A printing device is described in which there is a media guide that is arranged to guide a printable media substrate from an upstream media path towards an input of the printing device or away from an output of the printing device towards a downstream media path. The media guide is movable between a first position and a second position. In the first position the media guide is arranged to guide the printable media along a respective media path. In the second position, which is spaced apart from the first position, the media guide forms a buffer region into which a variable amount of media substrate can collect.

A sheet metal strip is directed from a supply coil into a unitized system including a frame supporting a feed roll driven by a variable speed motor. The strip is directed upwardly from the feed roll between vertical guide rods to produce an inverted U-shaped vertical loop detected by sensors connected to control the feed roll motor. A servo driven index roll receives and advances the strip into tooling within a reciprocating press. Vibration insulators support the frame from a base stand mounted on air casters which provide for quickly removing the system from the press. The axial length of each roll is less than the width of the strip and engages only a center portion of the strip. A second index roll driven by a servo motor may be used on the press to provide push/pull advancement of the strip through the press.

A sheet metal strip is directed from a supply coil into a unitized system including a frame supporting a feed roll driven by a variable speed motor. The strip is directed upwardly from the feed roll between vertical guide rods to produce an inverted U-shaped vertical loop detected by sensors connected to control the feed roll motor. A servo driven index roll receives and advances the strip into tooling within a reciprocating press. Vibration insulators support the frame from a base stand mounted on air casters which provide for quickly removing the system from the press. The axial length of each roll is less than the width of the strip and engages only a center portion of the strip. A second index roll driven by a servo motor may be used on the press to provide push/pull advancement of the strip through the press.

The present invention provides a guide device for guiding print medium onto a take-up roll in a printing system. The guide device comprises a first guide member presenting a substantially planar surface for limiting or preventing lateral deviation of a printed medium output from the printing system as the medium moves along a transport path towards a take-up roll for winding or taking up a length of the medium. The first guide member is stationary in use. A position of the first guide member is adjustable in a direction transverse to the transport path for setting the position to limit or prevent lateral deviation of the medium along the transport path. The guide device further comprises a second guide member presenting a support surface configured and arranged to support the medium thereon as the medium travels along the transport path towards the take-up roll. The first guide member and the second guide member are preferably integrally formed as a guide unit. Further, the invention provides a printing system which incorporates such a guide device.

Provided is an apparatus for disposing a material such as waste vinyl, which is configured to collect and dispose of the material on a constant quantity basis. The apparatus includes a receiving part which receives a material supplied from an outside; a supply part, provided at an end of the receiving part, through which the material is supplied to the receiving part; a door part provided at another end of the receiving part and configured to be opened to the outside; and a fixing part formed at a location adjacent to the door part and maintaining the receiving part in a closed state until an internal pressure of the receiving part reaches a predetermined pressure level, wherein the door part is opened to discharge the material to the outside if the internal pressure of the receiving part exceeds the predetermined pressure level.

Provided is an apparatus for disposing a material such as waste vinyl, which is configured to collect and dispose of the material on a constant quantity basis. The apparatus includes a receiving part which receives a material supplied from an outside; a supply part, provided at an end of the receiving part, through which the material is supplied to the receiving part; a door part provided at another end of the receiving part and configured to be opened to the outside; and a fixing part formed at a location adjacent to the door part and maintaining the receiving part in a closed state until an internal pressure of the receiving part reaches a predetermined pressure level, wherein the door part is opened to discharge the material to the outside if the internal pressure of the receiving part exceeds the predetermined pressure level.

A paper input mechanism having a buffer function and a printing device using the mechanism are disclosed. The paper input mechanism (300) includes a frame (1) forming a conveying passage (P) for conveying continuous paper, and further includes a fixed passage plate (4) and a buffer plate (2) both located at a paper inputting side of the conveying passage (P), wherein the buffer plate (2) has an initial position and is pressed by the continuous paper to deviate from the initial position; the buffer plate (2) is opposite to the fixed passage plate (4) when being located at the initial position, so as to form a paper input passage (R), and the paper input passage (R) is connected with the conveying passage (P). Arrangement of the buffer plate (2) not only implements the buffer function, but also results in close fit between the buffer plate (2) and the frame (1) of the paper input mechanism (300) to create a unique paper inputting port, thereby effectively avoiding the problem that continuous paper is incorrectly installed by a user, and improving the usability of the product.