M EDICATION DIS PENS ER STATION
BACKGROUND OF THE INVENTION
This invention relates generally to apparatus for use in dispensing medication, particularly in tablet or capsule form or the like for administration to a patient. More specifically, this invention relates to an improved and relatively simplified medication dispenser station designed for automatic dispensing of one or more medications in accordance with prescription schedules.
A wide variety of automatic and/or programmable medication dispensing devices are known in the art, wherein one or more medications are dispensed for administration to a patient or patients in a timely manner. Some of these dispenser stations have been designed for use in a hospital or similar environment, wherein the station is typically adapted for safe storage of a large stock of different medications for a plurality of patients located, for example, on a common hospital floor. Other dispenser devices have been designed for use by an individual patient, such as at patient bedside in a hospital or convalescent facility, or for use in an in-home environment. The present invention is directed to an improved and relatively simplified medication dispenser station intended primarily for use by a single patient.
In general terms, medication dispenser stations designed for single patient use have been adapted to receive one or more medication-containing cassettes or cartridges which have been preloaded with a prescribed medication at a pharmacy. The medication-containing cassette or cassettes are transported to and loaded within the dispenser station. A station control unit is then operated, typically by use of a keypad or the like to instruct or program the station regarding the specific medications loaded therein and the applicable prescription and/or dispensing schedules. Inaccurate programming of the station will result in medication dispensing errors. This potential for dispensing errors has limited the market for medication dispensers of this type, particularly in the case of medication dispensers for in-home use wherein the station is typically programmed by the patient.
The present invention provides a significant improvement in medication dispenser stations by providing means for automatically programming a station control unit in response to loading of one or more medication-containing cassettes therein, whereby subsequent medication dispensing errors are substantially eliminated.
SUMMARY OF THE INVENTION
In accordance with the invention, an improved medication dispenser station includes a vertical column or tower for receiving and supporting a plurality of medication -containing cassettes which are individually preloaded with medication, typically in tablet or capsule form. A station read head is provided to read scannable data on the cassettes pertaining to medication type and prescription schedule, and to input such information to a station
control unit. The station control unit thereafter operates a station dispense head to dispense medications from the cassettes in accordance with the appropriate prescription schedule.
In the preferred form, each cassette comprises a shallow tray having a rotatable carousel therein defining a circular array of medication-receiving pockets. The carousel for each cassette is partially exposed at the inner diameter of the cassette for engagement by the station dispense head. The dispense head includes means for moving the head vertically within the tower, and for radial displacement into engagement with the rotatable carousel of a selected medication-containing cassette. The dispense head rotates or indexes the carousel through a short rotational step, sufficient to sweep the medication within one of the pockets to a vertically open discharge chute for dispensing. A receiver is located at the bottom of the discharge chute and permits external access to the dispensed medication.
When the medication- containing cassettes are loaded onto the vertical tower, the station control unit is programmed to operate the station read head for purposes of reading the scannable data on each cassette. The preferred read head comprises an optical scanner with drive means for vertically displacing said scanner within the vertical tower to detect and read the scannable data at the inner diameter of each cassette. The scannable data may be provided in the form of bar code data.
The discharge chute is formed, in accordance with the preferred embodiment of the invention, by vertically aligned discharge openings formed in the cassettes of the vertical stack. The receiver includes a dispense detector such as a pressure sensor for detecting impact of a medication tablet or
capsule thereon, thereby confirming that medication dispensing has occurred. The receiver may also include an access detector for determining that medication within the receiver has been accessed for administration to the patient.
Other features and advantages of the present invention will become more apparent from the following detailed description, taken in conjunction with the accompanying drawings which illustrate, by way of example, the principles of the invention.
