Tablet packaging device

Abstract

A packaging section of a tablet packaging device includes: a placement base of a tray; a drawer storing the placement bas; a carrier provided with compartments corresponding to the storage concave portions of the tray; a drive device of the carrier; a shutter opening/closing; a bottom of the carrier; and an opening/closing device of the shutter. The drive device performs a step of defining a tablet discharge position on the tray as an original position and returning to the original position through a tablet reception start position and a tablet reception end position which are set below a discharge opening. A step of sequentially moving each compartment of the carrier below the discharge opening from the tablet reception start position to the tablet reception end position during the step to receive one tray of tablets is performed. When the carrier returns to the discharge position, the shutter is opened.

Claims

1. A tablet packaging device comprising: a packaging part provided below a discharge opening for tablets discharged in accordance with a prescription; and a tray having a prescribed number of storage concavities divided into a plurality of rows and columns placed on the packaging part, the respective storage concavities being configured to store tablets discharged from the discharge opening; wherein the packaging part comprises a mounting platform for the tray and a moving device for the mounting platform, a carrier provided with compartments opened at a top and a bottom which selectively coincide with positions of the storage concavities of the tray and a drive device for the carrier, and a shutter provided on the bottom of the carrier so as to open and close the compartments and an opening/closing device for the shutter; and wherein the moving device of the mounting platform comprises a drawer provided so as to be freely drawn into and out of the packaging part, said mounting platform being installed inside the drawer; and the mounting platform is set so as to be in a tray handling position outside the packaging part when the drawer is pulled out and in a standby position inside the packaging part when the drawer is pushed in, wherein the drive device is configured to execute a process stored in a memory associated with a computer, which when executed, assesses whether the tablets have been accurately dispensed into identified compartments, wherein if it has been assessed that the tablets have been inaccurately dispensed, the carrier executes a recovery operation.

2. The tablet packaging device of claim 1, wherein the opening/closing device of the shutter executes a process of opening the shutter to store the tablets received by the carrier in the respective storage concavities which are in the standby position.

3. The tablet packaging device of claim 1, further comprising a monitor configured to display a representation of the tray including a number of tablets in each of the storage concavities of the tray.

4. The tablet packaging device of claim 1, wherein the carrier is selectively removable from the packaging part.

5. The tablet packaging device of claim 1, wherein if it has been assessed that the tablets have been inaccurately dispensed, the process causes the opening/closing device of the shutter to open the shutter and discharge all of the tablets into a recovery tray.

6. The tablet packaging device of claim 1, wherein the drive device executes a process stored in a memory associated with a computer, which when executed, assesses whether the tablets have been accurately dispensed into identified compartments, wherein if it has been assessed that that the tablets have been accurately dispensed, the process causes a vertical moving device to activate and move the mounting platform in an upward direction to press the tray into the bottom of the carrier.

7. The tablet packaging device of claim 6, wherein the drawer is configured to be pulled out from the moving device if it has been assessed that the tablets have been accurately dispensed.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a front view of the tablet packaging device of an embodiment.

(2) FIG. 2 is a side view of FIG. 1.

(3) FIG. 3A is a partially cut out plan view of a state in which a lid is attached to the tray.

(4) FIG. 3B is a cross-sectional view along line X1-X1 in FIG. 3A.

(5) FIG. 4A is a partially enlarged cross-sectional view of FIG. 3A.

(6) FIG. 4B is a partially enlarged cross-sectional view of FIG. 3A at the time of use.

(7) FIG. 4C is a partially enlarged cross-sectional view of FIG. 3A in another state at the time of use.

(8) FIG. 5 is a cross-sectional view along line X2-X2 in a state in which the lid of FIG. 2 is removed.

(9) FIG. 6A is an explanatory diagram from the perspective of the front of the drawer showing the positional relationship of the mounting platform and the carrier in the standby state.

(10) FIG. 6B is an explanatory diagram from the perspective of the side of the drawer showing the positional relationship of the mounting platform and the carrier in the standby state.

(11) FIG. 6C is a partial side view of FIG. 6B.

(12) FIG. 7 is a plan view showing the portion of the vertical moving device.

(13) FIG. 8A is a schematic diagram showing the movement positions of the mounting platform and the carrier.

(14) FIG. 8B is a plan view of the carrier.

(15) FIG. 9A is a perspective view of the carrier.

(16) FIG. 9B is a partially cut out perspective view when the shutter is fully open.

(17) FIG. 9C is a partially cut out perspective view of a state in which the carrier is omitted.

(18) FIG. 10A is a transverse plan view of the carrier portion.

(19) FIG. 10B is an enlarged side view showing part of FIG. 10A.

(20) FIG. 10C is a cross-sectional view along line X3-X3 in FIG. B.

(21) FIG. 11A is a cross-sectional view of the foreign matter discharge portion of the carrier.

