition to the imaging device, the tablet transport unit and the cleaning mechanism are disposed along the rotation path at the top and bottom thereof. Each time the turntable 61 rotates 90 ° intermittently, the tablet placement frames 62, 63, 64, 65 move to the current tablet placement frames 63, 64, 65, 62, respectively.
[0043]
The tablet placement frame 62 is formed by punching the center of a round plate to form a square shallow space 62b on the inside, and is supported on the turntable 61 so as to be rotatable by driving a small motor 62b. (See FIGS. 5B and 5C). The tablet mounting frame 62 and the small motor 62b can be selected by a control signal, either continuously rotating in a fixed direction or bi-directionally rotating while repeating inversion within a slight accuracy range. Thereby, the mounting mechanism 60 is provided with tablet mounting frames 62 to 65 that can vibrate and rotate on the upper surface.
[0044]
The tablet identification unit 32 of the tablet identification device 30 is connected to the camera 31 so as to be able to input image data in order to perform tablet identification data processing, and is further connected to the controller 45 so as to be able to communicate. It is also possible to receive drug information. Further, the tablet identification routine 32a responsible for the program processing by the microprocessor, the drug information file 32b holding drug information such as the product name, tablet code, and medicinal effect of the tablet, and the feature data corresponding to the tablet type are stored. A dictionary file 32c as feature data storage means and a compressed image file 32d holding data obtained by compressing tablet image data using a technique such as JPEG are installed in a ROM, a nonvolatile memory, a magnetic storage device, or the like. (See FIG. 6).
[0045]
In the dictionary file 32c, each registered feature data is arranged so that it can be easily searched, and in each feature data, the medicine information about the corresponding tablet is stored in the medicine information file 32b. A pointer and a pointer to where the image data for the corresponding tablet is stored in the compressed image file 32d are added (see FIG. 6). Thus, the feature data of the dictionary file 32c is associated with the medicine information and image corresponding to the tablet of the feature data in the medicine information file 32b and the dictionary file 32c.
[0046]
The tablet identification routine 32a receives the image data from the imaging device and extracts the feature data. The imaging processing routine 32aa and the feature extraction routine 32ab responsible for processing as the feature extraction unit, and the feature extraction unit 32ab when the operation mode is the identification mode The feature data immediately after extraction by the feature extraction means 32ab when the operation mode is the registration mode, and the identification processing routine 32ac as identification means for searching the feature data immediately after extraction by the feature data storage means 32c for identification. A registration processing routine 32ad is incorporated as a registration unit that is additionally stored in the feature data storage unit 32c, receives corresponding drug information from the tablet packaging machine 40, and is stored in association with the other storage unit 32b ( (See FIG. 6).
[0047]
The specific processing by these processing routines will be described in the following procedure when described with reference to the flowchart of FIG.
That is, first, when the tablet 1 placed at the current position of the tablet placement frame 63 is photographed by the camera 31 and the analog image signal is sent, it is converted into digital image data that can be processed by the microprocessor. Then, data for one image is input (step S1). Then, the tablet image is cut out by omitting excess data of the background (step S2). These processes are performed by the imaging process routine 32aa.
[0048]
Next, predetermined preprocessing such as shaping processing, noise removal processing, density conversion processing, and color conversion processing is performed on the extracted tablet image data (step S3). Then, feature extraction is performed by converting the image data into a predetermined grayscale image, and a grayscale value vector is obtained with each grayscale value of N × M pixels (N and M are positive integers) of the tablet image as an element (step) S4). These processes are performed by the feature extraction routine 32ab.
Then, it is checked whether the operation mode is set to the identification mode or the registration mode. When the operation mode is the identification mode, the process of the identification processing routine 32ac is continued, and the operation mode becomes the registration mode. If so, the processing of the registration processing routine 32ad is continued. (Step S5).
