The printer has a closed state where the printing head portion and the damper portion are positioned on a position printable on the print mediums, and an open state where the printing head portion and the damper portion are positioned on a position separated from the print mediums. In a case of a transition from the closed state to the open state, the printing head portion and the damper portion behave in conjunction, and in a case of a transition from the open state to the closed state, the damper portion and the printing head portion independently behave.

A printing device includes: a casing, a circuit board, an electrolytic capacitor, an explosion-proof valve, a first wall, a second wall, and a specific region. The electrolytic capacitor is connected to the circuit board. The electrolytic capacitor includes a sleeve portion containing electrolysis liquid therein and has an axis defining an axial direction. The sleeve portion has one end portion, another end portion, and a peripheral surface extending therebetween. The explosion-proof valve is provided at the one end portion. The first wall is disposed in the casing and faces the explosion-proof valve. The second wall extends from the first wall and faces at least a portion of the peripheral surface. The specific region is provided in the second wall and has one of a recessed portion and a protruding portion. The recessed portion is recessed away from the peripheral surface. The protruding portion protrudes toward the peripheral surface.

The ridge part T projecting from an interior surface of an opening and closing cover 3 of a printer 1 is provided at part of a head 3b that make contact with a mountless label continuous body P including an adhesive agent layer on one surface thereof. The head 3b is located at a free end of the opening and closing cover 3. A third ridge part T3 is provided on a third surface S3, which is located in vicinity of an intersecting line between a first surface S1 and a second surface S2. The third ridge T3 has a longer projecting length than a ridge part T1 projecting from the first surface S1, and has a longer projecting length than a ridge part T2 projecting from the second surface S2.

A system and method for selective heating and/or sintering of a material including first and second substrates, an array of one or more resistive heating elements arranged on a planar surface of a substrate and material to be heated located on the other substrate.

According to one embodiment, there is provided a printer device which prints on an adhesive member including an adhesive material on one surface and includes a thermal head, a platen, a fixed blade, a movable blade, an operation unit, and a control unit. The thermal head prints on the adhesive member by generating heat. The platen is arranged to face the thermal head. The fixed blade is arranged at a position where a blade edge faces a conveyance path of the adhesive member conveyed between the thermal head and the platen. The movable blade is arranged at a position where a blade edge of the movable blade faces the blade edge of the fixed blade via the conveyance path and moved at a first speed to a position where the blade edge of the movable blade is brought into contact with the blade edge of the fixed blade. The operation unit receives a first operation for instructing to start cleaning the movable blade from an operator. The control unit moves the movable blade to a position where the blade edge of the movable blade is exposed above the conveyance path at a second speed slower than the first speed when the operation unit receives the first operation.

According to one embodiment, there is provided a printer device which prints on an adhesive member including an adhesive material on one surface and includes a thermal head, a platen, a fixed blade, a movable blade, an operation unit, and a control unit. The thermal head prints on the adhesive member by generating heat. The platen is arranged to face the thermal head. The fixed blade is arranged at a position where a blade edge faces a conveyance path of the adhesive member conveyed between the thermal head and the platen. The movable blade is arranged at a position where a blade edge of the movable blade faces the blade edge of the fixed blade via the conveyance path and moved at a first speed to a position where the blade edge of the movable blade is brought into contact with the blade edge of the fixed blade. The operation unit receives a first operation for instructing to start cleaning the movable blade from an operator. The control unit moves the movable blade to a position where the blade edge of the movable blade is exposed above the conveyance path at a second speed slower than the first speed when the operation unit receives the first operation.

A print head assembly for a media processing device comprises: a print head including an interface and a latch receiver on an upper surface of the print head; and a print head carrier including: (i) a base plate having an opening to receive the latch receiver therethrough when the print head is positioned at a lower surface of the base plate; (ii) an adapter to engage with the interface of the print head; and (iii) a latch bar on an upper surface of the base plate, the latch bar slideable between a first position to engage with the latch receiver and lock the print head to the base plate, and a second position to disengage from the latch receiver and release the print head from the base plate.

Provided is an image processing apparatus configured to perform by itself image erasing and image recording to a thermally reversible recording medium by irradiating it with laser light and heating it, including a laser light emitting unit, a laser light scanning unit, a focal length control unit, and an information setting unit. During image erasing, the focal length control unit performs control to defocus at the position of the thermally reversible recording medium. During image recording, the focal length control unit performs control to be at a focal length from the position of the thermally reversible recording medium. Immediately after image erasing based on image erasing information set by the information setting unit is completed, image recording is performed based on image recording information.

Provided is an image processing apparatus configured to perform by itself image erasing and image recording to a thermally reversible recording medium by irradiating it with laser light and heating it, including a laser light emitting unit, a laser light scanning unit, a focal length control unit, and an information setting unit. During image erasing, the focal length control unit performs control to defocus at the position of the thermally reversible recording medium. During image recording, the focal length control unit performs control to be at a focal length from the position of the thermally reversible recording medium. Immediately after image erasing based on image erasing information set by the information setting unit is completed, image recording is performed based on image recording information.

Disclosed is a reveal substrate comprising: a) a top substrate layer comprising an opaque polymer sensitive to application of heat or pressure, and becoming transparent upon being heated to a predetermined temperature or subjected to a predetermined pressure, and b) a bottom substrate layer having one or more colored areas on a top surface thereof, disposed such that said one or more colored areas are obscured by the opaque polymer prior to being heated to the predetermined temperature or subjected to the predetermined pressure, and are revealed subsequent thereto, wherein: each of the one or more colored areas comprises at least two different colors, and comprises a two-dimensional matrix formed by a plurality of color blocks, each one of the plurality of color blocks having only one color, and the color blocks are arranged to have a repeating color pattern. A method of using the same is also disclosed.