This disclosure relates to containers for medicine. In particular, this disclosure relates to lockable medicine containers and methods of use.
Prescription medications, including opioids and cannabis, can be subject to abuse. For example, family members or acquaintances of the patient who has been prescribed the medication may try to access the medication to use it for improper or illicit purposes. There is a need for providing security to the medication that is accessible only by the patient or by a trusted caregiver of the patient.
In general, a lockable medicine container is provided that improves the prior art.
A lockable medicine container is provided including a canister having a closed bottom end, an opposite top end defining an access opening, a surrounding wall between the bottom end and the access opening, and an interior volume within the surrounding wall. A radially inwardly extending ledge protrudes from the surrounding wall along at least a portion of a perimeter of the access opening. A lid is removably covering the access opening on the top end. A locking ring is rotatably and non-removably secured to the lid and is rotatable between a locked position and an unlocked position. The locked position is when the locking ring is engaged with the ledge to prevent removal of the lid from the canister. The unlocked position is when the locking ring is disengaged from the ledge to allow removal of the lid from the canister. A lock member is connected to the locking ring to permit selectively moving the locking ring between the locked position and unlocked position.
In one embodiment, the ledge and the locking ring are members of a tab and slot arrangement, in which a first member defines one or more protruding tabs and a second member defines at least a same number of open slots as protruding tabs. Axial movement between the first and second member is blocked unless the one or more tabs are aligned with the open slots to allow the tabs to pass through the slots.
In some examples, the locking ring is the first member of the tab and slot arrangement, and the ledge is the second member of the tab and slot arrangement.
In some example embodiments, the lock member is a cam lock.
In some example embodiments, the lock member is a tubular key cam lock.
In some examples, the lid has a through hole, and the cam lock is non-removably held by the lid in the through hole.
In many implementations, the canister is cylinder-shaped.
In some embodiments, the canister includes a band forming the access opening, and the ledge protrudes radially inwardly from the band.
In some embodiments, the lock member includes a key pad with a circuit board and motor assembly, wherein when a correct code is entered into the key pad, the motor assembly rotates the locking ring.
In some implementations, there is a lid bottom holding the circuit board and border assembly between the locking ring and the lid.
In embodiments that have a keypad, the keypad may be held on an exterior portion of the lid.
In some arrangements, the lid includes a pair of spaced finger-engaging recesses, and the keypad is held in a region between the recesses.
In some arrangements, the lid has a round cross section, and the container has a generally rectangular cross section.
In some embodiments, the circuit board and motor assembly include a rechargeable battery, and the container contains a USB port in communication with the battery.
In another aspect, a lockable medicine container is provided. The container includes a canister having a closed bottom end, an opposite top end defining an access opening, is surrounding wall between the bottom and an access opening, and an interior volume within the surrounding wall along at least a portion of a perimeter of the access opening. A lid removably covers the access opening on the top end. A locking ring is rotatably and non-removably secured to the lid and is rotatable between a locked position and an unlocked position. The locked position is when the locking ring is engaged with the ledge to prevent removal of the lid from the canister. The unlocked position is when the locking ring is disengaged from the ledge to allow removal of the lid from the canister. The container further includes a means for locking to selectively move the locking ring between the locked position and the unlocked position.
In one embodiment, the means for locking is a cam lock.
In one embodiment, the means for locking is a keypad with a circuit board and motor assembly.
In some examples, the ledge and locking ring are members of a tab and slot arrangement, in which a first member defines one or more protruding tabs, and a second member defines at least a same number of open slots as protruding tabs. Axial movement between the first and second member is blocked unless the one or more tabs are aligned with the open slots to allow the tabs to pass through the slots.
In another aspect, a method for unlocking a medicine container is provided. The method includes providing a canister with an access opening and a lid removably covering the access opening. The lid is non-removably and rotatably secured to the locking ring. The method includes a step of rotating the locking ring from a locked position to an unlocked position. The locked position is when the locking ring is engaged with a ledge along a perimeter of the access opening to prevent removal of the lid from the canister. The unlocked position is when the locking ring is disengaged from the ledge to allow removal of the lid from the container.
