The present disclosure relates to a portable insulin and vaccine storage device. The portable insulin and vaccine storage device comprises of a storage unit to store insulin and vaccine; a Peltier module for heating or cooling the storage unit; a heat sink capable of working as a heat exchanger to maintain temperature of the Peltier module; a radiator and fan for maintaining temperature of the storage unit; a control unit for controlling functioning of the portable insulin and vaccine storage device; and a power supply unit for powering the portable insulin and vaccine storage device. The present disclosure provides a device designed to function under extreme weather conditions and being affordable, it is poised to bring about a positive change in the life of people afflicted with diabetes in South Asian countries and those who need to store insulin.

A mobile cooling box has a box main body and at least one lid for opening the mobile cooling box and providing access to the inside of the mobile cooling box. The mobile cooling box further has at least one air vent 400 located on at least one side wall of the box main body, the at least one air vent comprises at least one opening, preferably in form of an essentially horizontal slot, allowing air flow through the respective side wall of the mobile cooling box. The at least one opening or slot comprises one or more shielding elements that are designed in such a way that the one or more shielding elements at least partly block the view into the inside of the mobile cooling box from the outside of the mobile cooling box.

A transportable enclosure can include a housing, a power source, a container, an evaporator, a condenser, a compressor, and a controller. The container can be configured to receive a temperature sensitive item therein. The evaporator can be disposed at least partially around the container. The condenser can be positioned near a wall of the housing and can be configured to reject heat from the evaporator to an ambient environment through the wall of the housing.

A guide member extends from an opening of a casing toward an internal space. The guide member guides the temperature sensor to the internal space. The detector and the lead wire of the temperature sensor are held by the guide member.

A lockable food delivery box apparatus for preventing food tampering and contamination includes an insulated box defining a storage cavity configured to store food items for delivery. A box lid is selectively engageable with an open side of the insulated box. An electronic lock is coupled to the insulated box and is in operational communication with the box lid to secure and alternatively free the box lid. The electronic lock has a transceiver configured to be in operational communication with a smartphone. A heating coil is coupled to the insulated box to raise the temperature within the storage cavity. A cooling system is coupled to the insulated box to lower the temperature within the storage cavity. A power supply is coupled within the insulated box and is in operational communication with the heating coil, the cooling system, and the electronic lock.

The present invention is directed to a system (100) maintaining chilled temperature in a cold storage (102) comprising: a plurality of coolant layers 104 uniformly placed on the roof of said storage (102); each coolant layer comprising multiple coolant plates (106) stacked in rows and columns; a compressor (110) generating airflow and circulating airflow in a circular pattern from top to bottom in said (storage 102); thereby maintaining temperatures in the range −25° C. to +25° C. in said storage; said plurality of coolant layers (104) being placed in close proximity to said compressor (110) for effectively circulating airflow; a coolant holder frame (108) for uniformly adjusting said multiple coolant plates (106) in said plurality of coolant layers (104), and allowing efficient airflow from top to bottom in said storage (102); base of said storage being provided with, holes (112), throughout for sucking the air circulated by said compressor (110) to improve the circulation of airflow in said storage (102); and said storage (102) being insulated to increase the thermal insulation coefficient to maintain the desired temperature in said storage, thereby freezing said coolant layers.

A casing is provided with a partition portion extending in a vertical direction so as to partition an outdoor space and an accommodation chamber from each other. The partition portion has an opening for providing communication between the outdoor space and the accommodation chamber. An eaves portion is provided above the opening.

An environmental control unit for use with a transport container is disclosed. The environmental control unit includes a thermoelectric device, a fan configured to blow air across the thermoelectric device, a cooling module, a controller in electronic communication with the thermoelectric device and the fan, and a communication module in electronic communication with the controller. The communication module is configured to transmit parameters of the environmental control unit to a computing device through wireless communication. The controller is also configured to determine a present location of the transport container, determine a destination of the transport container, evaluate an internal temperature of the transport container, and control an on or off condition of the thermoelectric device based on the present location, the destination, and the internal temperature of the transport container.

A transport container for transporting livestock and/or agricultural products is disclosed. The transport container is releasably connected with a box comprising an open connecting side, at which the box is provided with anchor parts. The box contains an inlet opening for supplying fresh air, wherein an air conditioning device is arranged in the box and is connectable to the inlet opening for fresh air supply into the air conditioning device. The open connecting side of the box contains a region, in which an air outlet from the air conditioning device is arranged and is in fluid communication with an intake opening in the container, and a re-entry opening which is for re-entry of air from the container and which is fluidly connectable with intake of the air conditioning device.

Optimizing distribution of shipping items by receiving distribution data for a first item. The distribution data including a starting location and a destination. The distribution data also including a constraint for shipment with a second item. A time space network mode is created for tracking the first item relative to the constraint for shipment with the second item. An objection function is performed using the time space network model to optimize the distribution data by minimizing the sum of an objective function including a minimized fulfillment penalty and a minimized unmet order penalty. A delivery plan is executed with the distribution data that was optimized.