(22) FIG. 11B is a cross-sectional view of the carrier at the time of foreign matter discharge.

(23) FIG. 11C is a cross-sectional view of the carrier in another state at the time of foreign matter discharge.

(24) FIG. 12A is a cross-sectional view of the carrier portion.

(25) FIG. 12B is an enlarged cross-sectional view of the junction portion of the carrier and the shutter guide member.

(26) FIG. 12C is an enlarged cross-sectional view along line X4-X4 in FIG. 12.

(27) FIG. 13 is a partially omitted enlarged cross-sectional view along X5-X5 in FIG. 5.

(28) FIG. 14 is a partially omitted enlarged cross-sectional view along line X6-X6 in FIG. 5.

(29) FIG. 15 is a partially omitted enlarged cross-sectional view along line X7-X7 in FIG. 14.

(30) FIG. 16A is a partially cut out plan view of the recovery tray.

(31) FIG. 16B is an enlarged cross-sectional view along line X8-X8 in FIG. 16A.

(32) FIG. 17 is a front view showing an example of the display screen for prescription input at the time of manual dispensing.

(33) FIG. 18 is a front view showing an example of the discharge monitor display screen at the time of manual dispensing.

(34) FIG. 19 is a front view showing part 1 of the manual tablet dispensing assistance screen.

(35) FIG. 20 is a front view showing part 2 of the manual tablet dispensing assistance screen.

(36) FIG. 21 is a front view showing part 3 of the manual tablet dispensing assistance screen.

(37) FIG. 22 is a front view showing part 4 of the manual tablet dispensing assistance screen.

DETAILED DESCRIPTION

(38) A tablet packaging device of an embodiment of the present invention will be described hereinafter based on the attached drawings.

(39) In a tablet packaging device 11 shown in FIG. 1, a table storage part 13 is provided on the upper half of a frame 12, wherein a packaging part 14 (see FIG. 2) protruding forward from the upper half is provided on the lower half, and a storage part 15 such as an empty tray is provided below [the packaging part 14]. Multiple tablet cassettes 16 are stored in the table storage part 13 in a multi-stage configuration, and a tablet feeder 17 is respectively installed below each tablet cassette 16. The table storage part 13 is opened and closed in the vertical direction by a slatted shutter 18.

(40) A tablet discharge chute 19 is provided below the tablet feeders 17. A reception port 20 (see FIG. 5) is provided so as to approach the lower end of the tablet discharge chute 19, and a downward-facing discharge port 21 connected to the reception port 20 is provided above the packaging part 14. Daily doses of prescribed tabletsfor example, one week's worth of tablets at a frequency of four doses per day or five days' worth of tablets at a frequency of three doses per dayare intermittently discharged from the discharge port 21 for each cycle of a carrying process described below.

(41) In the tablet packaging device 11, tablets discharged from the discharge port 21 are ultimately stored in a tray 24 shown in FIGS. 3A to 4C. Therefore, this tray 24 will be described next.

(42) FIGS. 3A and 3B show a state in which a lid sheet 25 is attached to the open surface of the tray 24. The tray 24 has storage concavities 26 divided into a matrix comprising seven rows and four columns. A side wall 27a opposing the long edge side of the tray 24, a side wall 27b opposing the short edge side, and a dividing wall 27c for dividing the space therebetween into seven rows and four columns are formed to the same height so as to intersect in a grid pattern, whereby concavities 26 with uniform square shapes are formed.

(43) The wall thickness portions on the base side of the side walls 27a and 27b and the dividing wall 27c are removed by grooves 27d so as to form a wall thickness capable of supporting a constant strength. The wall thickness of the base of the storage concavities 26 is formed as a single thin layer and molded so as to have multiple creases 28 of irregular shapes. Since the base is thin and has multiple creases 28, it is possible to exhibit a buffering effect for tablets 29 stored therein, and it may be deformed into a mountain shape by pressing away from the base (see the double-dotted/dashed line in FIG. 4C) so that the tablets 29 on the inside are easy to retrieve.

(44) The lid sheet 25 is a paper sheet of a size matching the entire surface of the open side of the tray 24 and is attached with an adhesive 31 at the portions of the side wall 27a on the long edge side, the side wall 27b on the short edge side, and the dividing wall 27c (see FIG. 4A). A breakout part 31b enclosed by a break line 31a established by half cuts or perforations of a square shape matching the size of the storage concavities 26 is formed on the lid sheet 25 (see FIG. 4A).

(45) A day-of-the-week display 32 and a corresponding date display 33 are provided in the respective margins of the seven rows in the vertical direction of the breakout part 31b. In addition, a dosing time display 34 from morning to before bed or the like and other displays are provided in the margins of the four rows in the horizontal direction. A prescription display 35 such as the name of the patient, the dosing times, and the tablet name and quantity is also provided on the breakout part 31b. In the case illustrated, the display shows that one week's worth of tablets at frequency of four doses per day are housed, and different quantities such as five days' worth of tablets at a frequency of three doses per day may be stored depending on the prescription.