The step of rotating the locking ring may include rotating a cam lock connected to the locking ring.
The step of rotating the locking ring may include using a motor assembly to rotate the locking ring.
The step of using a motor assembly may include entering a pre-selected code into a keypad connected to the circuit board and the motor assembly.
A variety of examples of desirable product features or method are set forth in the description that follows, and in part, will be apparent from the description, or may be learned by practicing various aspects of this disclosure. The aspects of this disclosure may relate to individual features, as well as combinations of features. It is to be understood that both the foregoing general description and the following detailed description are explanatory only, and are not restrictive of the claimed inventions.
Referring to
In the embodiment of
The container 20 includes a canister 22. The canister 22 has a closed bottom end 24 and an opposite top end 26 defining an access opening 28. A surrounding wall 30 is between the bottom end 24 and the access opening 28. An interior volume 32 is contained within the surrounding wall 30.
In the embodiment of
In the embodiment of
The canister 22 includes a radially inwardly extending ledge 34 (
In the embodiment of
In the
Also visible in
The lid 46 can include a through hole 48. The lid 46 can hold at least a portion of a lock member 50, described further below, within the hole 48.
In the embodiment of
The container 20 further includes a locking ring 52. The locking ring 52 is rotatably and non-removably secured to the lid 46 and is rotatable between a locked position and an unlocked position.
In the locked position, the locking ring 52 is engaged with the ledge 34 to prevent removal of the lid 46 from the canister 22. In the unlocked position, the locking ring 52 is disengaged from the ledge 34 to allow removal of the lid 46 from the canister 22.
In the embodiment of
In the embodiment of
The ledge 34 and locking ring 52 are members of a tab and slot arrangement 74 (
While many embodiments are possible, in the one shown in the drawings, the locking ring 52 is the first member of the tab and slot arrangement 74, while the ledge 34 is the second member of the tab and slot arrangement 74. In
In the embodiment of
As previously mentioned, the container 20 includes lock member 50, which functions as a means for locking 51. The lock member 50 is connected to the locking ring 52 to permit selectively moving the locking ring 52 between the locked position and the unlocked position. The means for locking 51 can be embodied as a cam lock 78 (
In the embodiment of
The cam lock 78 is non-removably held by the lid 46 in the through hole 48. A nut 82 (
In
The lid 46, in the
Another visual assistance feature for the
The lid assembly 92 includes the lid 46, locking ring 52, and lock member 50. The lid assembly 92 is removable from the canister 22 to expose the access opening 28 to allow access to the interior volume 32.
In reference now to the embodiment of
The motor 102 is energized by a rechargeable battery 104. A USB port 106 (
The keypad 96, by way of the circuit board 100, is programmable through conventional methods so that when a correct key is entered into the keypad 96, the motor assembly 102 rotates the locking ring 52. In the example shown, the motor assembly 102 rotates the hub and spoke assembly 140, which is part of the locking ring 52.
In
Still in reference to
A microswitch 134 (
The keypad 96 is held on an exterior portion of the lid 46. In the preferred embodiment shown, the keypad 96 is held within the hole 48 of the lid 46.
In the embodiment of
The embodiment of
The shape of the canister 22 in the
The embodiment of
The above structure can be used in a method for unlocking a medicine container. The method includes providing canister 22 with access opening 28 and lid 46 removably covering the access opening 28. The lid 46 is non-removably and rotatably secured to the locking ring 52. The method includes rotating the locking ring 52 from a locked position to an unlocked position. The locked position is when the locking ring 52 is engaged with the ledge 34 along a perimeter of the access opening 28 to prevent removal of the lid 46 from the canister 22. The unlocked position is when the locking ring 52 is disengaged from the ledge 34 to allow removal of the lid 46 from the canister 22.
