Source: https://patents.google.com/patent/KR101156278B1/en
Timestamp: 2020-01-23 19:27:22
Document Index: 431647414

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KR101156278B1 - Medicine tray supply device - Google Patents
Medicine tray supply device Download PDF
KR101156278B1
KR101156278B1 KR20067022532A KR20067022532A KR101156278B1 KR 101156278 B1 KR101156278 B1 KR 101156278B1 KR 20067022532 A KR20067022532 A KR 20067022532A KR 20067022532 A KR20067022532 A KR 20067022532A KR 101156278 B1 KR101156278 B1 KR 101156278B1
KR20067022532A
KR20070010034A (en
아키토미 고하마
다츠아키 구니모토
가츠마사 시라이
가부시키가이샤 유야마 세이사쿠쇼
2004-04-30 Priority to JPJP-P-2004-00136543 priority Critical
2004-04-30 Priority to JP2004136543 priority
2005-04-27 Application filed by 가부시키가이샤 유야마 세이사쿠쇼 filed Critical 가부시키가이샤 유야마 세이사쿠쇼
2005-04-27 Priority to PCT/JP2005/008026 priority patent/WO2005105629A1/en
2007-01-19 Publication of KR20070010034A publication Critical patent/KR20070010034A/en
2012-06-13 Publication of KR101156278B1 publication Critical patent/KR101156278B1/en
Chemical Tray Feeder {MEDICINE TRAY SUPPLY DEVICE}
TECHNICAL FIELD This invention relates to the chemical | medical agent tray supply apparatus for automatically supplying the tray which accommodated chemical | medical agent to a tray conveyance line.
DESCRIPTION OF RELATED ART Conventionally, the automatic supply apparatus of the packaging container which made it possible to automatically supply by taking out the laminated container in order from the lowest one was known (for example, refer Japanese Patent Laid-Open No. 06-183568).
However, although Japanese Unexamined Patent Publication No. 06-183568 discloses an automatic takeout of a packaging container, the configuration for installing the container itself is not shown. In the chemical tray used for accommodating a chemical and conveying it to a ward, since it is comparatively large in weight, it is very difficult to install it in the state which laminated | stacked the chemical tray on the said automatic supply apparatus.
An object of this invention is to provide the tray supply apparatus which can be installed easily even in the state which laminated | stacked the chemical | medical agent tray.
In the chemical tray supply apparatus which supplies a chemical | medical agent tray to a tray conveyance line as a means for solving the said subject, this invention is a tray which supports the said chemical | medical agent tray to the chemical tray accommodation member which can accommodate a chemical | medical agent tray in a laminated state. After the tray conveyance member provided with the support member, the conveyance mechanism which comprises a part of the said tray conveyance line, and conveys a chemical | medical agent tray, and the said tray support member is dropped, and the chemical | medical agent tray of a laminated state is mounted in a tray conveyance member, By supporting and raising the chemical trays located at the top one from the lowest, a control unit for supplying the chemical trays located at the lowest level to the tray conveying line is provided, and the tray conveying member is a trolley on which the chemical trays in a stacked state are mounted ( Cutout section in which the corners of the carriage are movable It is equipped.
By this structure, the chemical | medical agent tray can be installed in the chemical | medical agent tray accommodation member with a trolley | bogie in the state laminated | stacked on the trolley | bogie. That is, each part of a trolley | bogie does not interfere with a tray conveyance member by a cut part, and the chemical | medical agent tray conveyance function by a tray conveyance member is not impaired.
When the tray conveying member is provided with a trolley | bogie extruded member which moves a trolley | bogie out of a chemical | medical agent tray accommodation member in the state located in the chemical | medical agent tray accommodation member, it is preferable at the point which can only take out a trolley | bogie easily from a chemical tray accommodation member.
If the said control part keeps invasion | invasion of the trolley | bogie into the chemical | medical agent tray accommodation member by the trolley | bogie extrusion member during conveyance of the chemical | medical agent tray by a tray conveyance member, a chemical | medical agent may be accidentally carried out during conveyance of the chemical | medical agent tray by a tray conveyance member. It is preferable not to install in a tray accommodation member and to be safe.
The chemical | medical agent tray accommodating member is provided in multiple numbers, and each chemical tray accommodating member is provided with the tray detection part which detects the conveyance of the chemical | medical agent tray by a tray conveyance member, respectively, and the said control part is the said chemical | medical agent tray accommodating member In the meantime, when supplying a chemical | medical agent tray in order from the position located upstream, and judged to be a defective product based on the detection signal by the said tray detection part, the next chemical | medical agent tray accommodation located in the downstream of the said chemical | medical agent tray accommodation member is accommodated. It is preferable to start supply of the chemical tray from the member.
This configuration makes it possible to supply the chemical tray from the next chemical tray storage member while performing the replenishment operation of the chemical tray in the chemical tray storage member having a defective product. For this reason, supply of a chemical tray can be performed without interrupting the supply operation of a chemical tray, and it becomes possible to improve work efficiency significantly.
According to the present invention, since the cut portion is formed in the tray conveying member, the chemical tray can be installed in the chemical tray accommodating member as it is while being stacked on the trolley, and thus the chemical tray can be efficiently installed.
1A is an overall view showing an outline of a medicine supply system according to this embodiment.
FIG. 1B is a front view of the feed lifter of FIG. 1A. FIG.
1C is a plan view showing the bottom portion of FIG. 1B.
1D is a front view of FIG. 1C.
FIG. 1E is a side view of the trolley extruded member of FIG. 1D. FIG.
1F is a view showing a step of supplying a tray by a tray support member.
1G is an enlarged view of the tray support member and the guide plate.
1H is a partial front view illustrating a tray conveyance state in a supply lifter.
Fig. 2 is a perspective view showing the tray discharging device of Fig. 1A.
