Introduced here are containers designed to promote compliance with regimens for administering the medications stored therein. These containers can facilitate the conveyance of information related to a regimen through the use of a non-written medium. A container may include one or more display elements configured to emit/reflect light to indicate when medication stored in the container should be administered. An example of a display element is a light-emitting diode (LED). Emittance/reflectance of the light by the display element(s) may be governed by a different clock signal than the clock signal used to determine whether doses of medication are due to be administered.

The present invention relates to a hand-held medicament dispenser. The invention further relates to a hand-held medicament dispenser with an exchangeable cartridge contained therein. The invention further relates to uses of the medicament dispenser for counting and dispensing solid medicinal units.

Embodiments are generally directed to systems and apparatuses for tracking usage of an item. For example, an apparatus may be provided for tracking use of a packetized item. The apparatus may include a microprocessor, a power source, and a structural layer to which the microprocessor and power source are coupled. The structural layer may include a container that is configured to hold various items. The container may also include an opening that allows access to the items. The apparatus may further include a cover layer that is configured to cover the opening of the container. The cover layer may include at least one bendable sensor placed over the opening of the container. The microprocessor may be configured to determine, using detected movements in the bendable sensor, whether the container has been opened.

A storage and dispensing station for drugs is provided. The storage and dispensing station includes a receiving space for drug portions, the receiving space having a feed section with a base section and a dispensing opening, an ejection device for moving a drug portion through the dispensing opening, the ejection device having a slide which can be moved in the feed section towards the dispensing opening and a slide drive coupled to the slide for moving the slide, as well as a lock which can be moved in the feed section and which can be moved in the feed section such that when a drug portion is moved towards the dispensing opening, movement of drug portions in the feed section is prevented.

A contents passing device according to the present invention includes a passing operation part configured to guide movement of contents, a passing movement part rotatably disposed in the passing operation part and configured to move so that the contents are passed, and a sensing part disposed in the passing operation part and configured to sense contents discharged due to free rotation of one end of the passing movement part, wherein the sensing part detects information on the sensed contents.

A bottle configured to house and dispense items. The bottle comprises a body, a finish positioned above the body, and a ramp protruding into an interior space defined by the body. The body includes a base and a sidewall extending up from the base. The body defines the interior space for housing the items. The finish presents an opening for dispensing the items from the body. The ramp is formed with a concave shape configured to support one or more of the items.

An artificial intelligence (AI) robot includes a body for defining an exterior appearance and containing a medicine to be discharged according to a medication schedule, a support, an image capture unit for capturing an image within a traveling zone to create image information, and a controller for discharging the medicine to a user according to the medication schedule, reading image data of the user to determine whether the user has taken the medicine, and reading image data and biometric data of the user after the medicine-taking to determine whether there is abnormality in the user. The AI robot identifies a user and discharges a medicine matched with the user, so as to prevent errors. The AI robot detects a user's reaction after medicine-taking through a sensor, and performs deep learning, etc. to learn the user's reaction, to determine an emergency situation, etc. and cope with a result of the determination.

A medication dispensing system, having a medication panel, a plurality of docking ports for accommodating medication containers, a gripper, and a receptacle carrier having a mount for holding the receptacle and movable by one or more actuators. In some embodiments, the system includes control circuitry, outputting positioning signals to move the receptacle carrier, and outputting dosage-manipulation signals to move the gripper to pick and manipulate a medication dosage out of the medication container, and the horizontal distance between the opening of the receptacle and the medication dosage is less than 20 cm at least prior to outputting the dosage-manipulation signals. The method includes extracting a medication out of the medication container, positioning a receptacle by a receptacle carrier in a horizontal distance of less than 20 cm between the medication and the opening of the receptacle, at least prior to the extracting, and dispensing the medication in the receptacle.

A programmable, refillable medication dispenser with scheduled metered medication unit dispensing, includes a main housing, a powered CPU with countdown timer, a multi-unit medication removable refillable cartridge with a (first) lock, a medication release control gate positioned at a medication outlet and connected to a (second) lock being a gate control mechanism, and an in-chamber medication unit sensor. A pharmacist will insert a medicine cartridge into the main housing, locking it in, and will program the CPU to permit a patient to activate dispensing according to a predetermined schedule, and then only when a medication unit is sensed in the chamber. A patient may receive the dispenser and activate medication dispensing according to the programmed schedule and dispense by the timer schedule, only when a medication unit is sensed in the chamber.

A medicament dispensing container includes a first wall connected with a second wall and defines a cavity therebetween. The walls are movable between an open configuration and a closed configuration. At least one member is disposable in the cavity and defines at least one dose receptacle configured for disposal of at least one dose of at least one medication. At least one fixation member connects the at least one member to at least one of the walls such that the at least one member is movable relative to the wall. Systems and methods of use are disclosed.