In one embodiment, the step of rotating the locking ring 52 includes rotating the cam lock 78 connected to the locking ring 52. In another embodiment, the step of rotating the locking ring 52 includes using the motor assembly 102 to rotate the locking ring 52. The step of using the motor assembly 102 includes entering a pre-selected code into the keypad 96 connected to the circuit board 100 and the motor assembly 102. The preselected code will actuate the motor assembly 102, which will rotate the locking ring 52. This will move the tabs 72 from the ledge 34 to the slots 76 to allow for the lid assembly 92 to be separated from the canister 22 and expose the access opening 28.
Referring to
In the embodiment shown, the circuitry 300 includes a microprocessor 302 which is communicatively interconnected to the keypad 96, motor 102, and lid switch 134. The microprocessor 302 may be any of a variety of types of programmable circuits, such as FPGA, ASIC, or other microcontroller-based designs. The microprocessor 302 may include a memory that is configured to store instructions which, when executed, cause the microprocessor to receive signals from the keypad 96 and operate the motor 102 and lid switch in accordance with the present disclosure.
In the embodiment shown, the microprocessor 302 is electrically connected to a motor driver 304 which provides a driving electrical signal to the motor 102. The motor driver 304 senses a current from the microprocessor 302, and in response, actuates the motor 102.
The microprocessor 302 is further electrically connected to a USB port 106 as well as a battery 104. In the embodiment shown, the USB port 106 is electrically connected to the battery 104 via a battery charger circuit 310 which controls electrical current provided to the battery 104 (e.g., to manage charging rate of the battery 104). A battery connection circuit 314 is electrically connected between the battery 104 and microprocessor 302, and, based on a battery connection control signal from the microprocessor 302, selectively provides power to the microprocessor 302 from the battery 104. For example, the battery connection circuit 314 may be configured to provide power to the microprocessor 302 (and therefore also to the LEDs 306, keypad 96, motor 102, and lid switch 134) when no power is otherwise being received via the USB port 106 (e.g., when the lockable medicine container is not electrically connected to an external USB cable and associated power source).
Use of the electronics 300 is depicted in the functional diagram 400 of
In the example shown, the battery disconnect process 404 cooperates with the main control process 402 to control electrical connection of the battery to the microprocessor. Based on a current battery voltage received from the battery disconnect process 404 and a power and charger status received from the battery charger circuit 310, the main control process 402 can selectively transmit a battery disconnect signal to the battery disconnect process, thereby switching power supply to the electronics 300 between battery and USB power. Accordingly, the main control process 402 cooperates with the battery disconnect process 404 and battery charger circuit 310 to control battery charging and consumption, and may optionally control the electronics 300 to enter a low power state when the lockable medicine container is not in use.
The lid management process 406 can receive commands from the main control process 402 to actuate the lid switch 134 or motor 102. The lid management process 406 receives a motor current from the motor 102 to control speed/status of operation of the motor to actuate the lid. Optionally, the lid management process 406 can be configured to detect a status of the lid (e.g., whether the lid is in place to close the container) and can provide that status back to the main control process 402; in some embodiments, the main control process may responsively actuate the motor 102 via the lid management process 406 to automatically re-lock the lid in place.
The LED management process 408 drives the LEDs 306 in response to a status determined by the main control process 402. The LED management process 408 may, cooperatively with the main control process 402, provide LED-based feedback to a user, e.g., to indicate a startup sequence, or a successful or unsuccessful entry of a PIN code. For example, the LEDs may be programmed to output a green light indicating normal operation, or a red light to indicate an error in entry of such a PIN code, or some other flashing sequence to indicate that the main control process is in a programming state in which a new PIN code may be received at the keypad 96.
The keypad management process 410 detects user input at the keypad 96. The user input at the keypad may cause the main control process 402 to enter a wake-up state and receive key input codes from the keypad, e.g., for purposes of actuating the lid via the lid management process 406, for re-assigning a PIN code stored in memory of the microprocessor 302, or other programming inputs.
