Sheet conveyor and image forming system

What is claimed is: 1. A sheet conveyor comprising: a holder configured to detachably hold a sheet roll; a rotation measuring device configured to measure a rotation amount of the sheet roll; a conveyance roller configured to convey a sheet pulled out from the sheet roll held by the holder; a tensioner provided between the holder and the conveyance roller and configured to contact with the sheet pulled out from the sheet roll toward the conveyance roller; a position detector configured to detect a position of the tensioner; a motor configured to generate driving force for rotating the conveyance roller; and a controller configured to control the motor, wherein the controller is configured to estimate a diameter of the sheet roll based on a conveyance amount of the sheet caused by rotation of the conveyance roller driven by the motor, the rotation amount of the sheet roll measured by the rotation measuring device, and the position of the tensioner detected by the position detector. 2. The sheet conveyor according to claim 1 , further comprising a conveyance measuring device configured to measure the conveyance amount of the sheet caused by the rotation of the conveyance roller, wherein the controller is configured to estimate the diameter of the sheet roll based on the conveyance amount of the sheet measured by the conveyance measuring device, the rotation amount of the sheet roll measured by the rotation measuring device, and the position of the tensioner detected by the position detector. 3. The sheet conveyor according to claim 1 , wherein the controller is configured to: control the motor to convey the sheet at a target conveyance velocity set in advance; and estimate the diameter of the sheet roll based on the conveyance amount of the sheet corresponding to the target conveyance velocity, the rotation amount of the sheet roll measured by the rotation measuring device, and the position of the tensioner detected by the position detector. 4. The sheet conveyor according to claim 1 , further comprising a nip roller configured to nip the sheet together with the conveyance roller, wherein the controller is further configured to estimate, based on the position of the tensioner, a change amount of a conveyance route length of the sheet from a first point at which the sheet is pulled out from the sheet roll to a second point at which the sheet is nipped by the conveyance roller and the nip roller, and the controller is configured to estimate the diameter of the sheet roll based on: a pulled-out amount of the sheet from the sheet roll that is determined from the conveyance amount of the sheet caused by the rotation of the conveyance roller and the change amount of the conveyance route length; and the rotation amount of the sheet roll. 5. The sheet conveyor according to claim 4 , wherein the controller is configured to estimate the diameter R of the sheet roll, based on the conveyance amount L of the sheet caused by the rotation of the conveyance roller in a period corresponding to an estimated time, the rotation amount δθ of the sheet roll in the period, and the change amount δD of the conveyance route length in the period, in accordance with a relational expression R=(L+δD)/δθ. 6. The sheet conveyor according to claim 5 , wherein the controller is configured to calculate the change amount δD of the conveyance route length in the period, in accordance with an expression or a table indicating a relationship between the position X of the tensioner and the conveyance route length D of the sheet, and the change amount δD of the conveyance route length in the period is calculated as a difference D(X(t))−D(X(t 0 )) between a conveyance route length D(X(t 0 )) determined from a position X(t 0 ) of the tensioner at a starting time to in the period and a conveyance route length D(X(t)) determined from a position X(t) of the tensioner at an ending time tin the period. 7. The sheet conveyor according to claim 5 , wherein the controller is configured to repeatedly estimate the diameter R of the sheet roll, a starting time and an ending time in the period are updated depending on change of the estimated time to include a time zone that overlaps with a period corresponding to an estimated time that is estimated last time (estimated most recently), and the controller is configured to estimate the diameter R of the sheet roll based on the conveyance amount L, the rotation amount δθ, and the change amount δD in the period including the time zone that overlaps with the period corresponding to the estimated time that is estimated last time. 8. The sheet conveyor according to claim 1 , further comprising: a first motor, as the motor, configured to rotate the conveyance roller; and a second motor configured to rotate the sheet roll held by the holder, wherein the controller is configured to further control the second motor. 9. The sheet conveyor according to claim 8 , wherein the controller is configured to: repeatedly estimate the diameter of the sheet roll; store the diameter of the sheet roll estimated as an estimated value; control the first motor and the second motor through a first control under a condition that a predefined condition is satisfied; control the first motor and the second motor through a second control under a condition that the predefined condition is not satisfied; in the first control, control the second motor so that tension of the sheet is controlled based on the estimated value, and control the first motor so that the sheet is conveyed at a first velocity; and in the second control, control the second motor so that the tension of the sheet is controlled without using the estimated value, and control the first motor so that the sheet is conveyed at a second velocity lower than the first velocity. 10. The sheet conveyor according to claim 9 , wherein the controller is configured to determine, in the first control, a control input for the first motor and a control input for the second motor by using a first feedback control element, a second feedback control element, and a feedforward control element, the first feedback control element is configured to calculate a first control input for the first motor based on an observation value related to rotary motion of the conveyance roller and a target value thereof, the second feedback control element is configured to calculate a second control input for the second motor based on a position of the tensioner observed and a target tension, the feedforward control element is configured to calculate a correction amount for the second control input based on the estimated value, and the controller is configured to determine, in the second control, a control input for the first motor and a control input for the second motor not using the feedforward control element but using the first feedback control element and the second feedback control element. 11. The sheet conveyor according to claim 9 , further comprising: a nip roller configured to nip the sheet together with the conveyance roller, and a process unit configured to execute a predefined process for the sheet, wherein the conveyance roller is configured to convey the sheet in a conveyance direction, the process unit is provided downstream of the conveyance roller in the conveyance direction, and in the second control, the controller is configured to control the first motor such that the sheet is conveyed at the second velocity lower than the first velocity in a process in which the sheet nipped by the conveyance roller and the nip roller is conveyed to a position facing the process unit. 12. The sheet conveyor