[0049]
In the identification mode, the gray value vector is converted into the principal component vector of only the effective component by applying the eigenvector to the gray value vector by the identification processing routine 32ac (step S6), and this is used as feature data immediately after extraction by the feature extraction means. The distance to each feature data is calculated with reference to the dictionary of the dictionary file 32c (step S7), and the one with the smallest distance is selected. Further, by tracing the pointer added to the feature data in the selected dictionary file 32c, the corresponding medicine information in the medicine information file 32b and the corresponding compressed image in the compressed image file 32d are obtained, and these are used as the identification result. It is displayed on the CRT 33 together with the image taken by the camera 31 (step S8). In the case of semi-automatic processing with visual confirmation, the same display is made for several candidates such as the next candidate in addition to the minimum distance. In the case of the automatic determination process, the medicine information about the tablet 1 to be identified is received from the packaging control routine 45a of the controller 45 of the tablet packaging machine 40, and this matches the medicine information selected from the medicine information file 32b. A pass / fail determination process is also performed based on the mismatch.
[0050]
When the operation mode is the registration mode, the following processing is performed by the registration processing routine 32ad. That is, the eigenvector obtained based on the principal component analysis is applied to the gray value vector to convert it into a principal component vector having only the effective component (step S11), and this is stored in a temporary file (not shown). Further, whether this is the last or halfway tablet 1 subject to the registration this time is checked based on communication with the controller 45 or the like (step S12). Returning (step S1), the same number of principal component vectors are stored by repeating the same process. When the last one is reached, the medicine information about the tablet 1 to be identified is received from the packaging control routine 45a of the controller 45 of the tablet packaging machine 40, and then the vector located at the center of the vector group stored in the temporary file. Is calculated as feature data immediately after extraction by the feature extraction means. Further, the image data of the vector group closest to the feature data immediately after the extraction is subjected to data compression processing to obtain compressed image data. Then, the extracted feature data is additionally registered in the dictionary of the dictionary file 32c, the medicine information is additionally stored in the medicine information file 32b, the compressed image data is additionally stored in the compressed image file 32d, and the medicine information and the compressed image are also stored. A pointer to the data is added to the additionally registered feature data (step S14). The process of the registration process routine 32ad is as described above.
[0051]
About the tablet identification device etc. of this embodiment, when the individual use is not performed, when the individual audit including the determination of the tablet type is performed for the registered type, when the additional registration of the new drug is performed This will be described in turn with reference to a flowchart of a control routine 45a in the controller 45 of the tablet packaging machine 40 shown in FIG.
[0052]
In any case, the process starts with inputting prescription data such as a prescription by the prescription processing routine 45aa (step S31). Based on this data, a packaging information file 45c in a data format suitable for the packaging device 13 and the tablet feeder 14 is generated (step S32), and further drug information such as drug history in the drug information file 45b is required. It is updated accordingly (step S33). Thus, when the processing of the prescription processing routine 45aa is completed, the processing is divided depending on whether the operation mode for the individual audit is the execution mode or the omission mode (step S34).
[0053]
When the individual audit is not performed, that is, when the operation mode is the individual audit omission mode, in the tablet packaging machine 40, the movable hopper 51 is moved to the guide 55 side under the control of the controller 45 (step S35). Then, based on the information of the packaging information file 45c, the following processing is performed by the processing of the packaging control routine 45ab. That is, the tablet 1 is sent out from the tablet feeder 14 in a packaging unit (step S 36), and the tablet 1 falls along the guide 55 and is fed into the tablet loading unit 16 of the packaging device 13. It is packaged in the packaging band 2 (step S37). Such a process is repeated until the prescription is completed (step S38). During this time, the wrapping band 2 wrapping the tablet 1 is sent to the counting inspection device 20 and used for inspection after packaging.
Thus, in this case, the processing by the tablet packaging machine 40 is performed as before without involving the tablet identification device 30.
