DE102006029882A1 - Lighting device operating method for photoelectric receiver, involves activating lighting device before measuring cycle to be realized by photoelectric receiver, and deactivating lighting device after measuring cycle - Google Patents

Abstract

The method involves activating a lighting device (11) before a measuring cycle to be realized by a photoelectric receiver (10), and deactivating the lighting device after the measuring cycle. The measuring cycle of the receiver is activated by a trigger signal that is generated in a processing electronic. The separate trigger signal activating the receiver is supplied to the lighting device for activation.

Description

The The invention relates to a method for operating the illumination device a photoelectric receiver a measuring device for detecting the position of an edge of an arcuate material to be processed, the sheet processing machine is supplied.

Around in sheet-processing machines the processing goods are accurate to be able to process it is necessary to capture the actual position of each sheet and these subsequently to supply a desired position, the arcuate Material of sheet metal, cardboard, paper, foil, etc. may exist.

From the DE 195 32 009 C2 For example, a method and an apparatus for detecting the position of an edge of webs or sheets by means of a measuring device are known. The measuring device consists of a lighting device which is associated with the one side of the webs or sheets, while on the opposite side a photoelectric receiver is provided. The light constantly emitted by the illumination device is detected by the receiver. In accordance with the position of the edge to be detected between the illumination device and the receiver, an actual position signal is generated, which is supplied to processing electronics and compared there with a setpoint signal. In case of deviations, a control signal is generated, are controlled by which adjusting means for realizing the desired position.

In the DE 101 36 870 A1 Furthermore, a generic measuring device is described, which is designed as a reflex line. This consists of an over the entire length extending illumination device and located approximately in the same plane, on an adjacent, parallel to the illumination device position and also extending over the entire length receiver. The beams constantly emitted by the illumination device are reflected by the material to be processed and detected by the measuring device, while in the area not covered by the processing material, no reflection of the rays of the illumination device takes place, so that the actual position of an edge of the processed material to be detected on the receiver maps.

Around the lighting device, the receiver or the combination of Lighting device and receiver from damage or to protect pollution these in dustproof housings stored, wherein the lighting device is usually made of LEDs.

By the arrangement of the illumination device takes place in closed housings a heat accumulation, which adversely affects the life of the lighting device.

task The invention is, by simple means by the lighting device caused heat input to reduce and so the life of the lighting device to extend.

According to the invention Problem solved by a method according to the features of claim 1.

By the inventive method becomes the heat input in the housing surrounding the lighting device reduces and thus the life the lighting device increases.

At an embodiment the invention will be closer explained. In the associated Drawings show

1 partial view of a feed table with a measuring device in plan view,

2 a view along the line AA in 1 .

3 a detail of a feed table with another embodiment of the measuring device,

4 a view along the line BB in 3 .

5 the control over the machine angle.

In 1 is a feed table 1 with a bow 2 , by a belt table, not shown in the sheet conveying direction 3 and with the sheet leading edge against at the feed table 1 positioned front lays 4 is shown. For detecting the actual position of a side edge 5 of the bow 2 is in a recess 6 of the feed table 1 displaceable or stationary a measuring device 7 arranged. The measuring device 7 consists of a transparent cover plate 8th that align with the surface of the feed table 1 forming a plane, and a base plate 9 which the lighting device 11 and the photoelectric receiver 10 wearing. The cover plate 8th , Base plate 9 , the side walls of the recess 6 as well as not shown closure pieces form a dustproof housing 12 ,

The lighting device 11 consists usually of successively and possibly adjacent juxtaposed LEDs (LED), which are characterized by a high switching speed, life and light output, the Le life is drastically reduced at high temperatures. The photoelectric receiver 10 extends parallel and spaced from the illumination device 11 , It consists of one or more successively arranged CCD line sensors, which in turn consist of a plurality of in a row juxtaposed measuring elements. The lighting device 11 and the receiver 10 are spaced to the feed table 1 lying bow 2 arranged. The of the lighting device 11 emitted rays are from the bow 2 covered area from the bottom of the arch 2 reflected and thus captured by the measuring elements, while in the area not covered by the arc 2 is covered, no reflection of the rays of the illumination device 11 done so that the location of the side edge 5 on the receiver 10 maps.

