Provided are a clip assembly and a refrigerating and freezing device provided with same, wherein the clip assembly comprises a fixed member used for fixing to the refrigerating and freezing device, clips, a clip storage box, and a movable member. The clip storage box has a storage cavity used for storing the clips. The clips may be stored and organized, and are convenient for users to access. Moreover, the movable member has an accommodating space that accommodates the clip storage box. The clip storage box is detachably accommodated in the accommodating space, and the movable member is configured to operably rotate to the side away from the fixed member, which facilitates the removal of the clip storage box from the movable member, and then the clip storage box can be cleaned.

A refrigerator and/or freezer unit and system for storing, monitoring, and maintaining a supply of temperature sensitive pharmaceutical products in compliance with regulatory requirements. The unit contains compartments for each product type in multiple controlled temperature zones with sensors to track product status and content. In a system, each unit communicates with an application service provider to provide remote inventory management capability.

A refrigerated dispensing system is provided including an outer refrigerator cabinet and an interior, removable chassis that mounts a plurality of separately removable product storage and dispensing cartridges and a separately removable open-front product storage box. While the storage-box and individual cartridges are removably positionable within slots on one or more shelves inside of the chassis, the entire chassis (with storage box and cartridges positioned thereon) may be removed from the outer refrigerator cabinet. The open-front storage box is provided RFID product tracking for monitoring inventory of products stored within the storage box.

A method of monitoring, via a temperature sensor, a temperature of a container that stores an item. There is a first step of periodically measuring the temperature of the interior compartment of the container, and the first step occurs while the container is stationary. Subsequently, there is a second step of periodically measuring the temperature of the interior compartment of a container, and the second step occurs while the container is being transported by a vehicle to a destination. Subsequently, there is a third step of periodically measuring the temperature of the interior compartment, and the third step occurs after the container has been delivered to the destination and while the container is stationary. In addition the method includes periodically transmitting information comprising the measured temperatures from the first, second, and third steps to a server, and storing the measured temperatures.

A refrigerator and/or freezer unit and system for storing, monitoring, and maintaining a supply of temperature sensitive pharmaceutical products in compliance with regulatory requirements. The unit contains compartments for each product type in multiple controlled temperature zones with sensors to track product status and content. In a system, each unit communicates with an application service provider to provide remote inventory management capability.

The present application discloses a temperature control plate and a Measurement method for the temperature control plate for cold-chain transportation. The temperature control plate for cold-chain transportation comprises a phase-change gel, a vacuum-sealing bag, a sealed plastic box, and an RFID passive temperature sensor tag. The phase-change gel is filled in the vacuum-sealing bag, and a supporting frame is embedded in the phase-change gel. The RFID passive temperature sensor tag is embedded in the phase-change gel. The vacuum-sealing bag is packed in the sealed plastic box, and the sealed plastic box is externally labeled with a tag identifier. The vacuum-sealing bag is a PET vacuum-sealing bag, and the sealed plastic box is a PET sealed plastic box. The Measurement method for the temperature control plate for cold-chain transportation is to detect the temperature of the temperature control plate for cold-chain transportation using a wrist-watch type Bluetooth reader, and the wrist-watch type Bluetooth reader transmits the temperature data to a data terminal. The present application solves the technical problems that the internal temperature of a temperature control plate for cold-chain transportation cannot be measured accurately, and achieves quick and effective measurement of the temperature of a phase-change material inside the temperature control plate for cold-chain transportation.

A system in a vehicle configured to control the temperature of a temperature controlled vehicle compartment. The system includes: a temperature controlled vehicle compartment configured to be cooled and/or heated; and a processing circuitry operatively connected to the temperature controlled vehicle compartment configured to cause the system to: detect at least a first attribute of at least a first object within a predetermined distance from the vehicle, activate any of cooling or heating of the temperature controlled vehicle compartment based on the at least first attribute of the at least first object.

A method for assembling a cooling apparatus having a cabinet which houses an inner casing defining at least one compartment for the storage of products to be cooled and one or more objects configured to be connected to the inner casing. The method includes: providing the inner casing; automatically univocally identifying the model of the inner casing among various known inner casing models by using a detecting device and performing a step of connecting the one or more objects to the inner casing based on the model of inner casing identified in the identifying step.

The disclosure relates to integrated systems for dispensing, weighing, identifying, processing, and/or printing tag identifiers for items (e.g., bulk food items). In one embodiment, a storage system includes one or more storage bins configured to store one or more bulk foods. The storage system further includes a kiosk. The storage system further includes a sensor attached to or positioned adjacent to each storage bin of the one or more storage bins. Each sensor is configured to monitor a movement of a respective storage bin. Additionally, each sensor is configured to transmit a notification or signal to the kiosk identifying the movement of the respective storage bin. Further, the kiosk is configured to receive the notification or signal from the sensor and automatically print a label identifying a bulk food stored in the respective storage bin.

The present application is directed to cooling containers that rely on refrigerants. The cooling container is able to efficiently keep items cool by adjusting the input and output of cool air inside the cooling container. For example, storage area no. 1 can keep the refrigerants used for keeping insulated items cool. Plank 1 is parallel to the storage area 1. Plank 2 is parallel to plank 1 and storage area no. 2 storing insulated items therein. The planks 1 and 2 are perpendicularly placed above and below a horizontal plane. Planks 1 and 2 can be adjusted to be higher or lower, so as to adjust the distance therebetween. This allows more efficient control of the airflow of the cool air before the air goes into storage area 2.