[0054]
Next, when performing individual audits including determination of tablet types for existing types, the operation mode of the tablet packaging machine 40 is set to the individual audit execution mode, and the operation mode of the tablet identification device 30 is set to the identification mode. After that, the tablet packaging machine 40 is operated. Then, in the tablet packaging machine 40, the movable hopper 51 moves to the transport conveyor 52 side under the control of the controller 45 (step S41). Then, the following processing is performed by the processing of the individual audit processing routine 45ac (steps S42 to S48). That is, the tablet feeder control routine 45ad is activated to cause the tablets 1 to be sent out one by one from the tablet feeder 14 by the process (step S42), and the transport conveyor 52 is controlled to perform the transport operation (step S43). ).
Thus, the tablets are discharged from the tablet feeder 14 for each tablet in synchronization with the transport state of the tablet transport mechanism 50.
[0055]
If it does so, the tablet 1 will be accommodated in the division chamber 52b of the conveyance conveyor 52 via the movable hopper 51, and it will be conveyed by one division by the operation | movement of the conveyance conveyor 52. FIG. Similarly, the subsequent tablet 1 is stored in the adjacent compartment 52b and transported for one section, and the first tablet 1 is eventually transferred to the tablet placement frame 62 on the upper surface of the turntable 61 by the transport conveyor 52. Carried inward. At this time, the tablet 1 usually stops in contact with one side of the inner space 62b of the tablet placement frame 62 (see FIG. 5B).
[0056]
Then, when predetermined control is performed on the motor 61b and the like of the mounting mechanism 60 (step S44), the turntable 61 rotates 90 °, and the tablet mounting frame 62 is located at the previous tablet mounting frame 63. That is, it moves below the camera 31. The tablet placement frame 65 moves to the previous tablet placement frame 62. Then, in parallel with the next tablet 1 being carried from the conveyor 52 to the tablet placement frame 65, the tablet placement frame 62 vibrates (see FIG. 5B) and further rotates several tens of degrees (FIG. 5). (See (c)). Then, when communication control is performed to notify the tablet identification device 30 that preparation of the tablet 1 to be identified has been made (step S45), the tablet identification device 30 is activated, and the tablet 1 there is The image is taken by the camera 31 and the image data is sent to the tablet identification unit 32.
[0057]
In the tablet identification unit 32, the imaging process routine 32aa, the feature extraction routine 32ab, and the identification process routine 32ac of the tablet identification routine 32a are executed, and the closest feature data is selected from the dictionary of the dictionary file 32c, and the medicine The drug information and the compressed image associated with the feature data are read out from the information file 32b and the compressed image file 32d. These determination results are displayed on the CRT 33.
In this way, tablet identification for the tablet 1 in the tablet placement frame 62 is performed.
[0058]
When the tablet identification unit 32 finishes identifying one tablet, the turntable 61 rotates again by 90 °, the tablet placement frame 62 moves to the discharge hopper 67, and the tablet placement frame 65 is moved to the camera. The tablet placement frame 64 moves to the conveyance conveyor 52. Then, the next tablet 1 is carried into the tablet placement frame 64 from the transport conveyor 52, and at the same time, the imaging of the tablet 1 at the tablet placement frame 65 by the camera 31 and the tablet identification unit 32 perform the tablet identification. In parallel, the shutter on the bottom surface of the tablet placement frame 62 is opened, and the tablets 1 fall from the tablet placement frame 62 onto the transport conveyor 53 via the discharge hopper 67.
[0059]
When the opened shutter is closed, the turntable 61 is rotated 90 ° again, the tablet placement frame 62 is moved to the exhaust duct 68, the tablet placement frame 65 is moved to the discharge hopper 67, The tablet placement frame 64 moves below the camera 31, and the tablet placement frame 63 moves to the transport conveyor 52. Then, the next tablet 1 is carried into the tablet placement frame 63 from the transport conveyor 52, and the imaging of the tablet 1 at the tablet placement frame 64 by the camera 31 and the tablet identification unit 32 perform the tablet identification. In parallel with the tablet 1 at the placement frame 65 being discharged by the conveyor 53 and returned to the tablet packaging machine 40, the suction suction in the exhaust duct 68 while the tablet placement frame 62 is rotated or vibrated. Is cleaned by.
