JP2008273206A - Apparatus for detecting physical quantity of sheet piled up in stack - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an apparatus for detecting physical quantity of sheets piled up in a stack, by which apparatus a signal can be wirelessly achieved from the inside of the stack. <P>SOLUTION: The apparatus for detecting a physical quantity of the sheets piled up in the stack has at least a sensor capable of reacting to a change of the physical quantity. The sensors are inserted between two sheets piled up in the stack, and connected to fixed evaluation apparatuses. A wireless connection (9) is interposed between the sensors (5, 6) and the evaluation apparatuses (4, 8). <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an apparatus for detecting a physical quantity of sheets stacked in a stack as described in the superordinate concept of claim 1.

  It is known to control drying devices based on temperature and humidity measurements in a sheet-fed printing press. A sensor fixed to a flat holder is used to measure temperature and humidity in the paper output stack. Here, the holder is configured like a blade. This so-called stack blade (Stapelschwert) is pushed between the sheets on the stack during the printing operation and measurements are taken from inside the stack. The line leads from the sensor to the power supply and the evaluation device for the measurement signal. By pushing and pulling out the stack blade, the surface of the sheet and the printed image are damaged.

  It is known to use sensors constituted by transponders to detect physical quantities in moving parts or closed spaces. The measurement signal is transmitted over a wireless connection to a fixed evaluation device. No power supply line or signal line is required.

  From DE 10 2006 036 A1, a control device for a drying device is known, in which the temperature and humidity signals of the sheet are processed. These signals are guided by a wireless sensor that rotates on a chain conveyor for the sheet. For power supply, the sensor has a thermoelectric converter, which is oriented towards the heat dissipation source of the drying device.

According to DE 101 44 103 A1, a roller or cylinder wireless sensor provides a parameter determined by an action such as temperature or humidity. These sensor signals are used to control the machine or equipment.
DE 10 2006 036 A1 DE 101 44 103 A1

  An object of the present invention is to develop an apparatus for detecting a physical quantity of sheets stacked in a stack so that signals can be obtained wirelessly from within the stack.

  According to claim 1 of the present invention, there is provided an apparatus for detecting a physical quantity in sheets stacked in a stack, the apparatus comprising at least one sensor that reacts to the change in the quantity. This sensor is a device of the type inserted between two sheets of a stack and connected to a fixed evaluation device, wherein a wireless connection is provided between the sensor and the evaluation device. This can also be solved by configuring the device. Advantageous embodiments are described in the dependent claims.

  According to the invention, the detection device for the physical quantity in the stack comprises at least one sensor arranged between two sheets in the stack and an evaluation device connected wirelessly to this sensor.

  The above sensors are used to detect directly or indirectly the desired physical quantity inside the stack. Sensors that are responsive to changes in temperature and / or humidity can be used to control the drying device of the printing press. From the signal of the sensor that detects the change in pressure, the height of the stack and the state of ink, lacquer, dampening agent and powder adhesion can be determined. From the pressure sensor signal, it is possible to derive an adjustment signal for the device that replaces the stack with a new one and the device that controls the adhesion of ink, lacquer, dampening agent and powder. A device for placing the sensor between the two sheets can be provided next to the stack for inserting the sensor.

  The wireless connection between the sensor and the evaluation device can be realized as a wireless communication connection. Alternatively, this wireless connection can be configured as an optical or acoustic connection.

  In an advantageous embodiment of the invention, the sensor is structurally integrated with the transponder.

  Furthermore, the above-described sensor can be configured as a micro sensor and can be arranged on a sheet before or during discharge to the stack. The outer dimension of this microsensor is 1 mm or less. When transported to the subsequent processing unit, the microsensor described above remains in the stack. An autonomous microsensor can continuously supply a signal for a physical quantity. For example, the temperature and / or humidity in the stack can be continuously measured.

  The present invention will be described below based on examples.

  FIG. 1 schematically shows a device for measuring the temperature in a stack 1 of a paper discharge device of a sheet-fed printing machine.

  The stack 1 is composed of a large number of sheets 2 stacked one above the other. Sheet 2 has been printed. The sheet 2 passes through the drying unit 3 before being discharged to the stack 1. The drying unit 3 is connected to the control device 4. The control device 4 processes a measurement signal representing the temperature in the stack 1. These measurement signals are obtained by sensors 5.1 to 5.4. The striped sensors 5.1 to 5.4 are guided by the insertion device into the stack 1 so that each temperature pickup between the two sheets 2 is spaced a and b from the side of the stack 1. And a distance c from each other. The ends of the sensors 5.1 to 5.4 opposite to the pickups 6 protrude from the side surface 7 of the stack 1. These ends contain one transponder antenna 1 for temperature signals. The power supply of these transponders is autonomous. The control device 4 is connected to the transmission / reception unit 8. In order to read these transponders, the transmission unit 8 is activated. Each transponder returns a temperature measurement signal to the receiving unit 8. A wireless communication connection is provided between the transmission / reception unit 8 and the transponder.

It is a figure which shows the apparatus which measures the temperature in the stack | stuck 1 of the paper discharge apparatus of a sheet-fed printing machine.

Explanation of symbols

  1 stack, 2 sheets, 3 drying device, 4 control device, 5 sensor, 6 temperature pickup, 7 side, 8 transmission / reception unit, 9 wireless communication connection

Claims (11)

An apparatus for detecting a physical quantity in sheets stacked in a stack,
The apparatus has at least one sensor responsive to the change in the amount;
In a device of the type that is inserted between two sheets of a stack and connected to a fixed evaluation device,
A wireless connection (9) is also provided between the sensor (5, 6) and the evaluation device (4, 8).
A device for detecting physical quantities in sheets stacked in a stack. A wireless communication connection (9) is provided between the sensor (5, 6) and the evaluation device (4, 8).
The apparatus of claim 1. Said sensors (5, 6) are structurally integrated with the transponder,
The apparatus of claim 2. The sensors (5, 6) are configured in stripes,
A transponder antenna protrudes from the stack (1),
The apparatus of claim 3. The sensor (6) is responsive to temperature changes in the stack (1),
The apparatus of claim 1. The sensor (6) is responsive to humidity changes in the stack (1),
The apparatus of claim 1. The sensor (6) is responsive to pressure changes in the stack (1),
The apparatus of claim 1. In the stack (1) arranged in the sheet discharge device of the sheet-fed printing machine, the evaluation device (4) is connected to the control device for the drying device (3) arranged in the sheet (2) conveyance path. To be
The apparatus of claim 1. The stack (1) is provided with a device for inserting the sensors (5, 6).
The apparatus according to claim 8. The sensor (6) is configured as a microsensor,
The apparatus of claim 1. The outer dimension of the sensor (6) is 1 mm or less,
The apparatus according to claim 10.

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