Systems, devices, and methods of the present disclosure assist with management of tubes and hoses during surgical procedures. The systems, devices, and methods provide for the proper opening and closing of tubes to facilitate performance of steps in a surgical procedure. Systems, devices, and methods of the present disclosure control fluid delivery to and from a medical device, including devices for tissue processing and cleaning.

The present set of embodiments relate to a system, method, and apparatus for culturing cells within a cell culture vessel having a mixing element. The cell culture system includes a flexible portion and a mixing element disposed therein. The mixing element includes a suspended foldable portion. The system is configured to reduce shear stress on cells without compromising mixing efficiency. This reduction is accomplished by using a mixing element having a large surface area allowing for reduced rotational speeds. The system is collapsible for ease of transport and disposal. The flexible portion collapses and the foldable portion folds to minimize the volume of the system while not in operation.

The present set of embodiments relate to a system, method, and apparatus for culturing cells within a cell culture vessel having a mixing element. The cell culture system includes a flexible portion and a mixing element disposed therein. The mixing element includes a suspended foldable portion. The system is configured to reduce shear stress on cells without compromising mixing efficiency. This reduction is accomplished by using a mixing element having a large surface area allowing for reduced rotational speeds. The system is collapsible for ease of transport and disposal. The flexible portion collapses and the foldable portion folds to minimize the volume of the system while not in operation.

Embodiments disclosed herein provide an organic matter processing apparatus and method for the use thereof to convert organic matter into a ground and substantially dried product. The apparatus uses a bucket assembly that can grind, paddle, and heat organic matter contained therein. The bucket assembly can include a metal housing that has a flat bottom surface with multiple support structures that hold respective impeller assemblies that rotate about respective vertical axes. The impeller assemblies each include cutting structures and other structures designed to mix and agitate matter contained in the bucket assembly. One or more blade arrays can be mounted in a vertical orientation on a side of the metal housing plate and assist in fracture cutting and grinding of contents contained in the bucket.

Embodiments disclosed herein provide an organic matter processing apparatus and method for the use thereof to convert organic matter into a ground and substantially dried product. The apparatus uses a bucket assembly that can grind, paddle, and heat organic matter contained therein. The bucket assembly can include a metal housing that has a flat bottom surface with multiple support structures that hold respective impeller assemblies that rotate about respective vertical axes. The impeller assemblies each include cutting structures and other structures designed to mix and agitate matter contained in the bucket assembly. One or more blade arrays can be mounted in a vertical orientation on a side of the metal housing plate and assist in fracture cutting and grinding of contents contained in the bucket.

The present disclosure belongs to the field of cellulose dissolution technology, particularly relates to a device for dissolving cellulose with high speed and solubility. The device comprises a baseplate and a dissolving canister arranged on surface of the baseplate, bottom surface of the dissolving canister is fixedly connected with a supporting column, and surface of the dissolving canister is installed with a liquid-discharge pipe. The device further comprises a stirring assembly arranged above the dissolving canister, and the stirring assembly comprises an L-shaped installing block arranged above the dissolving canister. Surface of the L-shaped installing block is fixedly connected with a connection block, and surface of the connection block is fixedly connected with a dispensing canister. Lower end of the dispensing canister is rotatably connected with a first synchronizing wheel, one side of the first synchronizing wheel away from the dispensing canister is fixedly connected with a rotation member.

The present disclosure belongs to the field of cellulose dissolution technology, particularly relates to a device for dissolving cellulose with high speed and solubility. The device comprises a baseplate and a dissolving canister arranged on surface of the baseplate, bottom surface of the dissolving canister is fixedly connected with a supporting column, and surface of the dissolving canister is installed with a liquid-discharge pipe. The device further comprises a stirring assembly arranged above the dissolving canister, and the stirring assembly comprises an L-shaped installing block arranged above the dissolving canister. Surface of the L-shaped installing block is fixedly connected with a connection block, and surface of the connection block is fixedly connected with a dispensing canister. Lower end of the dispensing canister is rotatably connected with a first synchronizing wheel, one side of the first synchronizing wheel away from the dispensing canister is fixedly connected with a rotation member.