(46) The patient breaks the appropriate breakout part 31b along the break line 31a by pressing the breakout part 31b with the fingertips at the time of each of the four doses of the day in question (see FIG. 4B). The breakout part 31b is pressed into the storage concavity 26 and is therefore retrieved together with the tablets 29 by pinching with the fingertips or pressing the base upward with the fingertips (see FIG. 4C).

(47) The breakout part 31b is broken/removed in step with the action of retrieving the tablets 29, and the storage concavity 26 is opened. Accordingly, it can be easily checked whether any doses have been forgotten by simply distinguishing whether the storage concavity 26 has been opened.

(48) Next, the packaging part 14 shown in FIG. 5 will be described in detail. The packaging part 14 is ordinarily covered with a cover lid 22 (see FIG. 2) so that the inside can be observed through an observation window. The packaging part 14 is opened when the cover lid 22 is removed. FIG. 5 shows a transverse view in which the cover lid 22 is removed and the upper half of the frame 12 is cut out.

(49) The packaging part 14 is provided with a drawer 23 which can be freely pulled forward and pushed into the packaging part 14, and a mounting platform 30 of the tray 24 is installed inside the drawer 23. The drawer 23 constitutes the moving device for the mounting platform. In the case illustrated, the drawer 23 is pulled out and pushed in manually (see the two-headed arrows in FIGS. 2 and 5), but the drawer 23 may also be driven automatically.

(50) As shown in FIG. 5, the main components of the packaging part 14 are the drawer 23, the mounting platform 30 installed inside the drawer 23, a carrier 37 which receives tablets 29 discharged from the discharge port 21 and carries the tablets 29 to the upper part of the tray 24 on the mounting platform 30, a shutter 38 for opening and closing the base of the carrier 37 (see FIG. 9B), a drive device 39 for moving the carrier 37 to a prescribed position within the plane, and an opening/closing device 40 for the shutter 38. These components will be described in detail hereinafter.

(51) A vertical moving device 41 (see FIGS. 6A and 7) is provided inside the drawer 23, and the mounting platform 30 is installed on the vertical moving device 41. The vertical moving device 41 includes a vertical movement motor 42 (see FIG. 7), two rotary shafts 44 which are disposed along the front and back ends of the drawer 23 and are interlocked with one another by a belt 43, eccentric cams 45 attached to both ends of each rotary shaft 44, and cam followers 46 (see FIG. 6A) provided at eccentric positions on the outside surfaces of each eccentric cam 45.

(52) The cam followers 46 are provided at the same phase positions in the rotational direction for all of the eccentric cams 45. All of the cam followers 46 maintain the same phasethat is, the cam followers 46 collectively rotate while maintaining the same heightin response to the rotation of the motor 42.

(53) A bearing 47 for supporting the rotary shaft 44 disposed on the back end side of the drawer 23 (see FIG. 7) is attached to a fixed bracket plate 48, and a bearing 47 of the rotary shaft 44 disposed on the front end side is attached to a movable bracket plate 49. Both bracket plates 48 and 49 overlap one another in a plane, and fixing screws 52 are inserted into long holes 51 provided with long profiles in the cross direction on the overlapping portions.

(54) Adjustment plates 53 and 54 provided on the respective bracket plates 48 and 49 are made to oppose one another. The legs of adjustment bolts 55 and 56 screwed into each of the adjustment plates 53 and 54 from opposite sides are pressed against the other of the adjustment plates 53 and 54, and the movable bracket plate 49 is moved forward and backward so as to adjust the space between the front and back rotary shafts 44.

(55) Guide pins 58 fixed facing downward are respectively provided at the four corners of the base of the mounting platform 30, and sleeves 61 are made to engage with the guide pins 58 so as to be slidable with a constant stroke in the vertical direction. Contact plates 59 are provided integrally with the lower ends of the sleeves 61. Anti-slip members 62 are provided on the lower ends of the guide pins 58 so as to prevent the guide pins 58 from slipping downward from the sleeves 61.

(56) The contact plates 59 of the sleeves 61 rest on the cam followers 46, and when the cam followers 46 are in the lowest position, the mounting platform 30 rests on mounting platform supporting members 57 provided at two locations on the left and right sides of the base of the drawer 23. At this time, there is a gap between the sleeves 61 and the mounting platform 30, and as a result, there is also a gap x between the tray 24 and the base of the carrier 37 (see the left half of FIG. 6A). Due to the presence of this gap x, the carrier 37 can move freely within the plane of its height without making contact with the tray 24.

(57) When the cam followers 46 reach the highest position, the mounting platform 30 is pressed upward into the sleeves 61, and the gap x is reduced or eliminated so that the tray 24 approaches or makes contact with the base of the carrier 37 (see the right half of FIGS. 6A and 6B).

