DE3932932A1 - Measurement surface position evaluating print medium - detects medium edge and stores coordinates to control densitometer motion - Google Patents

Abstract

An arrangement for measuring and evaluating the position of the measurement surfaces of print media detects the edge of the medium (2), fixes its position, determines the measurement surface position coordinates and stores the values. A densitometer (13) for surface evaluation is repeatedly moved over the surface using the stored values. The densitometer is associated with a sighting device (14) contg. an optical source producing a light spot and measurement surface edge lengths. The sighting device is connected to a display (15). USE/ADVANTAGE - Rapid, economical print medium evaluation.

Description

The invention relates to a device for determining the position and evaluation of measuring surfaces of a printed sheet on a Measuring table is placed and from the color measurement values of color measurement or measured areas within the printed image area should be.

According to DE-OS 33 24 951 a device for detection is known teln and evaluation of color measuring fields lying on a measuring table Sheet with a densitometer. A serves as a measurement base Digitizing board, on which the printed sheet in an arbitrary is placed on the situation. The printed sheet is attached with a stylus scanned several measuring points for position detection. After that the color measurement fields are also scanned once with the stylus and the determined position coordinate values are stored. Means The color measurement fields can store the stored position coordinate values can be started automatically as often as required.

This device can be inexpensive and fast Evaluation of printed sheets can be carried out.

A disadvantage of this device, however, is that an unwanted Shifting of the print sheet to the wrong one after it has been recorded Measurement results leads and this measurement results a whole pressure can affect the order or until the wrong one is found Position detection. Furthermore, the poor operability is the key direction is disadvantageous, especially with larger formats in Direction of rear sheet edge seen by operator poor reachable places occur and thereby reduce the accuracy is gert. There are also measuring devices for detecting the position an edge of an arc on a surface. So at Photoelectric measuring device according to DE-OS 29 13 410 a Row of optical fibers arranged one behind the other, by which each optical fiber is followed by an evaluation unit. The free flat ends of the optical fibers are one above assigned to the sheet layer arranged light source.  

It is the object of the invention to provide a device for positioning mood and evaluation of measuring surfaces of a printed sheet fen, the higher measuring certainty and accuracy as well as a has easier usability.

The technical object of the invention is therefore that To design the facility so that the accuracy regardless of Format of the printed sheet remains constant, a change in Sheet position after it is fixed and the position determined tion of the measuring surfaces can be made easier.

The task is solved in that the densitometer is off an optical transmitter producing a light spot and a die reflected light rays according to the edge positions of the light fleckes and the existing sensor receiving the measuring surface device is assigned and the sighting device with a display device arranged outside the printed sheet area is functionally connected.

It has proven to be advantageous for a low manufacturing outlay such a design that the sighting device via a fiber optic cable system and an optical magnification unit connected to a screen arranged on the control panel is. For a high accuracy of the positioning of the densitome It is also effective if the sighting device has a Analogue / digital converter electrically connected to a one-chip computer which is and the one-chip computer downstream of the display device is.

The invention will be explained in more detail below using an exemplary embodiment. In the drawing, the only figure shown there shows the schematic arrangement of the device. At the beginning of the measuring process, the printing sheet 2 is placed on the measuring table 1 so that it lines 3 and 4 with its edges up to the marking lines. As a result, it covers the corresponding sensors 5, 6, 7, 8, 9, 10, 11 in accordance with its format when positioned correctly. In the selected format example, it is sensors 6, 7, 8, 9, 10 . If the preselected sensors 5, 6, 7, 8, 9, 10, 11 are covered according to the format, the table is automatically fixed by a known suction process. Reflex sensors are used as sensors 5, 6, 7, 8, 9, 10, 11 in the example. On the crossbar 12 , the densitometer 13 is moved with the sighting device 14 attached to the densitometer in the X direction and by the movement of the crossbar 12 in the Y direction. The sighting device 14 consists in the selected embodiment of two light guide cables, of which a light guide cable sends light and forms a circular light spot on the arch. The other fiber optic cable is used to receive the light rays remitted from the surface of the arc and to transmit the screen 15 located on the measuring table 1 . The received light rays are shown enlarged on the screen 15 . The operator now has the option of moving the densitometer 13 to the location which is provided as the measuring surface and of storing its coordinates. At the same time, he can control the required brightness via the other light guide cable.

The interposition of a one-chip computer between the sighting device 14 and the display device enables deviations in the position of the measuring surface from the position of the light spot to be calculated and the necessary setting steps to be displayed according to the direction and size.

Reference numerals

1 measuring table
2 printed sheets
3 marking line
4 marking line
5 sensor
6 sensor
7 sensor
8 sensor
9 sensor
10 sensor
11 sensor
12 traverse
13 densitometers
14 sighting device
15 screen

Claims (3)

1.Device for determining the position and evaluation of measuring surfaces of a printing sheet, in which the edge positions of the printing sheet are detected and its position is fixed and the position coordinates of the measuring surfaces are determined and their values are stored, a densitometer used for evaluation being repeatable by means of the stored values Measuring surfaces can be moved, characterized in that the densitometer ( 13 ) is assigned a sighting device ( 14 ) consisting of an optical transmitter that generates a light spot and a sensor that receives the reflected light beams in accordance with the edge positions of the light spot and the measuring area, and the sighting device ( 14 ). is functionally connected to a display device arranged outside the printed sheet area. 2. Device according to claim 1, characterized in that the sighting device ( 14 ) is connected via a light guide cable system and an optical magnification unit to a screen arranged on the operating part ( 15 ). 3. Device according to claim 1, characterized in that the sighting device ( 14 ) is electrically connected via an analog / digital converter to a one-chip computer and the one-chip computer is arranged downstream of the display device.