3 is a perspective view of a cart storing a tray;
(A) is a top view in the state which shows the internal structure of a tray conveyance apparatus, and FIG. 4 (b) is the front view.
The front view in the state which shows the internal structure of a tray conveyance apparatus and a bottom.
FIG. 6 is a partially enlarged perspective view showing a gripping member installed in a tray conveying apparatus. FIG.
7 is a front view of the tray discharging device.
(A) is a top view of FIG. 7, and FIG. 8 (b) is a front sectional drawing which shows a part thereof.
FIG. 9 is an enlarged view showing the vicinity of the first guide member of FIG. 7; FIG.
FIG. 10 is an enlarged view showing the vicinity of the second guide member of FIG. 7; FIG.
11 is a block diagram showing a controller of the drug supply system according to the present invention.
The top view which shows the state which carried several carts.
Fig. 13 (a), (b) and (c) are diagrams showing an example in which a tray is stored in a cart.
It is a flowchart which shows the process content in the chemical | medical agent supply system which concerns on this invention.
16 is a flow chart following FIG. 15.
17 is a flowchart showing a drive process of a supply lifter;
18 is a flowchart showing a defective article supply processing.
1: feed lifter (chemical tray feeder) 2: tray ejector
3: tray conveying line 4: chemical dispensing device
5: card rewritable device 6: enemy lifter
7: tray 8: cart
9: cart return device 10: control device
11: blade part 12: identification card
13: Cart waiting part 14: Tray supply part
15: cart transfer member 16: first optical communication unit
17: first guide member 18: lifting motor
19: gear 20: guide piece
21: Tray feeder 22: Vertical rail
23: horizontal rail 24: tray holding member
25 arm part 26 extruded part
27: second optical communication unit 28: electromagnet unit
29: second guide member 30: guide roller
31: guide cover 32: drive belt
33: slider 34: pusher
35: pulley 36: gear
37: transfer motor 38: support panel
39: each part 40: upper connection part
41: lower connection part 42: handle
43: support 44: caster
45: guide groove 46: storage shelf
47: reflector 48: cart supply line
49: cart discharge line 50: wheels
51: mount 52: drive motor
53: detection member 54: control board
55: holding member 56: bearing portion
57: power transmission belt 58: cart detection sensor
59: position displacement detection sensor 60: detection sensor
61: third optical communication unit 62: pulse driver
63: signal converter 64: gripping arm
65: drive shaft 66: driven shaft
67: drive gear 68: driven gear
69: support 70: sensor dog
71: position detection sensor 72: current collector arm
73: slit 74: power supply unit
75: guide rail 76: trolley
77: cover 78: server
79: input device 100: frame
101: tray support member 102: tray conveying member
103: bogie extrusion member 104: first switch
105: second switch 106: rail
107: platform 108: support
109: first conveying unit 110: second conveying unit
111: cutting portion 112: rotation axis
113: conveying roller 114: pulley (pulley)
115: belt 116: first motor
117: arm 118: pressing portion
119: drive roller 120: belt
121: first tray detection sensor 122: second tray detection sensor
123: balance 124: support plate
125: parts 126: wheels
EMBODIMENT OF THE INVENTION Hereinafter, embodiment which concerns on this invention is described according to an accompanying drawing.
1 shows a chemical supply system according to the present embodiment. This chemical | medical agent supply system consists of several chemical | medical agent dispensing apparatuses 4, the card rewriting apparatus 5, and the dropping-up lifter 6 in the middle of the tray conveyance line 3 which connects the supply lifter 1 and the tray discharge apparatus 2. ) Is arranged. Moreover, as shown in FIG. 2, the cart conveyance apparatus 9 which conveys the empty cart 8 to the tray discharge apparatus 2, and conveys the cart 8 which accommodated the tray 7 is provided. Moreover, as shown in FIG. 11, each of these members is drive-controlled by the control apparatus 10. As shown in FIG.
The feed lifter 1 is accommodated in a state where a plurality of trays 7 are stacked, and the feed lifter 1 is sequentially discharged to the tray conveying line 3 one by one. As shown in FIG. 1B, the feed lifter 1 supports a tray for supporting the trays 7 stacked in a box-shaped frame 100 (chemical tray accommodation member) in which the front surface is opened. The member 101, the tray conveyance member 102 which comprises a part of the tray conveyance line 3, and the trolley | bogie extruded member 103 which can extrude the trolley | bogie 123 are provided. In this embodiment, the feed lifter 1 is arranged in parallel in five units along the tray conveyance line 3.
On one side of the front panel of the frame 100, a first switch 104 and a second switch 105 with LEDs are provided, respectively. The first switch 104 flashes by being pressed when the tray 7 is replenished in the frame 100. The second switch 105 is turned on by entering and installing the trolley 123 on which the tray 7 is mounted in the frame 100, and the press-fitting operation of the trolley 123 is enabled.
As shown in FIG. 1D, the tray support member 101 is provided with a lift table 107 provided so as to be able to lift and lower on a rail 106 extending in an up and down direction, respectively provided on opposite inner surfaces of the frame 100. And a support piece 108 provided so as to slide on the platform 107. As for the support piece 108, the part 108a of the front-end | tip is cut off and stands up, and the side edge and the lower surface of the blade part 11 with respect to the tray 7 are supported. In addition, the support piece 108 includes a plurality of rollers 108b on the bottom thereof, and accesses the tray 7 so as to support the blade portion 11 of the tray 7 by a driving member (not shown). It reciprocates between one support position and the release position deviated from this tray 7. In addition, as shown in FIG. 1F (c), the support piece 108 moves in the horizontal direction when the lifting platform 107 moves up and down by the guide plate 106a provided at the lower end of the rail 106. That is, the guide groove 106b is formed in the guide plate 106a. The guide groove 106b has a dimension of a predetermined width, and includes an inclined portion 106c and a path restricting plate 106d inclined from the inside to the outside from the top to the bottom. As shown in Fig. 1G, the path restricting plate 106d is provided so as to be rotatable about the pin 106e provided in the middle, and the first position and the inclined portion 106c parallel to the guide groove 106b. It is movable between 2nd positions parallel to), and is pressed toward a 1st position by the spring which is not shown in figure. Accordingly, the edges of the guide grooves 106b through which the roller 108b in the center of the support piece 108 is different at the time of the lowering of the platform 107 and at the time of ascending, are different from those shown by the solid line in Fig. 1G. As shown in Fig. 1G, the support piece 106 is gradually moved outward by rolling the lower edge portion of the inclined portion 106c, and the support piece 106 is transmitted by rolling the upper edge portion of the inclined portion 106c as shown by the dotted line in Fig. 1G. ) Slowly move inward.