The recipient 10 and the lighting device 11 are connected to processing electronics. From the processing electronics, a first trigger signal is generated as a function of a predefinable machine rotation angle φ ₁ and thus the receiver 10 triggered, so that in a first measurement cycle, a first actual position characterizing a first actual value is determined and supplied to the processing electronics. This first actual value is compared with a setpoint value stored in the processing electronics, which characterizes the desired position, and, in the case of deviations, a control value is formed, which is fed to the setpoint position-implementing actuators.

It is also possible, by the processing electronics within a power stroke at a second machine rotation angle φ ₂ to form a second trigger signal, thus the receiver 10 to trigger and to form a second actual value characterizing a second actual position in a second measuring cycle and to supply this to the processing electronics ( 5 ).

In the processing electronics is from the first actual value and the second actual value formed an average, which the setpoint actual value comparison is taken as a basis.

The lighting device 11 is also connected to the processing electronics and is activated by this only if a measurement cycle is to be realized. To activate the lighting device 11 can be used by the processing electronics to activate the receiver 10 generated trigger signals are used. That is, if by means of the first trigger signal, the receiver 10 is activated, by this trigger signal and the lighting device 11 activated and deactivated after the measurement has been carried out. In a second measurement within a work cycle can be analogous procedure. But it is also possible to trigger separate triggering signals for the lighting device 11 to generate and z. B. the lighting device 11 to activate via a machine rotation angle φ in which there are two measuring cycles.

In the 3 and 4 is another embodiment of a measuring device 7 shown. The feed table 1 be in sheet conveying direction 3 bow 2 supplied and for alignment after the leading edge against the front lays 4 transported. In the feed table 1 is the recess 6 provided with the transparent cover plate 8th is closed. On the base plate 9 is the photoelectric receiver 10 positioned, the z. B. over the entire length of the recess 6 extends. The cover plate 8th , the base plate 9 with the receiver 10 , the side walls of the recess 6 and not shown closure pieces form a dust-tight first housing 12.1 , Spaced to the first housing 12.1 is a second housing 12.2 intended. The dustproof sealed second housing 12.2 is in the first case 12.1 facing area with a transparent pane 13 Mistake. In the second case 12.2 is the lighting device 11 arranged so that the emitted rays on the receiver 10 are directed. The first case 12.1 with the receiver 10 and the second housing 12.2 with the lighting device 11 form the measuring device 7 , The second housing 12.2 is displaceable and clamped a guide in the embodiment 13 assigned. It can thus be transverse to the sheet conveying direction 3 shifted and so on the side edge to be detected 5 the bow to be processed 2 be set. The lighting device 11 and thus the second housing 12.2 may also be designed so that they extend over the entire length of the photoelectric receiver 10 extend. The arc 2 covers the recipient 10 partially off, so that the sidekate 5 maps.

Analogous to the embodiment of the 1 and 2 the control of the receiver takes place 10 and the lighting device 11 by means of the processing electronics, wherein the illumination device 11 always only activated when by the receiver 10 a measuring cycle is realized.

1

feed table

2

bow

3

Sheet conveying direction

4

front lay

5

side edge

6

recess

7

measuring device

8th

cover plate

9

baseplate

10

Photoelectric receiver

11

lighting device

12

casing

12.1

first casing

12.2

second casing

13

guide

φ

 Engine rotation angle

φ ₁

first Engine rotation angle

φ ₂

second Engine rotation angle

Claims (6)

Method for operating the illumination device of a photoelectric receiver of a measuring device for detecting the position of an edge of a sheet-shaped material to be processed, which is supplied to a sheet-processing machine, characterized in that the illumination device ( 11 ) before one by the recipient ( 10 ) is activated and deactivated after the measuring cycle. Method according to claim 1, characterized in that a measuring cycle of the receiver ( 10 ) is activated by a trigger signal generated in a processing electronics. Method according to claim 2, characterized in that the receiver ( 10 ) activating trigger signal of the illumination device ( 11 ) is supplied for activation. Method according to claim 3, characterized in that the illumination device ( 11 ) separate trigger signals are supplied. Method according to claim 4, characterized in that the illumination device ( 11 ) is switched on before a first measuring cycle and switched off after a second measuring cycle. Method according to claim 4, characterized in that the illumination device ( 11 ) is activated before the measuring cycle.