The electronics for the medicine container 20 with the electronic locking features described herein can be operated as follows. This is just one example of operation:
Entering an Initial PIN: Plug the device into USB power. All LEDs will light up RED. A 4 digit PIN is entered, followed by the Enter button. As Digits are pressed, RED LEDs will be replaced by GREEN LEDs. After entering 4 Digits and pressing the Enter button, all LEDs will flash GREEN 3 times and then all LEDs will be turned OFF to indicate successful PIN programming. If 5 Digits are pressed, RED LEDs will flash 3 times and then all LEDs will light up RED to indicate an error and that a PIN still needs to be entered.
After the initial PIN is entered, the following may be done. When the lid is off the container: the PIN can be changed by pressing and holding the Enter button will cause the first LED to turn GREEN. After 3 seconds, all the LEDs will flash RED three times and then all LEDs will light up RED to indicate that a new PIN can be entered. Releasing the Enter button before three seconds will cause the first LED to turn OFF. As Digits are pressed, RED LEDs will be replaced by GREEN LEDs. After 4 Digits and the Enter button is pressed, all LEDs will flash GREEN 3 times and then all LEDs will be OFF to indicate successful PIN programming. If 5 Digits are pressed, all LEDs will flash RED 3 times and then all LEDs will light up RED to indicate an error and that a PIN still needs to be entered. If less than 4 Digits are entered and the Enter button is pressed, all LEDs will flash RED 3 times and then all LEDs will light up RED to indicate an error and that a PIN still needs to be entered. If no buttons are pressed for approximately 15 seconds, all LEDs will flash RED 3 times and then all LEDs will be OFF to indicate that a timeout occurred and the PIN was NOT changed. Pressing Digits will do nothing. Putting the Lid ON the container will cause the lid to lock automatically if a PIN is set.
When the lid is on the container: the PIN can be entered to unlock lid. As Digits are pressed, GREEN LEDs will light up one at a time to indicate PIN entry. After 4 Digits and the Enter button is pressed the PIN will be validated. If valid, all LEDs will flash GREEN 3 times and then all LEDs will be OFF, and the Lid will be Unlocked. If invalid, all LEDs will flash RED 3 times and then all LEDs will be OFF to indicate that an incorrect PIN was entered. The Lid will remain locked. If 5 Digits are pressed, all LEDs will flash RED 3 times and then all LEDs will be OFF to indicate that an invalid PIN was entered. The Lid will remain locked. If less than 4 Digits are entered and the Enter button is pressed, all LEDs will flash RED 3 times and then all LEDs will be OFF to indicate that an invalid PIN was entered. The Lid will remain locked. If no buttons are pressed for approximately 15 seconds, all LEDs will flash RED 3 times and then all LEDs will be OFF to indicate that a timeout occurred.
When plugged into USB power and charging, GREEN LEDs will illuminate in a “filling” pattern, once per second as follows: First one LED, then two LEDs, then three LEDs, then four LEDs, repeat. When fully Charged, all LEDs with light up GREEN.
When there is a low Battery, all four RED LEDs will light up for 0.25 seconds, then all OFF for 2.75 seconds.
When there is an Empty Battery, the Processor will disconnect from battery to keep from damaging it due to under voltage condition.
Plugging in to USB power will wake up the processor.
Example system components include the following: The keypad will have keys 1-9, and an enter key. The system will have 4 Red and 4 Green used to indicate various statuses. The system will have a motor used to Lock/unlock the lid. The system will contain a rechargeable battery that will provide a continuous run-time of at least 30 days between charges. The lid switch is a sensor that detects if the container has the Lid on or off. When the lid is inserted into container, it will be automatically locked. In order to save cost, motor current sensing will be used to detect the Lock and Unlock states, rather than limit switches. When lid is removed, programming pass code is possible. When the lid is put on the container, the motor will run to lock. In order to conserve battery, after a few seconds of inactivity, the system will go to sleep. Pressing any key or placing the lid on the container will wake the system up.
The above represents example principles. Many embodiments can be made using these principles.
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