A pulse signal is detected from an encoder signal of a rotary encoder. The detected pulse signal is used as a signal for controlling a light exposure timing of a line type light exposure head and is used for detecting a transport speed of an instant film. The light exposure head sequentially performs light exposure for a line image on the transported instant film in synchronization with each pulse signal detected from the encoder signal, and a density correction unit corrects an amount of light emission of the light exposure head depending on the transport speed of the instant film.

A digital camera including a printer includes a transport roller pair that transports an instant film, an exposure unit that exposes an image onto the instant film, a spreading roller pair that spreads a developer into a gap of the instant film by crushing a developer pod of the exposed instant film, a spreading control member that is positioned between the transport roller pair and the spreading roller pair, extends in a width direction of the instant film, and controls the developer spread into the gap, and a mechanical switch that is positioned near the spreading control member.

In a case that accommodates an instant film, an exposure opening portion, a discharge port, and a claw opening portion are provided. The exposure opening portion is light-shielded by a film cover that is disposed to overlap the instant film. The film cover includes a notched portion connected to the claw opening portion. In a case where the film cover is not removed in use, a claw inserted through the claw opening portion is moved within a range of the notched portion. In a case where the film cover is removed in use, the claw is moved within a range that exceeds the range of the notched portion.

In a case that accommodates an instant film, an exposure opening portion, a discharge port, and a claw opening portion are provided. The exposure opening portion is light-shielded by a film cover that is disposed to overlap the instant film. The film cover includes a notched portion connected to the claw opening portion. In a case where the film cover is not removed in use, a claw inserted through the claw opening portion is moved within a range of the notched portion. In a case where the film cover is removed in use, the claw is moved within a range that exceeds the range of the notched portion.

In a case that accommodates an instant film, a first claw opening portion and a second claw opening portion for inserting a claw into the case are provided. In a film cover that light-shields an exposure opening portion of the case, a notched portion continuous to the first claw opening portion is provided. In a case where the film cover is not removed in use, the first claw opening portion is used, and in a case where the film cover is removed in use, the second claw opening portion is used. By using the first claw opening portion, it is possible to avoid contact of the claw and the film cover, and to discharge only an instant film in a state where the film cover is mounted.

In a case that accommodates an instant film, a first claw opening portion and a second claw opening portion for inserting a claw into the case are provided. In a film cover that light-shields an exposure opening portion of the case, a notched portion continuous to the first claw opening portion is provided. In a case where the film cover is not removed in use, the first claw opening portion is used, and in a case where the film cover is removed in use, the second claw opening portion is used. By using the first claw opening portion, it is possible to avoid contact of the claw and the film cover, and to discharge only an instant film in a state where the film cover is mounted.

An optical unit with a shake correction function may include a unit with a swing mechanism having an optical module and a swing drive mechanism structured to swing the optical module, a rolling drive mechanism including a magnetic drive mechanism structured to turn the unit with the swing mechanism in a direction different from a swing direction by the swing drive mechanism, a connection member which connects the unit with the swing mechanism with a turning shaft of the rolling drive mechanism, and a support member which supports the rolling drive mechanism. The connection member includes an abutting part integrally turned with the unit with the swing mechanism and the support member includes a position restriction part which restricts a movable range of the abutting part.

An imaging apparatus includes a housing loaded with a film on which a photosensitive surface is caused to be exposed to subject light to record a subject image, and a light source that is provided in the housing and is capable of emitting, to the photosensitive surface, effect light that exposes the photosensitive surface in a manner superimposed on the subject light to impart a visual effect to the subject image.

An imaging apparatus includes a housing loaded with a film on which a photosensitive surface is caused to be exposed to subject light to record a subject image, and a light source that is provided in the housing and is capable of emitting, to the photosensitive surface, effect light that exposes the photosensitive surface in a manner superimposed on the subject light to impart a visual effect to the subject image.

A printer unit includes a device housing including a transport roller and a spreading roller, a roller drive mechanism that is attached to the device housing and includes a drive transmission gear train that drives the transport roller and the spreading roller, and a cover member that covers the roller drive mechanism. The roller drive mechanism includes a gear plate separate from the cover member. The gear plate is fixed to the device housing at two locations and is formed in a plate shape that pivotally supports at least one of rotational shafts of the drive transmission gear train.