As illustrated in FIG. 1C, the tray conveying member 102 includes a first conveying unit 109 located at the center and a second conveying unit positioned at both sides thereof, that is, upstream and downstream sides of the tray conveying line 3. It consists of 110, and it is the cut part 111 between both conveyance parts 109 and 110. As shown in FIG. The 1st conveyance part 109 arrange | positions the conveyance roller 113 and the pulley 114 to the three rotation shafts 112 provided at predetermined intervals, respectively, and the belt (between each pulley 114 of the adjacent rotation shafts 112). 115) each set. The driving force of the first motor 116 is transmitted to the rotating shaft 112 of the center portion through a gear (not shown), and the conveying roller 113 is rotated through the belt 115 and the pulley 114 to be mounted on the upper tray ( 7) is conveyed to the downstream side. Moreover, the 2nd conveyance part 110 is provided with the conveyance roller 113 and the pulley 114 in two center parts, respectively, in the both ends of the two rotation shafts 112 provided in predetermined space, and each of the rotation shafts 112 The belt is placed between the pulleys 114. On the other hand, the driving force of the motor which is not shown in figure is transmitted to the rotating shaft 112, the conveyance roller 113 rotates through the pulley 114 and the belt 115, and conveys the tray 7.
As shown in FIGS. 1D and 1E, the trolley-extruded member 103 is provided with a pressing part 118 made of an elastic material at one end of the bent arm 117, and is a tray conveying line. It is arrange | positioned in two places of the upstream and downstream sides of (3), respectively. Drive rollers 119 are disposed before and after the frame 100, belts 120 are placed on the drive rollers 119, and the other end of the arm 117 is attached to the belt 120. It is fixed. One driving roller 119 is rotated by the driving of the second motor 119a, and the arm 117 and the pressing part 118 can reciprocate through the belt 120. The press part 118 reciprocates below the cut part 111 of the said tray conveyance member 102, presses each part 125 of the trolley | bogie 123 mentioned later, and discharges it from the cut part 111. FIG. That is, it is possible to move the cart 123 to the outside of the frame 100.
In addition, a first tray detection sensor 121 and a second tray detection sensor 122 are disposed at the central portion of the first conveying portion 109 and the side surface of the frame 100, respectively. The 1st tray detection sensor 121 detects whether the tray 7 is located in the 1st conveyance part 109, and discriminates | determines whether the tray 7 is a defective article by the discharge lifter 1, and It is used to determine whether the tray 7 is moved upstream. Moreover, the 2nd tray detection sensor 122 is provided in the boundary part of the adjacent discharge lifter 1, and detects the conveyance state of the tray 7 by the tray conveyance member 102. Moreover, as shown in FIG.
In addition, the said trolley | bogie 123 extends each part 125 from 4 corners of the support plate 124 which made the rectangular shape toward the downward direction. At the lower end of each part 125, the wheel 126 for rotating the plane by free rotation is installed to be free to turn so as to freely change the direction of the transmission, it is possible to enter the respective cuts 111 have.
Moreover, as shown in FIG. 3, each said tray 7 is a box shape provided with the blade part 11 which an upper surface opens, and the identification card 12 can be attached or detached at the surface end. As the identification card 12, a leuco-type, cloudy type rewrite card, etc. which can be freely rewritten by heating to a predetermined temperature are used. The identification card 12 also describes patient information and the like.
As shown in FIG. 2 and FIG. 7, the tray discharging device 2 includes a cart standby unit 13 and a tray supply unit 14, and a cart transfer member 15 is provided at an upper portion thereof. In the empty cart 8, the tray 7 containing chemicals is stored sequentially.
As shown in FIG. 7, the cart standby part 13 is a plate-shaped body assembled into a rectangular frame shape, and moves the cart 8 to the next tray supply part 14 quickly and accurately. For this purpose, a space for waiting at the position along the tray discharge device 2 is secured. The 1st optical communication part 16 is provided in the lower center part of the cart standby part 13. The first optical communication unit 16 performs data transmission and reception with the third optical communication unit 61 provided in the cart transport apparatus 9 described later. 9, the 1st guide member 17 is provided in the center part of the elongate part 13a of the cart waiting part 13. As shown in FIG. The guide member 17 raises and lowers the guide piece 20 through the gear 19 by the drive of the lifting motor 18. The guide piece 20 enables the cart 8 to enter the cart waiting section 13 from the cart supply line 48 by rising, and moves from the cart waiting section 13 to the tray supply section 14 by descending. The cart 8 is guided and the entry of the next empty cart 8 is blocked.
As shown in FIG. 7, the tray supply part 14 is provided with the tray conveyance apparatus 21 in the rectangular frame shape similar to the said cart waiting part 13. As shown in FIG. The tray conveying apparatus 21 is provided with the horizontal rail 23 so that it can slide up and down in the vertical rail 22 provided in the plate-shaped object of both sides, and the tray can be moved to the horizontal rail 23 in a horizontal direction. The holding member 24 is provided. The tray holding member 24 pushes the arm 25 holding the blade portion 11 of the tray 7 and the tray 7 held on the arm 25 toward the front, that is, the cart 8 side. The extrusion part 26 is provided. Then, the tray 7 is stored in an arbitrary storage shelf 46 of the empty cart 8 by moving in the X (horizontal) direction and the Y (vertical) direction.