(58) At this time, a coil spring 60 constituting a damper is stored in the sleeve 61 (see FIG. 6C), and the free upper end of the coil spring 60 makes contact with the base of the mounting platform 30. As a result, the impact when the tray 24 makes contact with the carrier 37 is lightened.

(59) In order to increase operational efficiency, a plurality of trays 24 may be placed on the mounting platform 30 within a range confined to the gap x and handled so as to move to the next step after simply sequentially removing the trays 24 from the top once the storage of the tablets 29 is complete. In this case as well, all of the plurality of trays 24 may be pressed into the base of the carrier 37 by the compressive elasticity of the coil springs 60.

(60) On top of the on the mounting platform 30, as shown in FIG. 5, tray support ribs 30a divided into a matrix comprising seven compartments in the horizontal direction and four compartments in the cross direction are provided so as to correspond to the tray 24. The tray 24 is placed on the tray support ribs 30a with an orientation in which the seven divided portions face the left and right directions. At this time, the grooves 27d on the back of the side walls 27a and 27b and the dividing wall 27c of the tray 24 are made to engage with the support ribs 30a so that the tray 24 is stably supported.

(61) A foreign matter reception tray 64 with a long profile in the horizontal direction is detachably attached to the portion of the drawer 23 at the back end of the tray support ribs 30a (see FIGS. 5 and 7). The configuration for collecting foreign matter adhering to the shutter 38 with this foreign matter reception tray 64 will be described in detail below.

(62) The position of the mounting platform 30 in the state shown in FIG. 5 in which the mounting platform 30 is pulled to the outside of the packaging part 14 by pulling out the drawer 23 is called the tray handling position A (see FIG. 8A). In this tray handling position a, the operator places an empty tray 24 on the mounting platform 30 and removes a tray 24 in which tablets have been stored from the mounting platform 30.

(63) The tray 24 on the mounting platform 30 is placed on the mounting platform 30 in a state in which seven rows from Monday to Sunday are arranged in the horizontal direction (X-direction) and four columns from morning to before bed are arranged in the cross direction (Y-direction) by rotating clockwise by 90 from the state shown in FIG. 3A.

(64) FIG. 8A schematically shows the form of the movement of the drawer 23 inside the packaging part 14, the mounting platform 30 provided thereon, and the carrier 37, wherein the horizontal direction is shown as the X-direction and the cross direction is shown as the Y-direction facing the packaging part 14.

(65) The position of the mounting platform 30 when the drawer 23 is pushed into the packaging part 14 is called the standby position b. The amount of movement of the drawer 23 in the cross direction (Y-direction) is set so that the mounting platform 30 is in the tray handling position a outside the packaging part 14 when pulled out and in the standby position b inside the packaging part 14 when pushed in.

(66) As described above, the moving device for the drawer 23that is, the mounting platform 30executes a process of manually or automatically moving the mounting platform 30 between the tray handling position a and the standby position b in coincidence with the timing of the movement of the carrier 37.

(67) Next, the carrier 37, the shutter 38 thereof, the drive device 39 of the carrier 37, and the opening/closing device 40 of the shutter 38 will be described.

(68) As shown in FIG. 9A, the carrier 37 is provided with matrix-shaped dividing walls 66 inside a square frame 65 so as to form compartments 67 divided into seven compartments in the X-direction (horizontal direction) and four compartments in the Y-direction (cross direction). Each compartment 67 is open and has a size coinciding with each storage concavity 26 of the tray 24. For the sake of explanatory convenience, as shown in FIG. 8B, x numbers 1 to 7 and y numbers 1 to 4 are virtually assigned to the X-direction and the Y-direction of the compartments 67, respectively, and the position of each compartment 67 will be described by the coordinate display (x, y).

(69) A downward-facing brush 68 of a length filling the entire inside surface of the back edge is attached between the inside surface of the back edge of the frame 65 and the compartments 67 (see FIG. 9B). As described below, this brush 68 is used to clean the upper surface of the shutter 38.

(70) In addition, a thin plate-like shutter guide member 71 is fixed to the base of the carrier 37 with a constant gap in the vertical direction. Square holes 69 are formed in this shutter guide member 71 with positions and sizes coinciding with the bases of the compartments 67 (see FIG. 9C).

(71) Guide rollers 72 supported on the vertical axis with constant spacing in the cross direction (see FIG. 12A) are disposed at a plurality of locations along the movement direction of the shutter 38 on both the left and right side edges of the shutter guide member 71. On the back end of the shutter guide member 71, a foreign matter discharge slit 80 is formed with a length reaching the vicinities of the edges on both sides in the horizontal direction at a position corresponding to the brush 68 provided on the carrier 37 (see FIG. 9C).

