DE102008019938B4 - Arrangement for detecting a physical variable on a stack of sheets lying one on top of the other - Google Patents

Abstract

Arrangement for detecting a physical variable on a stack of sheets lying one on top of the other, having at least one sensor which responds to changes in the size and which is inserted into the stack between two sheets and connected to a stationary evaluation device, with the sensor (5, 6) and the evaluation device being connected between it (4, 8) there is a wireless connection (9), the sensor directly or indirectly detecting a physical variable inside the stack, characterized in that when the stack (1) is arranged in the delivery of a sheet-fed printing press, the evaluation device (4) has a Control unit for a dryer (3) arranged in the conveying path of the sheets (2).

Description

The invention relates to an arrangement for detecting a physical variable on a stack of sheets lying one on top of the other, according to the preamble of claim 1.

In sheet-fed printing presses, it is known to control dryers based on measured temperature and humidity values. To measure the temperature and humidity in a cantilever stack, sensors are used that are attached to a flat holder constructed like a sword. The so-called stacking sword is pushed between the sheets lying on top of the stack during the printing operation in order to obtain measured values from the inside of the stack. Lines lead from the sensors to a power supply and to an evaluation device for the measurement signals. The sheet surfaces and a printed image are damaged by pushing in and pulling out the stacking blade.

In order to detect physical variables on moving parts or in closed rooms, it is known to use sensors that are equipped with a transponder. The measurement signals are transmitted in a radio link to a stationary evaluation device. Power supply lines or signal lines are not required.

From the DE 10 2006 036 510 A1 a control device for a dryer is known, in which temperature and moisture signals from sheets are processed. The signals are derived with radio sensors, which circulate on a chain conveyor for the sheets. For power supply, the sensor is equipped with a thermoelectric converter, which is aimed at a heat radiation source of the dryer.

According to the DE 10144 103 A1 Operational parameters such as temperature or humidity are obtained from a roller or cylinder using a wireless sensor. The sensor signals are used to control a machine or system.

From the disclosure document DE 101 63 267 A1 a sheet material with an electrical circuit and a device and a method for processing the sheet material are known. The sheet material has an electrical circuit, it being possible for information and/or data to be transmitted from a device communicating with the sheet material to the electrical circuit and/or from the electrical circuit to the device. For this purpose, the circuit has an optical sensor and an optical receiver, both of which are guided to the edge of the sheet material via optical fibers and can thus exchange information between the device and the sheet material in both directions via optical signals.

The patent EP 1 550 078 B1 describes a corrugated structure which has an RFID chip with an antenna between a cover paper and a corrugated medium. The antenna is integrated into the RFID chip and the RFID chip is positioned between the grooves of the corrugated medium.

The object of the invention is to develop an arrangement for detecting a physical variable in a stack of sheets lying one on top of the other, which enables wireless signal acquisition from the inside of a stack.

The object is achieved with an arrangement which has the features of claim 1. Advantageous configurations result from the dependent claims.

According to the invention, a detection arrangement for a physical variable on a stack consists of at least one sensor, which is arranged in the stack between two sheets, and an evaluation device, which is wirelessly connected to the sensor.

The sensor is used to directly or indirectly detect a desired physical quantity inside the stack. A sensor responsive to temperature and/or humidity changes can be used to control a dryer of a printing press. The stack height and the application of ink, varnish, dampening solution and powder can be determined from signals from a sensor that detects pressure changes. Control signals from a device for renewing a stack and devices for controlling the application of ink, varnish, dampening solution and powder can be derived from the signals from the pressure sensor. To insert the sensor, a device can be provided next to the stack, which places the sensor between two sheets.

The wireless connection between the sensor and the evaluation device can be implemented as a radio connection. Alternatively, the wireless connection can be designed as an optical or acoustic connection.

It is also possible to design the sensor as a microsensor and to place it on a sheet before or during placement on the stack. The outer dimensions of the microsensor are less than 1 mm. When transferred to a further processing station, the microsensor remains in the stack. A self-sufficient microsensor is able to continuously deliver signals on the physical quantity. In particular, the temperature and/or the humidity in the stack can be measured continuously.

The invention will be explained below using an exemplary embodiment.

1 shows a schematic of an arrangement for measuring the temperature in a stack 1 in the delivery of a sheet-fed printing press. The stack 1 consists of a large number of sheets 2 stacked one on top of the other. The sheets 2 are printed. Before being deposited on the stack 1, the sheets 2 pass through a dryer station 3. The dryer station 3 is connected to a control device 4. Measurement signals that reflect the temperature in stack 1 are processed in control unit 4 . The measurement signals are obtained with sensors 5.1-5.4. The strip-shaped sensors 5.1-5.4 were fed into the stack 1 with an insertion device, so that a temperature sensor 6 between two sheets 2 has the distances a and b to the side surfaces of the stack 1 and distances c to one another. The ends of the sensors 5.1-5.4 facing away from the pickup 6 protrude from a side face 7 of the stack 1. FIG. These ends each contain an antenna of a transponder for the temperature measurement signal. The transponders are self-sufficient in terms of power supply. A transceiver unit 8 is connected to the control unit 4 . The transmitter unit 8 is activated to read the transponder. The transponder returns the respective temperature measurement signal to the receiving unit 8 . There are radio connections 9 between the transceiver unit 8 and the transponders.

reference list

1

stack

2

bow

3

dryer station

4

control unit

5

sensor

6

temperature sensor

7

side face

8th

transceiver unit

9

radio link

Claims (10)

Arrangement for detecting a physical variable on a stack of sheets lying one on top of the other, with at least one sensor which responds to changes in the size, which is inserted into the stack between two sheets and is connected to a stationary evaluation device, with the sensor (5, 6) and the evaluation device being connected between it (4, 8) there is a wireless connection (9), with the sensor directly or indirectly detecting a physical variable inside the stack, characterized in that for a stack (1) arranged in the delivery of a sheet-fed printing press, the evaluation device (4) is equipped with a Control unit for a dryer (3) arranged in the conveying path of the sheets (2). arrangement according to claim 1 , characterized in that there is a radio connection (9) between the sensor (5, 6) and the evaluation device (4, 8). arrangement according to claim 2 , characterized in that the sensor (5, 6) is structurally combined with a transponder. arrangement according to claim 3 , characterized in that the sensor (5, 6) is designed in the form of a strip and an antenna of the transponder protrudes from the stack (1). arrangement according to claim 1 , characterized in that the sensor (6) responds to temperature changes in the stack (1). arrangement according to claim 1 , characterized in that the sensor (6) responds to moisture changes in the stack (1). arrangement according to claim 1 , characterized in that the sensor (6) responds to pressure changes in the stack (1). arrangement according to claim 1 , characterized in that the stack (1) is associated with a device for inserting the sensor (5, 6). arrangement according to claim 1 , characterized in that the sensor (6) is designed as a microsensor. arrangement according to claim 9 , characterized in that the outer dimensions of the sensor (6) are less than 1 mm.

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