The invention discloses a disinfecting toothbrush box, which comprises a housing, wherein a toothbrush hanging rack space and a toothpaste squeezer space are arranged in the housing; a toothbrush hanging rack is arranged in the toothbrush hanging rack space, a toothpaste squeezer is arranged in the toothpaste squeezer space, an ultraviolet disinfection lamp is arranged in the toothbrush hanging rack space, and the ultraviolet disinfection lamp is arranged at the position capable of irradiating a toothpaste tube opening in the toothpaste squeezer space. The disinfecting toothbrush box has the advantage that the toothpaste tube opening can be sterilized while the toothbrush is disinfected.

The invention discloses a disinfecting toothbrush box, which comprises a housing, wherein a toothbrush hanging rack space and a toothpaste squeezer space are arranged in the housing; a toothbrush hanging rack is arranged in the toothbrush hanging rack space, a toothpaste squeezer is arranged in the toothpaste squeezer space, an ultraviolet disinfection lamp is arranged in the toothbrush hanging rack space, and the ultraviolet disinfection lamp is arranged at the position capable of irradiating a toothpaste tube opening in the toothpaste squeezer space. The disinfecting toothbrush box has the advantage that the toothpaste tube opening can be sterilized while the toothbrush is disinfected.

The present invention relates to a method for bundle-packaging batches of products, wherein products are moved in a longitudinal running direction, grouped into batches and wrapped with a film of heat-shrinkable film. Each wrapped batch is heated to form a contraction of each sheet around said batch. Heating of a batch is performed by the circulation of at least one heated air stream and by the expulsion of said stream toward the interior of the enclosure of an oven provided, successively, with first and second sections; the sheet is cooled; during heating, along at least a part of the first section, a first air stream is shaped discontinuously and expelled toward the interior of said enclosure. The method consists, during heating, along said second section, in shaping a second stream as an air knife and expelling said air knife toward said sheet to be smoothed.

A tube squeezer includes: a first main body including first swing arms and a first handle; a second main body including second swing arms and a second handle; a first roller coupled to the first main body and positioned in a section between shafts and the first handle; a second roller coupled to the second main body, and positioned in a section between the shafts and the second handle, wherein second ends of the second swing arms are respectively coupled to second ends of the first swing arms to be swingable by respective shafts; and a pressure member having a preset volume and positioned on an outer surface of a portion where the first main body and the second main body are movably connected to each other.

A dispenser for dispensing a viscous material contained in a flexible package has a hollow body extending along a longitudinal axis, a first end with a handle assembly, an opposite second end with a dispensing valve, and a cavity configured to receive the flexible package. A piston is movably disposed in the cavity for engagement with the flexible package to force viscous material from the flexible package. A diverter insert is also disposed in the cavity and is configured to receive the viscous material from the flexible package as the piston moves and divert the viscous material to the dispensing valve.

A dispenser for dispensing a viscous material contained in a flexible package has a hollow body extending along a longitudinal axis, a first end with a handle assembly, an opposite second end with a dispensing valve, and a cavity configured to receive the flexible package. A piston is movably disposed in the cavity for engagement with the flexible package to force viscous material from the flexible package. A diverter insert is also disposed in the cavity and is configured to receive the viscous material from the flexible package as the piston moves and divert the viscous material to the dispensing valve.

It is an object to provide a deforming element-included dispensing tip, a deforming element-included dispensing device, and a deforming element-included dispensing processing method not requiring any cylinder and capable of achieving highly precise position control and enhancing integration of higher density and reducing the burden in the quality control in reaction processing of a biological material for extraction of DNA and the like. A tip-shaped container formed with a non-deforming wall having an opening portion at an upper side and an inlet unit at a lower side for allowing fluid to flow in and flow out and a sealing plug attached to the opening portion so as to seal the opening portion are provided, and the sealing plug is configured to be provided with a deforming element.

It is an object to provide a deforming element-included dispensing tip, a deforming element-included dispensing device, and a deforming element-included dispensing processing method not requiring any cylinder and capable of achieving highly precise position control and enhancing integration of higher density and reducing the burden in the quality control in reaction processing of a biological material for extraction of DNA and the like. A tip-shaped container formed with a non-deforming wall having an opening portion at an upper side and an inlet unit at a lower side for allowing fluid to flow in and flow out and a sealing plug attached to the opening portion so as to seal the opening portion are provided, and the sealing plug is configured to be provided with a deforming element.

An apparatus configured for displacing fluid from a fluid container comprises first and second actuators configured to be movable together until the first actuator compresses a first part of the fluid container and then moveable independently until the second actuator compresses a second part of the fluid container. Fluid containers comprise a first vessel, a second vessel, and a sealing partition preventing fluid flow from the second vessel and further include a piercing point for piercing the sealing partition to permit fluid flow from the second vessel. A fluid container comprises a vessel configured to be collapsed to displace fluid from the vessel, a housing surrounding at least a portion of the vessel, and a floating compression plate movably disposed within the housing and configured to permit an external actuator to press the compression plate into the vessel to collapse the vessel and displace the fluid contents therefrom.

An apparatus configured for displacing fluid from a fluid container comprises first and second actuators configured to be movable together until the first actuator compresses a first part of the fluid container and then moveable independently until the second actuator compresses a second part of the fluid container. Fluid containers comprise a first vessel, a second vessel, and a sealing partition preventing fluid flow from the second vessel and further include a piercing point for piercing the sealing partition to permit fluid flow from the second vessel. A fluid container comprises a vessel configured to be collapsed to displace fluid from the vessel, a housing surrounding at least a portion of the vessel, and a floating compression plate movably disposed within the housing and configured to permit an external actuator to press the compression plate into the vessel to collapse the vessel and displace the fluid contents therefrom.