(72) Connecting edges 74, which are bent upward, are provided on both the left and right side edges of the shutter guide member 71, and the connecting edges 74 are disposed along both side surfaces of the carrier 37 (see FIGS. 9A to 9C). The connecting edges 74 are fixed to the carrier with fixing screws 75 (see FIGS. 12A and 12B) so that the carrier 37 and the shutter guide member 71 are formed integrally.

(73) The shutter 38 is formed from a single stainless steel plate roughly equal to the width in the horizontal direction and the length in the cross direction of the frame 65 of the carrier 37. As shown in FIG. 9B, guide edges 77 which are bent upward are formed on both the left and right sides, and an engaging edge 78, which is bent downward, is formed on the back end. On the inside of the engaging edge 78 is provided a foreign matter discharge slit 79 parallel to the engaging edge 78 with a length extending to the vicinities of the left and right guide edges 77. A shallow letter-shaped notch part 81 with the same length as the slit 79 (see FIG. 9C) is provided on the front end edge.

(74) The shutter 38 is inserted into the gap between the carrier 37 and the shutter guide member 71 from an insertion port 82 on the back end side of the carrier 37 (see FIGS. 11A to 11C) so as to slide freely in the cross direction, and the base and both the left and right side edges are guided by the shutter guide member 71. The left and right guide edges 77 are guided by the guide rollers 72 of the shutter guide member 71 (see FIG. 12A).

(75) When the shutter 38 is inserted most deeply, [the shutter 38] overlaps with the entire surface of the base of the carrier 37 so as to close the bases of all of the compartments 67 (see FIG. 11A). At that time, the shutter 38 is set so that it does not stick to the base of the carrier 37 and so that there is a gap of a size which prevents the passage of tablets 29, but allows the passage of foreign matter 83 smaller than a certain size, such as small chips of tablets 29.

(76) When the shutter 38 is in the fully closed state, the foreign matter discharge slit 79 coincides with the upper surface of the slit 80 of the shutter guide member 71.

(77) When the shutter 38 is pulled out (see FIG. 11B), the bases of the compartments 67 of the carrier 37 and the square holes 69 of the shutter guide member 71 are opened, and the tablets 29 in the compartments 67 are discharged into the tray 24. The brush 68 makes contact with the upper surface of the shutter 38 during the movement of the shutter 38, and the foreign matter 83 passing through the gap of the compartments 67 of the carrier 37 is captured by the brush 68. When the shutter 38 reaches the fully opened state, the notch part 81 coincides with the slit 80 of the shutter guide member 71 so that foreign matter is discharged into the foreign matter reception tray 64 installed below the shutter 38.

(78) Conversely, when the shutter 38 is closed from the fully opened state to the fully closed state, the foreign matter 83 on the upper surface of the shutter 38 is similarly captured by the brush 68 (see FIG. 11C), and when the slit 79 of the shutter 38 coincides with the slit 80 of the shutter guide member 71, the foreign matter 83 is discharged into the foreign matter reception tray 64 in the same manner as described above.

(79) As described below, the carrier 37 is connected to the drive device 39 via a gate-shaped bracket 70 (see FIG. 9A) so as to be formed integrally with the shutter 38 and the shutter guide member 71 and driven by the drive device 39; and the carrier 37 is controlled so as to execute one cycle of the carrying process for each tray 24 within the horizontal plane of the packaging part 14.

(80) As shown in FIG. 8, in one cycle of the carrying process, the position in which the carrier 37 is located above the standby position b of the mounting platform 30 is defined as the original position. At this original position, the carrier 37 is in a position for discharging tablets 29 into the tray 24 on the mounting platform 30, and this position is called the discharge position A. In one cycle of the carrier 37, a process is executed in which the carrier 37 sequentially moves from the discharge position A serving as the original position to a reception starting position B where the reception of tablets 29 is started below the discharge port 21 of the tablets 29 and a reception ending position C, where the reception of the tablets 29 is completed and then returns to the discharge position A serving as the original position.

(81) At the discharge position A, all of the compartments 67 of the carrier 37 coincide with the positions of all of the storage concavities 26 of the tray 24 on the mounting platform 30 in the standby position b. The contents of the compartments 67 are empty when the carrying cycle is initially started, and the shutter 38 is in the closed state.

(82) The following such reception process is executed while moving from the reception starting position B to the reception ending position C during the carrying processing described above. Specifically, at the reception starting position B, the carrier 37 is positioned so that the compartment 67 of (1, 1) (see FIG. 8B) is located below the discharge port 21.

(83) Using this position as a starting point, the respective compartments 67 are sequentially moved below the discharge port 21 to receive tablets in coincidence with the timing with which one dose of the tablets 29 is discharged from the discharge port 21. Reception begins from the compartment 67 of (1, 1) and then proceeds to (1, 2), (1, 3), . . . as shown by the arrows in FIG. 8B so as to receive four doses per row (four doses for Monday). This is then repeated for (2, 1), (2, 2), . . . to ultimately reach (7, 4). The position of the carrier 37 when the carrier 37 reaches the final position (7, 4) is the reception ending position C. The carrier 37 returns from the reception ending position C to the discharge position A so as to complete one cycle of the carrying process.