Thus, each time the turntable 61 rotates 90 °, the tablets 1 are successively fed into the tablet placement frames 62 to 65, and the tablets 1 are subjected to tablet identification processing one by one.
[0060]
The tablet 1 that has been subjected to the tablet identification process is stored in the compartment 53b of the transport conveyor 53 via the discharge hopper 67, and the transport operation is performed by controlling the transport conveyor 53 each time it is stored (step S46). Then, the tablets 1 that have been subjected to the tablet identification process are sequentially accommodated in the compartment 53 b of the transport conveyor 53, and are transported by one section by the operation of the transport conveyor 53. Similarly, the subsequent tablets 1 are stored in the adjacent compartment 53b and transported for one section, and the tablets 1 are eventually transported onto the horizontal plate 54a by the transport conveyor 53. Then, it is held in front of the tablet insertion unit 16 at the tip of the movable push plate 54.
[0061]
Then, when the number of indwelling tablets reaches the packaging unit, the push pin 54b is controlled to advance and retract the movable push plate 54 (step S48). By the advance / retreat operation of the movable push plate 54, the tablets 1 retained after the tablet identification process are collected and fed into the tablet insertion unit 16 for each packaging unit. Thereafter, these tablets 1 are packaged in the packaging band 2 by the packaging device 13 (step S37). Further, such a process is repeated until the prescription is completed (step S38). During this time, the wrapping band 2 that wraps the tablet 1 is sent to the counting inspection device 20 and used for inspection after wrapping.
In this way, an individual audit based on tablet identification including individual product type determination is performed immediately before packaging, and a drug audit based on counting determination is performed immediately after packaging.
[0062]
Finally, when additional registration of a new drug is performed, the new drug is stored in any one of the tablet feeders 14 of the tablet packaging machine 40, and the drug information is input and additionally stored in the drug information file 45b. These operations may be performed in the same manner as conventionally performed when handling a new drug in a tablet packaging machine. Then, the operation mode of the tablet packaging machine 40 is set to the individual audit execution mode, and the operation mode of the tablet identification device 30 is set to the registration mode, and then the tablet packaging machine 40 is operated for the new medicine. Then, the description of the details will be omitted, but in the same manner as the latter case among the above cases, the tablets 1 of the new drug are sent out one by one from the corresponding tablet feeder 14 to the tablet identification device 30, and the tablets 1 are The image is taken by the camera 31 and the image data is sent to the tablet identification unit 32.
[0063]
In the tablet identification unit 32, the imaging process routine 32aa, the feature extraction routine 32ab, and the registration process routine 32ad of the tablet identification routine 32a are executed, and feature data of new drugs are accumulated one after another, and finally calculated from these data. The obtained feature data is additionally registered in the dictionary of the dictionary file 32c. Further, the corresponding medicine information is additionally stored in the medicine information file 32b, typical compressed image data is additionally stored in the compressed image file 32d, and pointers to those medicine information and compressed image data are additionally registered. Added to feature data. In this way, the tablet identification device 30 grows almost automatically so that it can also identify tablets for new drugs.
[0064]
【The invention's effect】
As is clear from the above description, in the dispensing device of the present invention, the parallel processing is performed by distributing the mechanisms for identifying the tablets in conjunction with the packaging machine. There is an advantageous effect that it is possible to realize a dispensing device that can efficiently perform the tablet identification process performed at the time of packaging.
[Brief description of the drawings]
FIG. 1 is an internal schematic view of an embodiment of a dispensing device of the present invention.
FIG. 2 is a schematic front view thereof.
FIG. 3 is a detailed view of the tablet transport mechanism and the like (when an individual audit is performed).
FIG. 4 is a detailed view of the tablet transport mechanism and the like (when individual audit is omitted).
FIG. 5 is a perspective view around the mounting table.
FIG. 6 is a functional block diagram of the control unit.
FIG. 7 is a schematic flowchart of tablet identification processing.
FIG. 8 is a schematic flowchart of a packaging control process including an individual audit.