Moreover, the tray supply part 14 is equipped with the 2nd optical communication part 27 which performs data transmission and reception with the 3rd optical communication part 61 provided in the cart conveyance apparatus 9 mentioned later, In the upper part, an electromagnet part 28 is provided. As the empty cart 8 is conveyed by the cart conveyance member 15, an electromagnet part 28 draws current and draws the cart 8, and positions it. Thereby, the positional displacement of the cart 8 at the time of delivery of the tray 7 to the cart 8, etc. is prevented. Moreover, as shown in FIG. 10, the 2nd guide member 29 of the structure similar to the said 1st guide member 17 is provided in the upper plate center part of the tray supply part 14. As shown in FIG. In this second guide member 29, a guide roller 30 is provided in place of the guide piece 20. And the guide roller 30 guides the cart 8 which moves to the tray supply part 14 from the cart standby part 13 by descending, and raises the guide roller 30 from the tray supply part 14 to the cart discharge line 49 by raising. It is possible to move the cart 8.
As shown in FIG. 7, the guide cover 31 is provided in the upper part of the boundary between the cart waiting part 13 and the tray supply part 14. As shown in FIG. The guide cover 31 has a substantially L-shape in which the plate-shaped body extends vertically downward from the horizontal direction, and is in the width direction when the cart 8 moves from the cart standby section 13 to the tray supply section 14. Prevent positional displacement.
As shown in FIG. 8, the cart conveyance member 15 fixes the slider 33 to the drive belt 32 provided in the upper part of the cart standby part 13 and the tray supply part 14, and this slider 33 ), The pusher 34 is extended from the bottom side. The belt 32 is caught by pulleys 35a and 35b provided on both sides. The driving force of the transfer motor 37 is transmitted to one pulley 35a via a pair of gears 36 from the shaft. The pusher 34 presses one end surface of the empty cart 8 disposed in the cart waiting section 13 and transfers it to the tray supply section 14.
As shown in FIG. 3, the cart 8 is provided with four support panels 38 standing up at predetermined intervals, and the upper portions 39 which protrude from the upper center portion and the lower center portion, respectively, are connected to the upper portion 40. ) And the lower connecting portion 41 are integrated. In the support panel 38 positioned at both sides, the handles 42 are respectively provided at the upper edge portion, and the casters 44 are respectively provided at both ends of the support portion 43 extending from the lower end of the corner portion 39. have. This makes it possible to grasp the handle 42 and move the cart 8 freely. Moreover, the guide groove 45 is formed in the opposing surface of each support panel 38 by the predetermined space | interval �� in the up-down direction. And the storage shelf 46 which supports the blade part 11 of the tray 7 by the opposing guide groove 45 is comprised. When the tray 7 is not stored in the storage shelf 46, it can be piled up as shown in FIG. 12, and can hold down the storage space at the time of not using. Moreover, the metal reflecting plate 47 (refer FIG. 7) is provided in the center part of the lower surface of the lower connection part 41, and it is detectable by the position displacement detection sensor 59 mentioned later.
The tray conveyance line 3 conveys the tray 7 to the downstream side, ie, the tray discharge apparatus 2 by rotating a some roller which is not shown in figure.
The chemical | medical agent dispensing apparatus 4 packs the said chemical | medical agent one by one based on prescription data input from the server 78, etc., and delivers it to the said tray 7 conveyed to the tray conveyance line 3, and the like. will be. Below each chemical | medical agent dispensing apparatus 4, the stopper (not shown) for stopping the tray 7 which moved the tray conveyance line 3 once as needed is provided.
The card rewriting apparatus 5 is for printing a predetermined matter on the identification card 12 provided in the tray 7, and even if it is already printed, it is possible to rewrite the contents and to print and fix them (in detail). , For example, see Japanese Patent Application Laid-Open No. 2002-165865).
The drip lifter 6 stacks the tray 7 which has received the chemical | medical agent and was conveyed, and makes it stand by. And it supplies sequentially to the tray discharge apparatus 2 (For more information, for example, refer Unexamined-Japanese-Patent No. 2002-240946.).
The cart conveyance apparatus 9 is the 1st cart conveyance apparatus 9a for conveying the empty cart 8 aligned with the cart supply line 48, and the tray 7 was accommodated by the tray discharge apparatus 2. It consists of the 2nd cart conveyance apparatus 9b which aligns the cart 8 with the cart discharge line 49 (the arrangement line of each cart conveyance apparatus 9a, 9b is shown with the dashed-dotted line in FIG. 1). .
Each cart conveying apparatus 9a, 9b is the drive motor 52 on the mount 51 supported by the four wheels 50, as shown to FIG. 4 (a) and FIG. 4 (b). (Pulse motor), the detection member 53, the control board 54, the holding member 55, etc. are provided. The wheels 50 are installed at both ends of the rotating shaft freely supported by the bearing unit 56, and the driving force of the driving motor 52 is transmitted to the rotating shaft through the power transmission belt 57. As the detection member 53, the cart detection sensor 58, the position displacement detection sensor 59, the detection sensor 60, and the 3rd optical communication part 61 of both center parts are provided, respectively.
The cart detection sensor 58 is provided with three optical sensors including light emitting elements and light receiving elements in parallel. That is, the lower connection part 41 is detected by reflecting the light irradiated from the light emitting element on the lower surface of the lower connection part 41 of the cart 8, and receiving it with the light receiving element. And all the optical sensors are arrange | positioned so that the lower connection part 41 can be detected correctly and simultaneously.
The position displacement detection sensor 59 detects the reflecting plate 47 provided in the cart 8, and is the cart 8 located in the center of the cart supply line 48 or the cart discharge line 49? Is used to determine whether or not the position is displaced in the direction orthogonal to each line.
