CS219747B1 - Mechanism for scanning the sheet position - Google Patents

Abstract

A sheet position scanning mechanism comprises three scanners (3a, 3b, 3c) mounted with a guide (1) at the end of a sheet transport path. The first scanner (3a) is mounted upstream from the guide (1) at distance between distances (a) and (b) from the guide, distance (a) being from the upstream end of the maximum length of sheet to be withdrawn from the guide at the moment of scanning, distance (b) being a distance equivalent to the shortest sheet length taken from guide (1). The second scanner (3b) is downstream from scanner 3a and is located at a distance closer to the guide than distance (c) from guide (1), distance (c) being the longitudinal separation distance between successive sheets. The third scanner (c) is mounted approximately level with guide (1) and may receive reflected light from an auxiliary guide, see Figure 2. The scanner signals are correlated with a transport engagement signal to check whether the sheets (4) are correctly positioned and ready for withdrawal into an offset printing machine. <IMAGE>

Description

The invention relates to a device for sensing the position of a sheet, in particular for sensing the feeding and loading of a sheet in a flake-loaded printing press.

Paper-handling devices, particularly cut-paper devices, such as sheet-fed offset printing machines, are equipped with sheet-position sensors to ensure the correct position of the individual sheets in the machine's working space. Said sensors are part of a sheet position sensing device which monitors the correct position of the sheet.

For scaled printing presses, it may be necessary in some cases to sense the position of the sheets at a particular point in time or at a certain time. the working stage of the printing machine, where the straight sheet is still covered by a part of the sheet being withdrawn.

In scaled-type printing machines, a system of sensors and sensing devices sensing the position of the straight sheet is generally used to sense the position of the straight sheet when it is not covered by the sheet being drawn off.

The disadvantage of said scanning devices is that they do not control the position of the sheet when it is overlapped by the sheet being pulled off, or that in this case they do not give an unambiguously true signal on the position of the sheet at the time of scanning.

These drawbacks are largely eliminated by the sheet position sensing device according to the invention, which is based on the fact that in the conveying path of the machine, sheet position sensors are gradually positioned in the direction of sheet transport, the distance of the first sensor to however, it is smaller than the length of the smallest sheet size and the distance of the second sensor from the front charges is less than the length of the scale.

An advantage of the sheet position sensing device according to the invention is that it allows the position of the sheets to be sensed even at the moment or at the same time. in the working phase of the machine, when the flat sheet is still covered by the end of the sheet being withdrawn.

An exemplary embodiment of a sheet position sensing device according to the invention is shown in the drawings, wherein FIG. 2 schematically shows its overall assembly and FIGS. 2 and 3 show the location of the reflective surface of its third sensor.

A sheet-position sensing machine according to the invention, in particular for picking up and loading a sheet in a printing sheet, comprising front-end cartridges 1, a sheet transport path 2 and at least three sensors 3a, 3b, 3c. sheet position sensors 3a, 3b, 3c are positioned. Said sensors 3a, 3b, 3c may themselves be of conventional design, for example capacitive or optical, and are located in the transport path such that the distance of the first sensor 3a from the front charges 1 is greater than the distance and ends of the sheet of the sheet 1 at the time of scanning and evaluating the position of the sheet 4, but is less than the length b of the sheet 4 used.

The distance of the second sheet position sensor 3b from the front charges 1 is less than the distance of adjacent sheets 4 in the scale, t1. the third sheet position sensor 3c is at the level of the front charges 1.

Advantageously, at least the third sheet position sensor 3c is optical - FIGS. 2 and 3 - and comprises a reflective surface 5 for reflecting the light beam 8 emitted by its light source (not shown), which is located on the auxiliary charge 6. The auxiliary charge 6 is mounted on a common a charge storage means 7, for example on a rod, on which the front charges 1 are also mounted.

In order to simplify the device, it is advantageous if the reflective surface 5 is mounted directly on the front charge 1, whereby the use of the auxiliary charge 6 can be saved.

In some cases, it is also advantageous if the auxiliary charge resp and / or the auxiliary charge. the front bumper 1 is provided with an aperture 9 and the reflective surface 5 is provided on the upper surface respectively. the bottom of said opening 9.

True signal bringing the sheet 4 is obtained by logic operation of signals of the first and second sensors 3a, 3b and a signal of turning on the first sheet transport in the event that X denotes the signal from the first sensor За, хг signal from the second sensor 3b, _T x signal r o switching on the transport of sheets 4 and y _P resulting signal, the wiring of sensors 3a, 3b works according to the relation y _P = XI. X2. Xtr.

Said wiring of the sensors 3a, 3b gives a true signal of feeding the sheets 4 with all possible combinations of the feeding sheets 4.

If at the time of scanning and inspection on the conveying path 1, the sheet 4 is missing, then there is no sheet 4 above the first sensor 3a, the end of the sheet to be withdrawn 4 'above the second sensor 3b and the sheet transport 4 is switched on. In this case, y _P = 0, since y _P = 0 holds. 1. 1 = ¹ = 0.

If there is a sheet scale 4 on the transport path 1, the transport is switched on but the scale is not moving yet, y _P = 0, since y _P - 1 applies. 0.1.

If the end of the last scale sheet 4 passes over the sensors 3a, 3b but the other scale sheets 4 do not come and the transport is switched on, y _P = 0 is also given, since y _P = = 0.1. 1 = 0.

The third sensor 3c, located at the level of the cartridges 1, gives a true signal of the loading of the sheet 4, since the drawn sheet 4 &apos; auxiliary charge 6 ’.

Giant. 1 shows a device according to the invention in which the scale of the sheets 4 is at the time of scanning, i.e. inspection. The drawn sheet 4 ’is pulled away and in the absence of the following, ie straight sheet 4, the second sensor

3b, the signal of the presence of the sheet as it scans the withdrawn sheet 4 'However, the first sensor 3a emits a signal "0", so that data _P y = 0 for administration will be true because other sheet 4 is not above the first sensor 3a.

An exemplary embodiment of the third sensor 3c, i.e. the sheet loading sensor 4, is shown in Figs. 2, 3.

The third sensor 3c itself passes through an opening 9 in the auxiliary charge 6, which is mounted on a common bearing means 7 of the front charges 1, in this case on a rod. The top surface of the aperture 9 is provided with a reflective surface 5. The light beam 8 extends from the third sensor 3c at a point where the edge of the sheet 4 cannot reach and is directed so that it cannot fall below the flat sheet 4. 5 to the point where it is clearly interrupted by a properly aligned sheet 4.

Claims (3)

PftKDMtT in tnAlix A machine for detecting the position of a sheet, in particular for detecting, feeding and loading a sheet in a flake-loaded printing press comprising a front charge, a transport path and at least three sheet position sensors, characterized in that they are in the transport direction in the transport path (2). the sheet position sensors (3a, 3b, 3c) are sequentially positioned, wherein the distance of the first sensor (3a) from the front plates (1) is greater than the distance (a) of the largest sheet size (4) to be removed ) at the time of scanning but less than the length (b) of the smallest sheet size (4), the distance of the second sensor (3b) from the front plates (1) is less than the length of the scale (c) and the third sensor (3c) is level cartridges (1). , Sheet position sensing device according to claim 1, characterized in that at least the third sensor (3c) is optical and comprises a reflective surface (5) disposed on the auxiliary charge (6), the auxiliary charge (6) being mounted on a common storage means. (7) cartridges. A sheet position sensing device according to claim 2, characterized in that the reflective surface (5) is mounted on the charge (1).