Abstract:
A conveyor device is installed opposite to a recording head in a recording apparatus. The conveyor device includes a conveyor belt and a suction section. The conveyor belt conveys a recording medium. The suction section includes a guide member having first through holes within a first region and second through holes outside of the first region. The guide member has a surface that is located opposite to the recording head with the conveyor belt therebetween and that has first grooves and second grooves therein. The first region includes at least a head facing region located directly opposite to the recording head. The first through holes are located inside of the first grooves. Each of the first grooves is shorter than the recording head. The second through holes are located inside of the second grooves. The suction section sucks on the recording medium through the conveyor belt and the guide member.
Abstract:
An inkjet recording apparatus includes a recording head, a conveyance section, a first voltage applying section, and a second power supplying section. The recording head ejects ink onto a recording sheet. The conveyance section conveys the recording sheet to a position of image forming by the recording head. The first power supplying section applies a voltage to the recording sheet upstream of the recording head in a conveyance direction of the recording sheet. The second power supplying section includes a plate member located between the recording head and the first power supplying section and applies a voltage to the plate member that is of opposite polarity to the voltage applied by the first power supplying section.
Abstract:
An inkjet recording apparatus includes a recording head, a conveyance section, and a negative pressure applying section. The recording head ejects ink onto a recording medium. The conveyance section conveys the recording medium placed on a conveying surface thereof to the recording head. The negative pressure applying section includes an airflow chamber and causes the recording medium to be sucked onto the conveying surface by negative pressure through holes in an upper wall of the airflow chamber and holes in the conveying surface. Negative pressure applied through first holes in a first region is greater than that applied through second holes in a second region. The first region is located upstream of a head facing region in a conveyance direction of the recording medium. The second region is located downstream of the first region in the conveyance direction of the recording medium and includes the head facing region.
Abstract:
A conveyor device includes a feed member, a conveyor belt, and a suction section. The feed member feeds a recording medium while in contact with a part of the recording medium. The conveyor belt conveys the recording medium having been conveyed by the feed member. The suction section sucks the recording medium onto the conveyor belt. The conveyor belt includes a first region that is to receive the part of the recording medium and a second region adjacent to the first region. The conveyor belt has a plurality of suction holes in communication with the suction section. The suction holes have a lower opening ratio in the first region than in the second region.
Abstract:
A conveyor device is arranged to face a recording head. The conveyor device includes a conveyance belt and a suction section. The conveyance belt conveys a recording medium. The suction section includes a guide member that supports the recording medium through the conveyance belt. The suction section sucks the recording medium through a plurality of first holes passing through the guide member and a plurality of second holes passing through the conveyance belt to attach the recording medium to the conveyance belt. None of the first holes are formed in a first region of the guide member. The first region is a region where a partial region pertaining to a feeding member overlaps with a head facing region facing the recording head.
Abstract:
A conveyor device is installed opposite to a recording head in a recording apparatus. The conveyor device includes a conveyor belt that conveys a recording medium. The conveyor device further includes a suction section. The suction section includes a guide member having through holes and an air escape channel. The guide member is located opposite to the recording head with the conveyor belt therebetween. The suction section sucks on the recording medium through the conveyor belt and the guide member. The guide member has a surface having grooves therein. The surface faces the recording head with the conveyor belt therebetween. The surface has a recess located outside of a region where the grooves are located. The recess constitutes a part of the air escape channel. The air escape channel is in communication with one or more of the grooves.