As the detection sensor 60, for example, an ultrasonic sensor is used. The detection sensor 60 is respectively arrange | positioned in four places of the both ends of the cart conveyance apparatus 9, and detects the cart 8. As shown in FIG. For example, when the cart 8 is detected when approaching the cart 8 in order to grip the cart 8 with the holding member 55 described later, or when the held cart 8 is transported. It is used for the case of detecting whether or not to collide with another cart 8.
The third optical communication unit 61 transmits and receives data with the first optical communication unit 16 or the second optical communication unit 27 provided in the tray discharge device 2.
The control board 54 controls the pulse signal output from the pulse driver 62 to the driving motor 52 through the signal converter 63 based on the data received through the third optical communication unit 61. The cart conveyance apparatus 9 is drive-controlled.
As shown in FIG. 6, the holding | gripping tool 55 consists of a pair of holding | gripping arms 64a and 64b, respectively, in the center of both sides of the mount 51, ie, each of the said cart detection sensors 58, respectively. It is arranged. One holding arm 64a is being fixed to the drive shaft 65 which rotates positive and reverse by the drive of a motor (not shown). The other gripping arm 64b is fixed to the driven shaft 66. Then, the drive gear 67 provided on the drive shaft 65 and the driven gear 68 provided on the driven shaft 66 are engaged with each other, so that both the holding arms 64a and 64b are synchronously rotated. It is supposed to. Each holding arm 64a, 64b bends a metal plate, and the upper plate part which guides the lower connection part 41 of the cart 8 in three surfaces (upper surface, lower surface, and other side surface) except one side surface. It is the structure provided with 55a, the lower board part 55b, and the side board part 55c. The upper plate portion 55a and the lower plate portion 55b are formed so as to gradually extend from the side plate portion 55c toward the distal end portion, so that the upper plate portion 55a and the lower plate portion 55b can be smoothly gripped without interfering with the lower coupling portion 41. Moreover, since the holding arms 64a and 64b itself deform | transform elastically, it is possible to absorb some error and hold | maintain the lower connection part 41 reliably. Moreover, each holding arm 64a, 64b is attached to the support body 69 of the substantially rectangular parallelepiped shape fixed to each said axis | shaft. The lower coupling portion 41 can be guided from both sides by the side plate portion 55c of one gripping arm 64a and the side plate portion 55c of the other gripping arm 64b. Therefore, even if the cart 8 is inclined somewhat with respect to the cart conveyance apparatus 9, it is possible to correct the position to an appropriate position. In addition, the holding arm 64a, 64b detects the sensor dog 70 provided in the one end part of the driven shaft 66 by the position detection sensor 71, and rotational motion is stopped.
In the mount 51 of the said cart conveyance apparatus 9, as shown in FIG. 5, the collector arm 72 is extended from the bottom surface downward. The current collecting arm 72 serves as a power supply path for supplying power to the motor and the like.
As shown in FIG. 5, the slit 73 is formed in the bottom surface which comprises the cart supply line 48 and the cart discharge line 49, and the power supply unit 74 is provided in the lower part. In the power supply unit 74, the guide rail 75 and the trolley 76 for power supply are disposed to face each other. The guide rail 75 guides the current collecting arm 72 and enables the cart conveying device 9 to move along each line. The trolley 76 supplies electric power to the cart conveying apparatus 9 through the current collecting arm 72. The upper opening of the slit 73 is covered with a cover 77 made of a flexible material. The cover 77 is formed with a slit 77a to which the current collecting arm 72 is movable.
As shown in FIG. 11, the control device 10 is received from the server 78 or the like, or based on prescription data input from the input device 79 (for example, a keyboard, a mouse, a touch panel, and the like). Then, the chemical | medical agent dispensing apparatus 4, each roller of the tray conveyance line 3, the tray discharge apparatus 2, etc. are drive-controlled.
Next, operation | movement of the chemical | medical agent supply system of the said structure is demonstrated.
First, the empty cart 8 is aligned and arranged on the cart supply line 48. That is, the lower connection part 41 of the cart 8 is orthogonal to the cart supply line 48, and the lower connection part 41 is arrange | positioned so that it may become substantially equal to both sides with respect to the cart supply line 48. FIG. However, the arrangement may not be very accurate.
As shown in the flowchart of FIGS. 14-16, the control apparatus 10 drives the supply lifter 1 based on the prescription data input from the server 78 etc. (step S2), The tray 7 is supplied to the tray conveyance line 3.
In the driving process of the supply lifter 1 in the step S2, as shown in the flowchart of FIG. 17, the supply lifter 1 (first supply lifter) located on the most upstream side of the conveying line among the five units provided in parallel. 1a)] is driven (step S31). That is, as shown to FIG. 1F (a), after raising the tray support member 101, the stacked tray 7 is supported, the trolley | bogie extruded member 103 is driven, and the trolley | bogie 123 is taken out, FIG. As shown to 1F (b), the tray 7 laminated | stacked by driving the tray support member 101 is dropped, and the tray 7 located in the lowest position is located in the 1st conveyance part 109. As shown to FIG. Here, as shown to FIG. 1F (c), the support state by the tray support member 101 is changed into the tray 7 on the one top from the tray 7 of the lowest. As shown in Fig. 1F (d), the other tray 7 is moved upward while leaving only the lowermost tray 7. When it is detected in the first conveying unit 109 that the tray 7 is lowered by the first tray detecting sensor 121 (step S32: YES), the conveying roller 113 is driven to rotate (step S33). (7) is conveyed to the tray conveyance line 3.