BRIE F DES CRIPTION OF THE DRAWINGS
The accompanying drawings illustrate the invention. In such drawings:
FIGURE 1 is a perspective view illustrating a medication dispenser station embodying the novel features of the invention;
FIGURE 2 is an enlarged, partially exploded perspective view depicting a station read head and station dispense head, in combination with schematic depiction of station control components;
FIGURE 3 is a perspective view of a medication-containing cassette for use in the invention;
FIGURE 4 is a fragmented exploded perspective view illustrating a plurality of cassettes of FIG. 3 arranged in a vertically aligned stack;
FIGURE 5 is an enlarged fragmented perspective view of a portion of the dispenser station, and showing a medication receiver;
FIGURE 6 is a fragmented perspective view similar to FIG. 5, and illustrating removal of medication from the receiver;
FIGURE 7 is a plan view of a rotatable carousel forming a portion of the medication-containing cassette of FIG. 3;
FIGURE 8 is an enlarged exploded perspective view illustrating construction details of the station read head and the station dispense head;
FIGURE 9 is an enlarged horizontal sectional view taken generally on the line 9-9 of FIG. 1;
FIGURE 10 is an enlarged fragmented vertical sectional view taken generally on the line 10- 10 of FIG. 9; and
FIGURES 11 and 12 are fragmented sectional views similar to a portion of FIG. 9, and illustrating operation of the station dispense head to dispense medication from a medication-containing cassette.
DETAILED DESCRIPTION OF THE PREFERRE D EM BODIMENT
As shown in the exemplary drawings, an improved medication dispenser station "referred to generally by the reference numeral 10 in FIGURE 1 is provided for controlled dispensing of one or more medications, particularly such as prescription tablets or capsules. The dispenser station 10 receives and supports a plurality of medication -containing cassettes 12 in a vertical stack, wherein each cassette is preloaded with a selected medication. The dispenser station 10, including the cassettes 12, has means for automatically identifying the medications contained within the cassettes, and for determining the prescription dispensing schedule associated therewith, and for thereafter dispensing said medications in accordance with said schedule.
The improved medication dispenser 10 of the present invention is particularly designed for automatic dispensing of medications for administration to a single patient. In this regard, the station 10 is adapted for use at patient bedside
or the like, and particularly for use in an in-home or similar environment. The multiple cassettes 12 are individually preloaded with appropriate medications by expert personnel or by automated means (not shown) , for example, in a pharmacy by trained pharmacy personnel. The cassettes 12 are installed on or in the station 10 in a vertical stack in a simple manner which can be performed by the individual patient, without special supervision or programming. The thus-installed cassettes interface with a station control unit 14 to program the station automatically, and thereafter to dispense the medications in accordance with the appropriate dispensing schedule.
As shown in FIG. 1, the illustrative dispenser station 10 includes a relatively compact base 16 which has an upstanding cassette support tower 18 mounted at one side thereof. The cassette tower 18 has a generally circular cross sectional shape with a size to permit slide-on installation of a plurality of ring-shaped medication cassettes 12. A removable cover 20 (shown in dotted lines in FIG. 1) may be provided to cover and conceal the cassette stack from view, and lock means (not shown) may be provided for releasibly locking the cover onto the base 16 and thereby prevent unauthorized access to the medication-containing cassettes.
The control unit 14 includes computer memory elements mounted within the base 16. A keypad 22 is provided on the base 16 for use in inputting or downloading data from the control unit 14. An alpha-numeric display 24 is associated with the keypad 22, and a visual alarm 26 is provided to indicate, for example, when medication has been dispensed. An audible alarm (not shown) may also be provided in lieu of or in addition to the visual alarm 26. Electrical power may be supplied as needed
to the dispenser station 10 by means of a power cord 28.
The cassettes are shown in more detail in FIGS. 3, 4, 7, and 9- 12. As shown, each cassette comprises an assembled pair of generally ring-shaped plastic housing members 30 and 32 (FIG. 10) defining an annular chamber therebetween. A rotatable carousel 34 is mounted within this chamber, between the housing members 30 and 32. As shown in FIG. 7, carousel 34 has a generally ring-shaped construction defining a circular array of vertically open pockets 36 separated by radial walls 37. The outer periphery of the carousel 34 has a discontinuous scalloped-edge configuration, as indicated by numeral 38 in FIG. 7, whereas the inner periphery includes a plurality of radially inwardly protruding drive teeth 42. As shown in FIG. 7, a single drive tooth 42 is provided for each associated pocket 36, and adjacent pockets 36 are separated at the scalloped outer periphery by a shallow recess or detent 44.
