DE4239086C2 - Device for sheet control in rotating transport bodies of printing machines - Google Patents

Description

The invention relates to a device for sheet control in rotating transport bodies of printing machines according to the preamble of claim 1, which works on the photoelectric principle.

Such a device according to JP 59-203907 contains a stationary one Light transmitter, a stationary light receiver and in the rotating cylinder arranged light guide cables, one end of which forms the goods inspection point and the the ends of which are guided contactlessly on the light transmitter and the light receiver. The other Ren ends of the light guide cables are centered in the cylinder axis - transmission light guide cables and receiver light guide cable eccentric - and in the bearing of the stub shaft of the cylinder arranged.

The disadvantage here is that others are also in the stub shaft Supply lines and control elements can be accommodated must and therefore space problems occur, furthermore be the described fiber optic cable routing is very high wall in the cylinder both during production and at Service.

Ultimately, the light transmitter and the light receiver stationary in the area of the bearing of the stub shaft arranged, which also leads to space problems here.

The object of the invention is to create a device for sheet control in a rotating transport body of printing machines, which are housed in a space-saving manner can and does not require a lot of effort in production and in the Maintenance required.  

According to the invention the task is characterized by the Claim 1 solved.

The invention is illustrated below using an exemplary embodiment explained in more detail.

The drawing shows a rotating transport body Printing machine with the device for sheet control.

A rotating transport body 1 of a sheet printing machine is usually designed as a sheet guide cylinder with a gripper system arranged in a cylinder channel 2 , consisting of several grippers 3 and a gripper bar 4 .

The sheet control is carried out in the area of the gripper bar 4 by means of light guide cables 5 , 6 , the light guide cables 5 ; 6 can be formed as spatially separate fiber optic cables or in coaxial design. For this purpose, the gripper are in the range 4, the first strip Lichtleitkabelenden 5 '; 6 'of the light guide cables are placed, these forming the sheet inspection point. The arc control point can work on the reflection principle or on the light barrier principle. The second fiber optic cable ends 5 ''; 6 '' are arranged eccentrically to the axis 7 of the transport body on the end face 8 of the same and preferably to save processing and maintenance costs in the cylinder channel 2 .

The light transmitter 9 and the light receiver 10 are housed in a Ge housing 11 and stationary, ie connected to the machine frame, arranged outside the rotating transport body 1 . The light transmitter 9 acts in the corresponding position, ie in the position in which the transport body 1 with the light guide cables 5 ; 6 past the stationary housing, with the first fiber optic cable 5 together.

In the corresponding position, the light receiver 10 interacts with the second light guide cable 6 . The light receiver 10 is connected to an evaluation unit, not shown.

The bow control device works in the corresponding one Self-clocking position.

According to a special embodiment, a clock device 13 is connected to the light transmitter 9 , and the light transmitter 9 contains a device connected to the clock device 13 for increasing the transmitted light power 14 . This is necessary in order to reliably transmit the information from the light transmitter 9 via the light guide cable 5 at high rotational speeds of the transport body 1 ; 6 to ensure light receiver 10 .

The mode of operation of the above-mentioned device for sheet control is described below. The provided by the light transmitter 9 light power is in the corresponding position, ie in the position in which the stationary-arranged light transmitter 9 your arranged in the rotating transport body 1 second Lichtleitkabelende 5 '' faces, via the light guide cable 5 for the first Lichtleitkabelende 5 'out .

The first fiber optic cable end 5 'of the first fiber optic cable 5 forms with the first fiber optic cable end 6 ' of the fiber optic cable 6 according to the reflection or light barrier principle the control point for the sheets. The signal formed - sheet present / sheet not present - is routed via the second light guide cable 6 in the corresponding position analogously to the light transmitter to the light receiver 10 and evaluated in the evaluation device and thus subsequent operations such as display, interruption of the sheet feed etc. are conducted.

Due to the transmission of the light output and the retransmission of the sheet control signals eccentrically to the axis 7 , the device works self-clocking, ie there is the advantage that no external clocking of the query and / or evaluation time is necessary.

Since the time for transmitting the light output and / or the sheet control signals is relatively short due to the eccentric arrangement, the device for sheet control can advantageously be equipped with a device for increasing the transmitted light output 14 . This device is clocked in the corresponding position from an increased light output, which enables exact transmission even at high machine speeds. Advantageously, for exact clocking, the device for increasing the transmitted light power 14 with an integrated clock device, consisting of a light barrier 15 connected to the light transmitter 9 and the light receiver 10 and one with the second light guide cable ends 5 ″; 6 '' connected initiator 16 .

This arrangement enables a compact design and a exact clocking without additional synchronization of Clock signal and sampling signal.

Reference list

1

Transport body

2nd

Cylinder channel

3rd

Gripper

4th

Gripper bar

5

first fiber optic cable

5 '

first fiber optic cable end v.

5

5 ''

second fiber optic cable end v.

5

6

second fiber optic cable

6 '

first fiber optic cable end v.

6

6 ''

second fiber optic cable end v.

6

7

axis

8th

Front of v.

1

9

Light transmitter

10th

Light receiver

11

casing

13

Clock device

14

Device for increasing the transmission light output

15

Photoelectric barrier

16

initiator

Claims (5)

1.Device for sheet control in rotating transport bodies of printing presses with a stationary light transmitter, a stationary light receiver with a connected evaluation unit and light guide cables arranged in the transport body, the first light guide cable ends of which form the sheet inspection station and the second light guide cable ends of which are guided without contact to the light transmitter and light receiver, thereby characterized in that the second light guide cable ends ( 5 ''; 6 '') are arranged outside the axis ( 7 ) of the transport body ( 1 ) on an end face ( 8 ) of the transport body and on the corresponding light transmitter ( 9 ) and light receiver ( 10 ) are passed with self-clocking in passing. 2. Device for sheet control according to claim 1, characterized in that the light transmitter ( 9 ) and / or the light receiver ( 10 ) is connected to a clock device ( 13 ). 3. Device for sheet control according to claim 2, characterized in that the clock device ( 13 ) is connected to a device connected to the light transmitter ( 9 ) for increasing the transmission light power ( 14 ). 4. A device for sheet control according to claim 2, characterized in that the clock device ( 13 ) as a fork light barrier, a light barrier ( 15 ) containing fork part in a housing ( 11 ) with the light transmitter ( 9 ) and the light receiver ( 10 ) and arranged whose initiator ( 16 ) is in fixed connection with the second light guide cable ends ( 5 ''; 6 '') arranged in the transport body. 5. Device for sheet control according to claim 1, characterized in that on the stationary light transmitter ( 9 ) and the stationary light receiver ( 10 ) guided second fiber optic cable ends ( 5 ''; 6 '') in the cylinder channel ( 2 ) of the transport body ( 1 ) are arranged.