The present invention relates to a portable sublimation printer capable of simultaneously controlling up/down of a platen roller of a portable thermal sublimation printer and up/down of a printing medium pickup roller with a rack and pinion mechanism. A portable sublimation printer having a small thickness and a light weight to a rack apparatus of a portable sublimation printer is provided.

The present invention relates to a portable sublimation printer capable of simultaneously controlling up/down of a platen roller of a portable thermal sublimation printer and up/down of a printing medium pickup roller with a rack and pinion mechanism. A portable sublimation printer having a small thickness and a light weight to a rack apparatus of a portable sublimation printer is provided.

The present invention relates to a portable sublimation printer capable of simultaneously controlling up/down of a platen roller of a portable thermal sublimation printer and up/down of a printing medium pickup roller with a rack and pinion mechanism. A portable sublimation printer having a small thickness and a light weight to a rack apparatus of a portable sublimation printer is provided.

Disclosed is a print apparatus (1) comprising a platen (2), a support (3) to receive a driver (11), and an adjustment mechanism (4), coupled or couplable to the platen (2), to cause movement of the platen (2) relative to the support (3) in use. The adjustment mechanism (4) comprises an interface (5) connectable to the driver (11) to receive input motion from the driver (11) to thereby cause the movement of the platen (2) relative to the support (3).

Disclosed is a print apparatus (1) comprising a platen (2), a support (3) to receive a driver (11), and an adjustment mechanism (4), coupled or couplable to the platen (2), to cause movement of the platen (2) relative to the support (3) in use. The adjustment mechanism (4) comprises an interface (5) connectable to the driver (11) to receive input motion from the driver (11) to thereby cause the movement of the platen (2) relative to the support (3).

The present invention relates to a portable sublimation printer capable of simultaneously controlling up/down of a platen roller of a portable thermal sublimation printer and up/down of a printing medium pickup roller with a rack and pinion mechanism. A portable sublimation printer having a small thickness and a light weight to a rack apparatus of a portable sublimation printer is provided.

The present invention relates to a portable sublimation printer capable of simultaneously controlling up/down of a platen roller of a portable thermal sublimation printer and up/down of a printing medium pickup roller with a rack and pinion mechanism. A portable sublimation printer having a small thickness and a light weight to a rack apparatus of a portable sublimation printer is provided.

A printing device includes: a base; a printing platform, the printing platform being connected to the base; a printing bracket, the printing bracket being fixed on the base; and a printing head assembly, the printing head assembly being connected to the printing bracket and being arranged above the printing platform, and the printing head assembly including a bearing member, a discharging assembly and an optical assembly. The discharging assembly and the optical assembly are both arranged on the bearing member, the discharging assembly is used for providing printing materials of at least two colors for the printing platform, and the optical assembly is used for curing the printing materials on the printing platform. The printing device can implement three-dimensional color printing.

An intermittent drive device includes a tooth-missing gear having a tooth row partially missing, an output gear, an input gear provided with a first tooth row receiving a driving force and a second tooth row transmitting the driving force to the tooth-missing gear and arranged at a position apart from the output gear in a rotation axis direction. A shaft joint member moves in the rotation axis direction to a first position where the driving force is transmitted to the output gear and a second position where the transmission is released. A tooth-missing gear control mechanism starts rotation of the tooth-missing gear from a state where the driving force from the input gear is released and meshes with the input gear. A switching mechanism switches a position of the shaft joint member in the rotation axis direction between the first position and the second position.

An intermittent drive device includes a tooth-missing gear having a tooth row partially missing, an output gear, an input gear provided with a first tooth row receiving a driving force and a second tooth row transmitting the driving force to the tooth-missing gear and arranged at a position apart from the output gear in a rotation axis direction. A shaft joint member moves in the rotation axis direction to a first position where the driving force is transmitted to the output gear and a second position where the transmission is released. A tooth-missing gear control mechanism starts rotation of the tooth-missing gear from a state where the driving force from the input gear is released and meshes with the input gear. A switching mechanism switches a position of the shaft joint member in the rotation axis direction between the first position and the second position.