The conveyance state of the tray 7 in the supply lifter 1 is detected by the first tray detection sensor 121 and the second tray detection sensor 122. As shown in FIG. 1H, when the 1st tray detection sensor 121 of the upstream supply lifter 1a detects the tray 7, as mentioned above, the conveyance roller 113 is driven and the tray 7 is carried out. Is conveyed on the tray conveyance line 3 toward the downstream supply lifter 1b. When the first tray detection sensor 121 of the downstream supply lifter 1b detects the tray 7 supplied from the upstream supply lifter 1a, the tray supply operation of this supply lifter 1b is in a standby state. The conveyance roller 113 is driven, and the tray 7 is conveyed further on the tray conveyance line 3 toward the downstream side. When the 2nd tray detection sensor 122 detects the tray 7 on the tray conveyance line 3 for more than a fixed time, the conveyance roller 113 will stop and the tray supply operation of the feed lifter 1 will stop. By doing in this way, the position of the tray 7 stopped and stopped on the tray conveyance line 3 can be correct | amended and it can be made into the state which can be conveyed. Hereinafter, similarly, it supplies to the tray conveyance line 3 from the tray 7 located in the lowest position in order.
After that, even if the first supply lifter 1a is driven, if the tray 7 cannot be detected by the first tray detection sensor 121 (step S34: NO), the first supply lifter 1a provides a tray. It is judged that (7) is a shortage and reports the effect (step S35). Further, the tray support member 101 is driven in the supply lifter 1 (second supply lifter 1b) adjacent to the downstream side of the first supply lifter 1a (step S36), and the tray is conveyed in the same manner as described above. Supply of the tray 7 to the line 3 is started.
Here, the defective article supply processing for supplying the tray 7 to the supply lifter 1a in which the defective article has occurred will be described with reference to the flowchart of FIG. 18. First, the first switch 104 is pressed. When the first switch 104 is pressed (step S41), the LED is changed from lighting to the blinking state (step S42). Then, by driving the trolley extruded member 103 and retracting the pressing section 118 to the back side of the frame 100 (step S43), it is possible to enter the corners 125 of the trolley 123 into the cut section 111. Become. At this time, the LED of the second switch 105 is set to the blinking state (step S44) to inform that the vehicle 123 is waiting to be put in.
When the tray 7 is mounted on the trolley 123 in the stacked state and the trolley 123 enters the frame 100, it is detected by a sensor (not shown) (step S45), so that the second switch 105 Is turned on (step S46), and the stacked trays 7 are reported to be installed at appropriate positions. In addition, as shown in Fig. 1F (a), the tray supporting member 101 is driven to raise and support the blade portion of the lowermost tray (step S47). Here, when the 2nd switch 105 is pressed (step S48), the trolley | bogie extruded member 103 will drive (step S49), and the trolley | bogie 123 in which each part 125 was pressed by the press part 118 will be framed. It is discharged to the outside from within 100.
In this way, the supply of the tray 7 by the downstream supply lifter 1b can be continued even during the tray 7 replenishment operation of the supply lifter 1a, so that the conveyance of the tray 7 is not pushed back. In addition, after the tray 7 is installed in the frame 100, the pressing portion 118 stays in the position where the corner portion 125 pushed out, thereby preventing entry of the trolley 123. For this reason, the problem of installing the trolley | bogie 123 by mistake during the conveyance of the tray 7 in the tray conveyance line 3 can be prevented.
Returning to the flowchart of FIG. 14, in the said tray conveyance line 3, a roller (not shown) drives, and conveys the supplied tray 7 to the chemical | medical agent dispensing apparatus 4. As shown in FIG. When the tray 7 moves the medicine of prescription data to the chemical | medical agent dispensing apparatus 4 which can dispense, the stopper is stopped once by a stopper (not shown), and a corresponding chemical | medical agent is dispensed (step S3). If all the chemicals cannot be dispensed with one chemical dispensing device 4, the other chemicals dispensing device 4 stops the tray 7 to dispense the chemicals.
When dispensing of the medicine is completed, the card rerecording apparatus 5 returns the patient data such as the patient name, the medicine data such as the prescribed medicine name, the ward name, etc. to the identification card 12 attached to the tray 7. Location data and the like are described (step S4). If something has already been written, rewrite it. When printing on the identification card 12 is completed, it is determined whether or not the medicine contained in the tray 7 is a prescription on time (step S5-1). If the prescription is on time, the procedure proceeds to the next step, and if it is determined that the prescription is not a prescription, that is, a temporary prescription, the trays 7 are stacked on the load lifter 6 so that they can be taken out (step S5-2). As a result, for example, even in the case of urgent prescription for a patient whose condition is suddenly changed, it is possible to stand by the load lifter 6 without storing it in the cart 8, so that it is possible to cope quickly. .
In the tray discharge apparatus 2, the 2nd optical communication part 27 of the tray supply part 14 and the 3rd optical communication part 61 of the 2nd cart conveyance apparatus 9b communicate, and the 2nd cart conveyance apparatus 9b is carried out. On the basis of the detection result of the detection sensor 60 of Fig. 2), it is judged whether or not the cart 8 is not located in the tray supply unit 14 (step S6). When the cart 8 is not located in the tray supply part 14, it communicates with the 1st optical communication part 16 of the cart waiting part 13, and the 3rd optical communication part 61 of the 1st cart conveyance apparatus 9a. Then, based on the detection result by the detection sensor 60 of the first cart conveying device 9a, the first cart conveying device 9a is moved to the empty cart 8 closest to the tray discharging device 2. (Step S7). If the cart 8 is located in the tray supply part 14, it transfers to step S18 mentioned later.
In this case, the 1st cart conveyance apparatus 9a is moved until the detection sensor 60 located in the moving direction side of the 1st cart conveyance apparatus 9a detects the proximity to the cart 8 to a certain distance. It moves at a high speed, and if it detects that it is close to a certain distance, the speed is reduced. In detail, it moves at high speed (constant speed) until the distance to the cart 8 reaches the 1st set dimension, and when the 1st dimension is reached, the moving speed of the 1st cart conveyance apparatus 9a is 1 Deceleration to / 4 And when the distance to the cart 8 reaches the 2nd set dimension which is closer than a 1st dimension, the movement speed is further reduced to 1/6 with respect to the movement speed at high speed.