(84) When the cycle described above ends, the shutter 38 is opened by the opening/closing device 40 (see FIG. 5), and the tablets 29 in each of the compartments 67 are discharged into all of the corresponding storage concavities 26 of the tray 24 in the standby position b.

(85) When the discharge of the tablets 29 is complete and the shutter 38 is closed, the next cycle of the carrying process is begun. Meanwhile, the drawer 23 is pulled out and the tray 24 is replaced at the tray handling position a. The drawer 23 is then pushed back in, and the next tray 24 is moved to the standby position b, where it comes to rest.

(86) In the drive device 39 (see FIG. 5) of the carrier 37 which executes the carrying cycle described above, an XY drive mechanism is formed by a Y-direction drive motor 84, an X-direction drive motor 85, Y-direction drive belts 86 which are installed at two locations on the left and right sides of the packaging part 14 and are interlocked by an interlocking shaft 90 in the X-direction, a casing 87 which spans between and is fixed to the two Y-direction drive belts 86, and an X-direction drive belt 88 provided inside the casing 87. The X-direction drive motor 85 is fixed to the casing 87.

(87) More specifically, as shown in FIG. 13, a Y-direction slider 89 linked to the Y-direction drive belt 86 is made to slidably engage with a Y-direction guide bar 91 disposed along the belt 86. This Y-direction slider 89 and the casing 87 are linked via a bracket 92 (see FIG. 14).

(88) As shown in FIGS. 14 and 15, a belt holding member 94 is attached to the X-direction drive belt 88, and a slider holder 93 is fixed to the belt holding member 94. Two X-direction sliders 95 are provided on the slider holder 93, and each X-direction slider 95 is made to slidably engage with the X-direction guide bar 96 provided on the casing 87. The upper bar 70a of the gate-shaped bracket 70 is connected to the slider holder 93. As a result, the carrier 37 is connected to and interlocked with the X-direction drive belt 88 via the bracket 70, the slider holder 93, the X-direction sliders 95, and the belt holding member 94.

(89) The Y-direction drive motor 84 and the X-direction drive motor 85 consist of stepping motors and are drive-based on drive signals in the Y-direction and the X-direction from a control device (not shown). When the Y-direction drive belts 86 are driven in response to this driving, the casing 87 and the carrier 37 mounted on the casing 87 are moved by a prescribed amount in the Y-direction. When the X-direction drive belt 88 is driven by the X-direction drive motor 85, the carrier 37 linked to the X-direction drive belt 88 is driven in the X-direction. In this way, the carrier 37 executes the cycle of the carrying process described above.

(90) It may be necessary to remove the carrier 37 from the packaging part 14 due to the need for cleaning or the like. Therefore, the carrier 37 is detachably connected to the bracket 70 and is ordinarily connected in an inseparable state by locking members 110 (see FIGS. 10A and 10B).

(91) That is, as shown in FIGS. 10A and 10B, locking members 110 are respectively fixed to the frame 65 on the left and right sides of the carrier 37. The locking members 110 are buckles (so-called catch locks), wherein a hook 113 is connected by a shaft 114 to a lever 112 attached to a fixed shaft 111, and the hook 113 is biased in the tip direction by an internal spring 115.

(92) On the other hand, an L-shaped fitting 116 fixed to the inside of the gate-shaped bracket 70 extends to the upper surface of the frame 65 of the carrier 37 and makes contact with the upper surface thereof (see FIGS. 10B and 10C). An engaging member 117 is fixed to the L-shaped fitting 116 by a fixing screw 118, and the tip is made to engage with the hook 113 of each locking member 110. The carrier 37 is connected to the bracket 70 by the engagement of the hooks 113.

(93) When the lever 112 of the locking member 110 is pulled up, the hook 113 advances forward (see the double-dotted/dashed line) and is disengaged from the tip of the engaging member 117. As a result, the carrier 37 is released from the bracket 70, which makes it possible to remove the carrier 37 to the outside of the packaging part 14 for cleaning or the like.

(94) Next, the opening/closing device 40 of the shutter 38 (see FIG. 5) consists of a mechanism related to the opening of the shutter 38that is, an opening mechanismand a closing mechanism related to the closing thereof.

(95) The opening mechanism comprises a shutter opening/closing motor 123 installed behind the packaging part 14 shown in FIG. 5, an interlocking shaft 125 in the X-direction driven by the motor 123 via a gear 124, shutter opening/closing belts 126 which are installed in the Y-direction on both the left and right sides of the packaging part 14 and are driven by the interlocking shaft 125, guide bars 127 disposed along both of the shutter opening/closing belts 126, sliders 128 which are linked to the shutter opening/closing belts 126 and are made to slidably engage with the guide bars 127, and an engaging bar 129 spanning between the left and right sliders 128.

