Printer and transport apparatus for transporting print medium while applying stable tension to the prnt medium

What is claimed is: 1. A printer configured to carry out printing on a medium unwound from a feed roller and collect the medium using a take-up roller, the printer comprising: a transport unit that transports the medium in a predetermined transport direction, the transport unit being disposed on a transport path between the feed roller and the take-up roller; a tension applying member disposed on the transport path between the feed roller and the take-up roller, the tension applying member comprising a tension applying bar having a tubular shape and a pinion bar having a pinion at an end of the pinion bar in a direction in which the tension applying bar is extending, the tension applying bar extending in a direction intersecting with the transport direction of the medium and applying a tension to the medium by coming in contact with the medium, the pinion bar being a shaft disposed inside of the tubular shape of the tension applying bar and parallel to the direction in which the tension applying bar is extending, the pinion bar supporting the tension applying bar so as to allow for a relative rotation that the tension applying bar and the pinion bar are configured to be rotatable relative to each other; and a support unit having a guiding unit that guides the tension applying member in a moving direction of the tension applying member and further having a rack engageable with the pinion of the pinion bar to allow for movement of the tension applying member while the pinion bar is rotating, wherein the tension applying member applies a certain degree of tension to the medium by moving the guiding unit. 2. The printer according to claim 1 , wherein the pinion bar comprises a weight holder that holds a weight for adjustment of the tension applied by the tension applying member. 3. The printer according to claim 2 , wherein the weight holder is disposed at both ends of the pinion bar, the weight is a hollow column or a hollow disc coaxial with the pinion bar, and a hollow portion of the hollow column or the hollow disc is greater in diameter than the tension applying bar. 4. The printer according to claim 3 , wherein the support unit comprises a tension applying member fixture in an upper part of the support unit. 5. A transport apparatus configured to collect a medium unwound from a feed roller using a take-up roller, the transport apparatus comprising: a transport unit that transports the medium in a predetermined transport direction; a tension applying member having pinions at both ends of the tension applying member and disposed between the feed roller or the take-up roller and the transport unit, the tension applying member applying a tension to the medium by coming in contact with the medium, wherein the tension applying member comprising a tension applying bar having a tubular shape and a pinion bar having a pinion at an end of the pinion bar in a direction in which the tension applying bar is extending, the tension applying bar extending in a direction intersecting with the transport direction of the medium and applying a tension to the medium by coming in contact with the medium, the pinion bar being a shaft disposed inside of the tubular shape of the tension applying bar and parallel to the direction in which the tension applying bar is extending, the pinion bar supporting the tension applying bar so as to allow for a relative rotation that the tension applying bar and the pinion bar are configured to be rotatable relative to each other; a support unit that supports the tension applying member, the support unit having a rack engageable with the pinion of the pinion bar; a position detector comprising a detection head that moves with the tension applying member, the detection head comprising a driven-to-move plate to define a moving range of the tension applying member, the position detector further comprising a linear scale with a scale read by the detection head; and a moving range determining unit which has two sensors that detect the presence/absence of the driven-to-move plate and which detects whether the tension applying member is within the moving range based on patterns detected by the two sensors.