If a predetermined time has elapsed (step S8: no) without the position displacement detection sensor 59 detecting the reflecting plate 47, the position of the cart 8 will be in the direction orthogonal to the cart supply line 48. FIG. It is determined that the position is displaced, and an error is reported (step S12).
When the position displacement detection sensor 59 detects the reflecting plate 47 (step S8: YES), the first cart conveying apparatus 9a is stopped (step S9) and based on the detection signal from the cart detection sensor 58 Then, it is judged whether or not the gripping operation by the gripping member 55 is possible (step S10). This determination is performed by each cart detection sensor 58 located on both sides of the first cart conveying apparatus 9a, depending on whether at least two optical sensors are detecting the lower connection part 41, respectively. Run
If it is determined that the gripping operation is possible (step S10: Yes), the motor (not shown) is driven to rotate the gripping arms 64a and 64b to grip the lower connecting portion 41 (step S11). At this time, the lower connecting portion 41 is guided while pressing both sides by the side plate portion 55c of the respective holding arms 64a and 64b, so that the lower connecting portion 41 is perpendicular to the direction perpendicular to the cart supply line 48. Even if it is arranged to be slightly inclined, it is corrected.
In addition, when the holding operation is impossible, that is, the inclination angle of the lower connecting portion 41 is large with respect to the direction orthogonal to the cart supply line 48, and it is determined that it cannot be held by the holding arms 64a and 64b (step S10) : No), an error is reported (step S12).
When the lower connecting portion 41 is held by the grip arms 64a and 64b, the first cart conveying device 9a is moved to the cart waiting portion 13 of the tray discharging device 2 (step S13). Even when moving to the cart waiting section 13, based on the detection signal from the detection sensor 60, the vehicle moves at a high speed until a certain distance is approached, and once the vehicle reaches a certain distance, the vehicle is stopped or the speed is reached. Decreases. In detail, it moves at high speed until the distance to the cart waiting part 13 reaches a 1st setting dimension, and decelerates to 1/6 until it reaches a 2nd setting dimension from a 1st setting dimension, 2 Stop by reaching the set dimension. At this time, the pusher 34 of the cart transfer member 15 is moved to the end of the cart standby part 13. In addition, the guide piece 20 of the guide member 17 is raised to prepare the cart 8 to move to the cart waiting portion 13. However, the movement of the pusher 34 and the rise of the guide piece 20 are conditional that the cart 8 preceding the cart waiting section 13 is not located. This prevents the problem that the carts 8 collide with each other.
Based on the detection signal from the detection sensor 60, the 1st cart conveyance apparatus 9a is further driven, and the empty cart 8 is moved to the cart standby part 13. As shown in FIG. At this time, the movement amount is adjusted so that the number of pulses of the voltage applied to the driving motor 52 is controlled to be the distance calculated based on the detection signal from the detection sensor 60.
When the empty cart 8 is positioned in the cart waiting section 13, the guide piece 20 of the guide member 17 is lowered so as not to be displaced when the cart 8 is transported. In addition, the holding state by the holding member 55 is released, and the 1st cart conveyance apparatus 9a is evacuated from the empty cart 8. And based on the detection result by the detection sensor 60 obtained by the communication between the 2nd optical communication part 27 and the 3rd optical communication part 61, whether the cart 8 is located in the tray supply part 14 or not. Determine whether or not. If the cart 8 is not located in the tray supply unit 14, the pusher 34 of the cart transport member 15 is moved to move the empty cart 8 from the cart standby unit 13 to the tray supply unit 14. (Step S14). At this time, the empty cart 8 moves with the guide member 17 (the guide piece 20 and the guide roller 30) and the guide cover 31 being prevented from moving to the side.
When the cart 8 moves to the tray supply part 14, the electromagnet part 28 is excited, and the cart 8 is attracted and positioned (step S15). And the drive control of the tray feeder 21 is accommodated in the storage shelf 46 in which the chemical | medical agent accommodation completed tray 7 was carried out sequentially (step S16). Since the cart 8 is positioned by the electromagnet portion 28 and guided by the guide roller 30, the cart 8 is not displaced in the storing operation of the tray 7.
By the way, the position of the storage shelf 46 which accommodates the tray 7 can be set as shown to FIG. 13 (a)-FIG. 13 (c), for example.
FIG. 13A shows an example in which the tray 7 is housed from first to twelve in the order of the reception number of the prescription data received by the server 78. Fig. 13B shows an example in which the stages to be stored for each ward are different. In ward A, from A-1 to A-5 in the first and second stages, in B ward, B-1 and B-2 in the third stage, and in C ward, from C-1 to C-3 It is stored in the fourth step. Fig. 13C shows an example in which the rows accommodated for each ward differ. In this case, if the color of the tray 7 is changed for every ward, it is preferable at the point which makes it easy for an operator to distinguish. Moreover, in the cart 8 shown in FIG. 8, since the guide groove 45 is provided in the pitch of half with respect to the storage space of the tray 7, as shown by the dashed-dotted line, the tray 7 Can be stored at half pitch, and used for identification for each ward. In addition, if the guide groove 45 increases the number to be installed, it is possible to make various settings, such as 1/3 pitch, with respect to the storage space of the tray 7.