(96) The shutter opening/closing motor 123 is supported by a supporting member 134 (see FIGS. 5 and 13).

(97) The engaging bar 129 is disposed on the front side of the engaging edge 78 of the shutter 38 (see FIG. 11A) and is made to engage with the front surface of the engaging edge 78 when the engaging bar 129 moves backward so as to move as a unit, whereby the shutter 38 is opened.

(98) The opening mechanism described above exclusively performs the operation of opening the shutter 38, and the closing function is performed by the closing mechanism. That is, as shown in FIG. 12C, the closing mechanism is provided with a wound spring device 130 exhibiting a spring force in the winding direction on the shutter guide member 71. A band spring 132 wound into a compressed state by a shaft 131 is supported inside a spring case 135 constituting the spring device 130. The free end of the band spring 132 is connected to part of the shutter 38 in the closed state via a fixed coupling member 133. When the shutter 38 is in the closed state, the band spring 132 is in the compressed state.

(99) When the shutter 38 is opened, the band spring 132 exhibits a spring force in the closing direction and is pulled in response to the opening. Next, when the engaging bar 129 returns to the original position, the band spring 132 is compressed to the wound state by the spring force and simultaneously closes the shutter 38. By using a product incorporating a fixed-load spring (commercially available under the brand name Conston (registered trademark) as the band spring 132, the problem of the shutter 38 being closed traumatically can be avoided.

(100) As described above, the opening/closing device 40 of the shutter 38 executes an opening/closing process of constantly maintaining the shutter 38 in the closed state in coincidence with the timing of the movement of the carrier 37 and opening the shutter after the carrier 37 returns to the discharge position A from the reception ending position C. When the engaging bar 129 is moved to the original position by operating the shutter opening/closing motor 123 in reverse after the tablets 29 are discharged into the tray 24 in the discharge position A, the shutter 38 returns to the closed position as a result of the spring force of the band spring 132.

(101) Next, the measures taken in the event that an error occurs in the reception of the tablets 29 and the tablets 29 are not accurately dispensed into the compartments 67 of the carrier 37 will be described.

(102) After returning to the discharge position A, a check is performed by an optical or visual examination as to whether the tablets have been accurately dispensed into the respective compartments 67. As a result, if a dispensing error is discovered, the shutter 38 is not opened, and the carrier 37 is moved to a recovery position D (see FIG. 8A) established to the right of the packaging part 14 by the drive device 39.

(103) A recovery tray 102 is installed at the recovery position D in advance (see FIG. 16A), and the shutter 38 is opened at the point when the carrier 37 reaches the recovery tray 102 so as to discharge all of the tablets 29 in the carrier 37 into the recovery tray 102. The carrier 37 then temporarily returns to the discharge position A and proceeds to perform the normal carrying process thereafter.

(104) A tray reception concavity 103 is provided at the recovery position D, and the recovery tray 102 is detachably installed on the tray reception concavity 103. In order to prevent the ricocheting of the discharged tablets 29, a grid-like base plate 104 is laid out over the inside base of the recovery tray 102, and a cushion sheet 105 made of a resin is laid out over the base plate 104. The base plate 104 provides a gap between the inside base of the recovery tray 102 and the cushion sheet 105 and enhances the elasticity of the cushion sheet 105.

(105) The tablet packaging device 11 of this embodiment is configured as described above, and a series of tablet packaging operations using this device will be described next.

(106) The operator performing the packaging operations pulls out the drawer 23, places the tray 24 on the mounting platform 30 at the tray handling position a, pushes the drawer 23 back in, and then brings the mounting platform 30 to rest at the standby position b. At this point, the cam followers 46 of the vertical moving device 41 of the mounting platform 30 remain at rest at the lowest position. Accordingly, there is a sufficient gap x between the tray 24 on the mounting platform 30 and the carrier 37 above the tray 24, so the movement of the carrier 37 is never inhibited. The mounting platform 30 stays at the standby position b until the discharge of the tablets 29 is received.

(107) When the mounting platform 30 is at rest at the standby position b, the drive device 39 of the carrier 37 is driven so that the carrying process is started. The carrier 37 transitions from the discharge position A to the reception starting position B, and once this transition has been confirmed, prescribed tablets 29 are discharged from the tablet feeder 17. The drive device 39 sequentially moves the carrier 37 from the reception starting position B to the reception ending position C in coincidence with the timing with which the tablets are intermittently discharged from the discharge port 21 and then executes the reception process for receiving the tablets 29 into the respective compartments 67.

(108) When the carrier 37 reaches the reception ending position C, the carrier 37 then returns to the discharge position A, and the carrying process is thereby completed. Once the carrier 37 returns to the discharge position A, it is checked as to whether the tablets 29 have been accurately dispensed into the respective compartments 67, and if it is assessed that the dispensing is inaccurate, the carrier 37 is moved to the recovery position D. At the recovery position D, the shutter 38 is opened so as to discharge all of the tablets 29 into the recovery tray 102.