The carousel 34 is slidably and rotatably mounted between the cassette housing members 30, 32, with the drive teeth 42 projecting into and being exposed within a slot 46 at the inner periphery of the cassette. These drive teeth 42 are thus positioned for driving engagement with a station dispense head 48, as will be described in more detail. In addition, the drive teeth 42 are disposed adjacent to an inner ring 50 of the cassette, wherein this inner ring defines a surface onto which scannable data 54 such as bar code data or the like ( FIG. 3) can be mounted or otherwise placed by imprinting or the like. This scannable data 54 provides machine readable information regarding the medication loaded into each cassette 12 and the prescription schedule associated therewith.
Each cassette 12 is preloaded at a pharmacy or the like, with a single medication tablet or dose
55 loaded into each pocket 36 of the rotatable carousel 34. In this regard, the illustrative drawings show the carousel with a total of 32 pockets 36 although it will be understood that different pocket configurations can be provided.
The housing members 30, 32 defining each cassette 12 have aligned ports 56 formed therein at the front of each cassette, thereby forming a vertically open passage therethrough. A spring 58 (FIG. 9) is mounted within the cassette at a location adjacent the ports 56. This spring reacts between the cassette housing members and the detents 44 of the carousel 34, with a leg 60 extending into an adjacent detent 44 , to releasibly retain one of the carousel pockets 36 in vertical alignment with the cassette ports 56.
When multiple cassettes 12 are installed on the tower 18 in a vertical stack, the cassette ports
56 of the multiple cassettes cooperate with the pockets 36 aligned therewith to define an open vertical chute 62 through which the medication is dispensed. In this regard, as shown in FIG. 4, the cassettes 12 desirably include tabs 64 and notches 66 for aligned and nested reception of the cassettes 12 on the tower 18, in a vertically aligned manner with the ports 56 arranged to define the dispensing chute 62.
FIGURES 2 and 8 illustrate the dispense head 48 in combination with a station read head 68. These dispense and read head structures are mounted within the tower 18, as viewed in FIGS . 9, 11 and 13, in a position for accessing the cassettes 12 loaded onto the tower via an open window 69 formed in the rear side of the tower.
More particularly, the read head 68 comprises an optical scanner mounted on an elevator plate 70 which is carried in turn for vertical
displacement on a rotatable lead screw 72. A drive motor 74 is provided for rotatably driving the lead screw 72, thereby translating the elevator plate back-and-forth in a vertical direction within the cassette support tower 18. The drive motor 74 is operated by the control unit 14. A second optical sensor 76 is conveniently provided in association with a position wheel 78 which rotates with the lead screw 72 to enable the control unit 14 to track the specific vertical position of the elevator plate 70.
When the medication-containing cassettes 12 are loaded onto the cassette tower 18, the control unit 14 is signalled by a load switch 80 (FIG. l) . Thereafter, the control unit 14 operates the read head 68 to traverse vertically for the purpose of reading the scannable data 54 on each one of the stacked cassettes. By this step, the control unit 14 is automatically programmed with " information identifying the medication in each cassette, and the prescription schedule associated therewith. The control unit 14 can then respond to this inputted data to operate the station 10 in accordance with the prescription schedule for each mediation. Alternately, other means may be provided for detecting loading and/or unloading of the cassettes from the station, to provide for subsequent traversal of the read head 68 to read the data 54 and thereby enable the control unit to identify each medication type, location, and prescription schedule.
The dispense head 48 is carried on the elevator plate 70 and comprises a slide 82 having a drive lobe 84 for engaging and driving the drive teeth 42 of a cassette 12 aligned therewith. In this regard, the slide 82 is driven by a pin 86 (FIG. 8 and 9) mounted at or near the periphery of a drive cam 88 mounted on the elevator plate 70. A separate drive motor 90 is provided for rotating the drive
cam 88 through a single revolution, for purposes of indexing the carousel 34 of a selected cassette through a single increment or step for the purpose of moving the next pocket 36 in succession into alignment with the dispense chute 62. As shown in FIGS. 9, 11 and 12, such indexing action occurs as the slide 82 advances with an arcuate motion into the space between a pair of drive teeth 42, and then translates the carousel 34 rotationally through a single index step, before retracting the slide 82 to its original position. A cam pin 92 on the elevator plate 70 rides in an elongated slot 94 in the slide 82 to assist in guiding slide motion to index the associated carousel, as described. This indexing motion occurs subsequent to vertical displacement of the elevator plate 70 in a manner aligning the slide 82 with a selected cassette 12 from which a medication dose is to be dispensed.