When the storing operation of the tray 7 with respect to the cart 8 is completed (step S17: YES), the second optical communication unit 27 of the tray supply unit 14 and the third optical communication unit of the second cart conveying device 9b The 2nd cart conveyance apparatus 9b is driven through 61, and the cart 8 is moved to the tray supply part 14 (step S18). For example, in the storage form of FIG. 13B, the control device 10 stores the tray in the storage area of the next stage when the delivery destination (ward) data of the next tray is different from the delivery destination data of the previous tray. If there is no next stage, the tray storing completion signal is transmitted to the third optical communication unit 61 of the second cart conveying apparatus 9b via the second optical communication unit 27 of the tray supply unit 14. When the 3rd optical communication part 61 receives the tray storing completion signal, the 2nd tray conveyance apparatus 9b moves the cart 8 to the tray supply part 14. Next, the lower connection part 41 of the cart 8 positioned in the tray supply part 14 is gripped by the holding arm 64 of the holding member 55 (step S19). After releasing the suction state of the cart 8 by demagnetizing the electromagnet portion 28, the guide roller 30 is raised to allow movement to the cart discharge line 49. As shown in FIG. Thus, the second cart conveying apparatus 9b is driven to move to the predetermined position of the cart discharge line 49 (step S20).
In the same manner below, the empty cart 8 of the cart supply line 48 is conveyed to the tray discharging device 2 by the cart conveying device 9, and after storing the tray 7, the cart discharging line 49 is provided. Move on. In the cart discharge line 49, you may arrange | position the cart 8 at equal intervals, but it is also possible to set so that the interval may be arranged differently according to the difference of the destination of the cart 8, etc. For example, if there are three carts 8 to transport to Ward A, these are arranged at equal intervals, and if there are two carts 8 to transport to B to continue at the same time, In addition, the cart 8 to be transported to the ward A can be spaced apart from the group. In this case, it is easy to discriminate when conveying the cart 8 to each ward, and it is convenient.
Thereafter, with respect to all of the prescription data input to the control device 10, when the delivery of the medicine to the tray 7 and the storage of all the trays 7 that have dispensed the medicine into the cart 8 are completed (step S21: YES) The process ends. If it is not completed (step S21: NO), the process returns to step S1 to repeat the above process.
Moreover, the said process is effective when the chemical | medical agent is accommodated in the tray 7 automatically at night, and the tray 7 is stored in the cart 8, for example.
In addition, although the detection sensor 55 etc. were provided in the cart conveyance apparatus 9 in the said embodiment, it is preferable to provide a vibration sensor further. And even if the obstacle sensor cannot be detected by the vibration sensor by the vibration sensor, an error is reported based on the vibration generated when the cart conveyance apparatus 9 collides with the obstacle, and the cart conveyance apparatus 9 ) Is stopped. Thereby, it becomes possible to prevent generation | occurrence | production of the problem by the movement of the cart conveyance apparatus 9 more reliably.
In the chemical tray supply apparatus which supplies a chemical tray to a tray conveyance line,
In the chemical tray accommodating member which can accommodate a chemical tray in a laminated state,
A tray support member for supporting the chemical tray;
A tray conveying member comprising a conveying mechanism configured to convey a chemical tray and forming a part of the tray conveying line;
The tray supporting member is lowered, the chemical trays in the stacked state are mounted on the tray conveying member, and then the chemical trays located at the top one from the lowest are supported and raised to supply the chemical trays located at the lowest level to the tray conveying line. Install a control unit
The said tray conveyance member was equipped with the cutting part which can move each part of the trolley | bogie on which the chemical | medical agent tray of a laminated state is mounted, The chemical | medical agent tray supply apparatus characterized by the above-mentioned.
The apparatus of claim 1, wherein the tray conveying member includes a trolley extruded member for moving the trolley out of the chemical tray accommodating member in a state located in the chemical tray accommodating member.
The chemical | medical agent tray of Claim 1 or 2 in which the said control part keeps invasion | invasion of the trolley | bogie into the chemical | medical agent tray accommodation member by the trolley | bogie extrusion member during conveyance of the chemical | medical agent tray by a tray conveyance member, The chemical | medical agent tray characterized by the above-mentioned. Feeding device.
The chemical | medical agent tray accommodating member is provided in multiple numbers, and each chemical tray accommodating member is provided with the tray detection part which detects the conveyance of the chemical | medical agent tray by a tray conveyance member, respectively,
The controller supplies the chemical tray in order from the upstream side to the chemical tray accommodating member, and determines that the chemical agent is a defective product based on the detection signal from the tray detection unit, and then the downstream of the chemical tray accommodating member. The chemical | medical agent tray supply apparatus characterized by starting supply of a chemical | medical agent tray from the next chemical | medical agent tray accommodation member located in the side.
KR20067022532A 2004-04-30 2005-04-27 Medicine tray supply device KR101156278B1 (en)
JPJP-P-2004-00136543 2004-04-30
JP2004136543 2004-04-30
PCT/JP2005/008026 WO2005105629A1 (en) 2004-04-30 2005-04-27 Medicine tray supply device
KR20070010034A KR20070010034A (en) 2007-01-19
KR101156278B1 true KR101156278B1 (en) 2012-06-13
ID=35241564
KR20067022532A KR101156278B1 (en) 2004-04-30 2005-04-27 Medicine tray supply device
US (1) US7731473B2 (en)
JP (1) JP4726782B2 (en)
KR (1) KR101156278B1 (en)
CN (1) CN1950279B (en)
TW (1) TW200538378A (en)
WO (1) WO2005105629A1 (en)
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2005-04-27 WO PCT/JP2005/008026 patent/WO2005105629A1/en active Application Filing
2005-04-27 KR KR20067022532A patent/KR101156278B1/en active IP Right Grant
2005-04-27 JP JP2006512815A patent/JP4726782B2/en active Active
2005-04-27 US US11/587,556 patent/US7731473B2/en not_active Expired - Fee Related
2005-04-27 CN CN 200580013874 patent/CN1950279B/en active IP Right Grant
2005-04-28 TW TW94113720A patent/TW200538378A/en unknown
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KR20070010034A (en) 2007-01-19
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JPWO2005105629A1 (en) 2008-03-13
TW200538378A (en) 2005-12-01
JP4726782B2 (en) 2011-07-20
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