(109) If it is assessed as a result of this check that the respective compartments 67 contain the correct tablets 29, the vertical moving device 41 is activated, and the mounting platform 30 is moved upward so as to press the tray 24 resting on the mounting platform 30 into the base of the carrier 37.

(110) Next, when the opening/closing device 40 of the shutter 38 is driven so that the engaging bar 129 moves backward, the shutter 38 engaged with the engaging bar 129 also moves backward together with the engaging bar 129. As a result, the compartments 67 of the carrier 37 are opened, and the tablets 29 inside the compartments 67 are discharged into the storage concavities 26 of the tray 24. When the shutter 38 is fully opened, all of the compartments 67 are opened, and the tablets 29 are stored in all of the storage concavities 26. The shutter 38 is then closed by the action of the band spring 132.

(111) Next, the vertical moving device 41 of the drawer 23 is driven so as to move the mounting platform 30 downward, and the drawer 23 is pulled out after a gap x is created between the tray 24 and the carrier 37. The tray 24 is removed from the mounting platform 30 pulled out to the tray handling position a, and the tray 24 is sent to the following packaging process. In the packaging process, the lid sheet 25 is attached to the open surface of the tray 24, and the packaging operations of the tablets 29 are thereby completed.

(112) The tablet packaging device described above is provided with a monitor for displaying the tablet dispensing status. The dispensing of tablets into the tray 24 may be performed automatically, as described above, and medicines which cannot be stored in the table storage part 13 may also be secondarily dispensed manually in the form of so-called manual dispensing. Examples of the display screen in the case of manual dispensing are shown in FIGS. 17 to 22.

(113) FIG. 17 is a prescription input display screen, wherein the number of tablets or the like for each dosing period of the medicine prescribed to the patient is displayed. FIG. 18 is a discharge monitor display screen which enables the confirmation of the medicine presently being discharged. FIGS. 19 to 21 are display screens of the dispensing positions and the numbers of tablets in each of the storage concavities 26 of the tray 24 for each tablet, and the dispensing position and quantity of the next medicine or the previous medicine can be confirmed by following the arrows on the screen.

(114) FIG. 22 is a display screen of the total number of tablets in each of the storage concavities 26, which makes it possible to confirm whether there are any errors in the numbers of tablets ultimately dispensed into each of the storage concavities 26. The tablet dispensing status in the case of manual dispensing can be confirmed based on these display screens.

EXPLANATION OF REFERENCES

(115) a tray handling position b standby position A discharge position B reception starting position C reception ending position D recovery position 11 tablet packaging device 12 frame 13 tablet storage part 14 packaging part 15 storage part 16 tablet cassette 17 tablet feeder 18 slatted shutter 19 discharge chute 20 reception port 21 discharge port 22 cover lid 23 drawer 24 tray 25 lid sheet 26 storage concavity 27a side wall 27b side wall 27c dividing wall 27d groove 28 crease 29 tablet 30 mounting platform 30a tray support ribs 31 adhesive 31a break line 31b breakout part 32 day-of-the-week display 33 date display 34 dosing time display 35 prescription display 37 carrier 38 shutter 39 drive device 40 opening/closing device 41 vertical moving device 42 vertical movement motor 43 belt 44 rotary shaft 45 eccentric cam 46 cam follower 47 bearing 48 fixed bracket plate 49 movable bracket plate 51 long hole 52 fixing screw 53, 54 adjustment plates 55, 56 adjustment bolts 57 mounting platform supporting member 58 guide pin 59 contact plate 60 coil spring 61 sleeve 62 anti-slip member 64 foreign matter reception tray 65 frame 66 dividing wall 67 compartment 68 brush 69 square hole 70 bracket 70a upper bar 71 shutter guide member 72 guide roller 74 connecting edge 75 fixing screw 77 guide edge 78 engaging edge 79 slit 80 slit 81 notch part 82 insertion port 83 foreign matter 84 Y-direction drive motor 85 X-direction drive motor 86 Y-direction drive belt 87 casing 88 X-direction drive belt 89 Y-direction slider 90 interlocking shaft 91 Y-direction guide bar 92 bracket 93 slider holder 94 belt holding member 95 X-direction slider 96 X-direction guide bar 102 recovery tray 103 tray reception concavity 104 base plate 105 cushion sheet 110 locking member 111 fixed shaft 112 lever 113 hook 114 shaft 115 internal spring 116 L-shaped fitting 117 engaging member 118 fixing screw 123 shutter opening/closing motor 124 gear 125 interlocking shaft 126 shutter opening/closing belt 127 guide bar 128 slider 129 engaging bar 130 spring device 131 shaft 132 band spring 133 fixed coupling member 134 supporting member 135 spring case