FIG. 9 is a schematic front view of a conventional tablet packaging machine.
FIG. 10 is an internal schematic diagram thereof.
[Explanation of symbols]
1 Tablet (drug, capsule)
2 Packing band 10 Tablet packaging machine 11 Drug store (medical shelf, rotor cassette)
12 Collection hopper (tablet collection mechanism)
13 Packaging device 14 Tablet feeder 15 Controller (control device)
16 Tablet input part (collected tablet input port)
16a Inner cylinder of tablet input part (collected tablet input port)
20 Counting inspection device (tablet inspection support device)
21 Camera (CCD camera, imaging device)
22 Counting judgment unit (counting judgment unit)
22a Counting audit routine 23 CRT (display unit)
30 Tablet identification device (dispensing device)
31 Camera (CCD camera, imaging device)
32 Tablet identification unit (tablet identification unit, image determination unit)
32a Tablet identification routine 32aa Imaging processing routine (feature extraction means)
32ab feature extraction routine (feature extraction means)
32ac identification processing routine (identification means)
32ad registration processing routine (registration means)
32b Drug information file (other storage means)
32c dictionary file (feature data storage means)
32d compressed image file 33 CRT (display unit)
40 Tablet packaging machine 45 Controller (control device)
45a control routine 45aa prescription processing routine 45ab packaging control routine 45ac individual audit processing routine 45ad tablet feeder control routine 45b medicine information file 45c packaging information file 50 tablet transport unit 51 movable hopper (switching means)
51a Slider (switching means)
51b Link (switching means)
51c Driving wheel (switching means)
52 Conveyor (endless belt, forward tablet transport mechanism)
52a Partition plate (tablet transport mechanism)
52b Compartment (tablet transport mechanism)
52c Cover (tablet transport mechanism)
52d Drive motor (conveyance conveyor drive mechanism, tablet transport mechanism)
52e Drive wheel (drive end, tablet transport mechanism)
52f driven wheel (driven end, tablet transport mechanism)
52g Inclined plate 53 Conveyor (endless belt, tablet transport mechanism on the return path)
53a Partition plate (tablet transport mechanism)
53b Compartment (tablet transport mechanism)
53c Cover (tablet transport mechanism)
53d Drive motor (conveyance conveyor drive mechanism, tablet transport mechanism)
53e Drive wheel (drive end, tablet transport mechanism)
53f driven wheel (driven end, tablet transport mechanism)
54 Movable push plate (Indwelling tablet loading means)
54a Horizontal plate (tablet retention means)
54b Push pin (push plate drive mechanism, indwelling tablet loading means)
55 Guide (Guiding mechanism)
55a Guide side plate (guide mechanism)
55b Guide lower end (guide mechanism)
60 Placement mechanism 61 Turntable (Rotating disc, Placement table)
61a Support shaft (mounting table support section)
61b Motor (mounting table driving unit)
62 Tablet placement frame (tablet receiving position)
62a Tablet placement frame 62b Small motor 63 Tablet placement frame (tablet shooting position)
64 Tablet placement frame (tablet discharge position)
65 Tablet placement frame (cleaning position after tablet discharge)
66 Cover (light shielding cover)
67 Discharge hopper 68 Exhaust duct

Claims (1)

A dispensing device that is connected to a tablet packaging machine and identifies tablets in conjunction with dispensing in the tablet packaging machine, and is capable of sequentially processing tablet placement frames that receive tablets supplied from the tablet packaging machine A plurality of placement mechanisms provided in a distributed manner, and a terminal portion of a tablet transport mechanism on the tablet receiving side and a start end portion of a tablet transport mechanism on the tablet discharge side toward another one of the tablet placement frames And the cleaning mechanism are provided separately, and the tablet receiving process, the tablet imaging process, the tablet discharging process, and the tablet mounting frame cleaning process related to the tablet mounting frame are processed in parallel in the mounting mechanism. Dispensing device characterized in that individual tablets are processed sequentially .

Images