Cap unit and printer

What is claimed is: 1. A cap unit comprising: a cap; and a moving mechanism that moves the cap between a capping position covering a ink nozzle face of a printhead, and an open position removed from the ink nozzle face, the moving mechanism including an intermittent cam gear having a cam channel in an end face, a drive gear able to mesh with the intermittent cam gear, and a cap holder including a holding member that holds the cap, a cam follower pin able to move inside the cam channel, a pin support mechanism that supports a cam follower pin movably in a direction perpendicular to a bottom of the cam channel, an urging member that urges the cam follower pin toward the bottom; and a slope that deepens in the direction in which the cam channel extends disposed to the bottom of the cam channel; the cam follower pin being positioned on the slope when meshing of the intermittent cam gear and drive gear is disengaged; and the intermittent cam gear turning and the intermittent part of the intermittent cam gear moving into opposition with the drive gear in conjunction with the cam follower pin sliding down the slope and moving toward the bottom of the cam channel due to an urging force of the urging member. 2. The cap unit described in claim 1 , further comprising: a support mechanism that supports the cap holder movably radially to the intermittent cam gear. 3. The cap unit described in claim 1 , wherein: the slope is disposed to at least one of the end part of the inside circumference side, or the end part of the outside circumference side, of the cam channel, and the end side of the end part where the slope is disposed is deep. 4. The cap unit described in claim 3 , wherein: the cam channel has a wall at the end of the cam channel on the side where the slope is disposed; and when the drive gear and the intermittent part of the intermittent cam gear are in opposition, the cam follower pin contacts the wall. 5. The cap unit described in claim 4 , wherein: the slope is disposed to the end part of the inside circumference side of the cam channel; the end of the cam channel on the inside circumference side is defined by the wall; and when the drive gear and intermittent cam gear are meshed, the drive gear is driven, and the intermittent cam gear turns in a first direction of rotation, the cam follower pin slides inside the cam channel and moves to the inside circumference side of the intermittent cam gear, and the cap held by the cap holder moves from the capping position to the open position. 6. The cap unit described in claim 5 , wherein: when the intermittent part of the intermittent cam gear is opposite the drive gear after the intermittent cam gear turns in the first direction of rotation, the cap is set to the open position. 7. The cap unit described in claim 5 , wherein: the moving mechanism has an intermittent gear with a toothed part of the same diameter and same module as the intermittent cam gear, and is disposed coaxially and movably relative to the intermittent cam gear; a non-intermittent gear with a toothed part of the same diameter and same module as the intermittent cam gear, and disposed coaxially to the intermittent cam gear on the opposite side as the intermittent cam gear; and a friction clutch disposed between the intermittent gear and the non-intermittent gear, and transferring rotation of the non-intermittent gear to the intermittent gear; the drive gear capable of meshing with the non-intermittent gear and the intermittent gear; the intermittent gear having a contact part, at a position offset radially from the axis of rotation of the intermittent gear, capable of contacting the intermittent cam gear; the intermittent cam gear having a contacted part capable of contacting, at a specific circumferential position, the contact part from a second direction of rotation that is opposite the first direction of rotation; and when the non-intermittent gear turns in the second direction of rotation, the intermittent gear meshes with the drive gear before the intermittent cam gear and turns, and the contact part contacts the contacted part, and causes the intermittent cam gear to turn with the intermittent gear with the phase of the toothed part of the intermittent gear matching the phase of the toothed part of the intermittent cam gear. 8. A printer comprising: a printhead; and a cap unit that covers a ink nozzle face of the printhead, the cap unit having a moving mechanism that moves the cap between a capping position covering the ink nozzle face, and an open position removed from the ink nozzle face; the moving mechanism including an intermittent cam gear having a cam channel in an end face, a drive gear able to mesh with the intermittent cam gear, and a cap holder including a holding member that holds the cap, a cam follower pin able to move inside the cam channel, a pin support mechanism that supports the cam follower pin movably in a direction perpendicular to a bottom of the cam channel, an urging member that urges the cam follower pin toward the bottom of the cam channel; and a slope that deepens in the direction in which the cam channel extends disposed to the bottom of the cam channel; the cam follower pin being positioned on the slope when meshing of the intermittent cam gear and drive gear is disengaged; and the intermittent cam gear turning and the intermittent part of the intermittent cam gear moving into opposition with the drive gear in conjunction with the cam follower pin sliding down the slope and moving toward the bottom of the cam channel due to an urging force of the urging member.