A receiver 96 is positioned at the bottom of the dispense chute 62 and permits patient access to the dispensed medication. As shown in FIGS. 5 and 6, the receiver 92 comprises a cover 98 having an aperture 99 therein in vertical alignment with the dispense chute 62. The medication dispensed falls through the aperture 99 into an upwardly open receiver cup 100, awaiting patient access. The receiver cup 100 desirably includes a sensor plate 102 adapted to detect impact of the medication therewith, and thereby provide a signal to a dispense detector 104 which forms a part of the control unit 14 and confirms proper dispensing of a desired medication dosage. If a medication dose has been dispensed but the sensor plate has not detected proper dispensing, the alarm 26 may be activated. The receiver cup 100 can be pivoted downwardly with respect to the cover 98, as viewed in FIG. 6, to permit patient access to the dispensed medication.
In this regard, the receiver cup 100 is mounted on the base 16 by means of a spring-loaded pivot pin 106 or the like which urges the receiver cup 100 toward a normally closed position as viewed in FIG. 5. The cup 100 is easily pivoted downwardly (FIG. 6) for removal of the medication from the station. An access detector 108 of the control unit 14 can be signalled upon medication removal so that an appropriate dispense-and-removal record can be made and retained in the control unit memory.
In a typical environment of operation, the station base 16 and associated tower 18 are provided to a patient for convenient placement at patient bedside or other suitable location, for example, for in-home use. The keypad 22 is used to program the control unit 14 with basic information such as time of day, patient identification, alarm functions, memory and data storage functions, etc. In addition, the station can be programmed to provide a permissible time window within which medications may be dispensed early or on demand, according to specific patient requirements and daily activity schedules.
The medication-containing cassettes 12 are individually loaded by trained personnel, such as at a pharmacy, and then stacked onto the station tower 18 in any order. Loading of the cassettes 12 onto the tower may be done by the patient, without requiring the task to be done by or under supervision of trained personnel. In the currently preferred form, it is contemplated that multiple cassettes may be filled with the same medication which must be taken more than once each day. For example, for a medication prescribed at six-hour intervals, it is envisioned that four such cassettes will be provided.
At the conclusion of cassette placement onto the tower, as may be monitored by the load switch 80,
the control unit 14 operates the read head 68 to traverse the stack of cassettes and read the scannable data 54. By this process, the control unit automatically identifies each medication and its location in the stock and the applicable prescription schedule. Alternately, this data scan can be initiated manually by manipulation of the keypad 22. Thereafter, the control unit 14 automatically operates to dispense the appropriate medication at the appropriate time. For example, in the case of a medication to be taken at six-hour intervals, the dispense head will over the course of a day dispense one dose from each of the four cassettes containing that medication. Automatic operation continues unless and until cassettes are subsequently removed from or loaded onto the tower, or until an alarm is sounded in the event of one or more cassettes reaching an empty condition. The alarm may be activated by the control unit memory which may contain information regarding the number of cassette pockets 36, or otherwise by failure of the dispense detector to detector 104 medication dispensing in response to operation of the dispense head.
The improved medication dispenser station of the present invention thus provides for accurate and timely dispensing of the medications to a patient, in a system wherein accurate and reliable dispensing is substantially assured without requiring complex station programming by the patient or other untrained personnel. Instead, the patient merely loads the medication-containing cassettes 12 onto the tower 18, and the station essentially programs itself to dispense one or more medications in accordance with the appropriate schedule.
A variety of further modifications and improvements to the present invention will be apparent to those persons skilled in the art.
Accordingly, no limitation on the invention is intended by way of the foregoing description and accompanying drawings, except as set forth in the appended claims.