DE102006022532A1 - Braking force adjusting method for printing machine, involves detecting actual speed of drive moment that is used to drive rotary body, and adjusting braking force based on detected drive moment - Google Patents

Abstract

The method involves exerting braking force at a rotary body (1) of a printing machine driven with a drive moment. An actual speed of the drive moment is detected, and the braking force is adjusted based on the detected drive moment of the rotary body. The braking force is adjusted such that the drive moment of the rotary body is reduced to zero. A drive unit (3) is used for adjustment of the drive moment of the rotary body for adjustment the braking force.

Description

The The invention relates to a method for adjusting a braking force according to the generic term of claim 1.

Of the Invention is based on the object, a method for adjusting to create a braking force.

The The object is achieved by the Characteristics of claim 1 solved.

The particular advantages of the invention are that a drive unit for the drive of a rotating body a printing press or for the drive of a rotating body belonging to the printing press Aggregates also in the operating case of a rotating body in very fast at a high speed Stops, in particular an emergency stop, none by the braking process released energy in an at least the drive with electric Feeding or feeding back energy-supplying network. It is not required for this operating case of the very fast hold of the rotary body Provide load resistance, about the electrical energy released in the braking process is derivable.

The Providing a for the very fast stop required braking torque provides for the body of revolution driving drive often biggest burden which is why the drive to perform the function of the very fast maintenance so far often oversized was, d. H. more powerful was designed as it for the rule of an ordinary, trouble-free Operation is required. The solution found has the advantage that such oversizing of the drive for consideration the accident, in a very short time at high speed a very fast Stop running is not required. Thus, for the drive unit of the drive of the rotating body no regenerative controller or other additional Hardware needed. Also can across from the oversized drives favorable Drives are used with a lower maximum power, which saves costs.

One embodiment The invention is shown in the single, a schematic diagram Drawing shown and will be described in more detail below.

A rotation body 01 a printing press or a unit belonging to the printing press is driven by a drive 02 , z. B. an electric motor 02 driven. The drive 02 is from a z. B. electronic drive unit 03 controllable or controllable. In the case of a control is the drive unit 03 as a regulator 03 educated. The rotation body 01 the printing press or belonging to the printing machine unit has z. B. a large mass of several hundred kilograms. The rotation body 01 the printing press can z. B. be a printing cylinder of the printing press. The rotation body 01 belonging to the printing machine unit can, for. B. be a chill roll in a belonging to the press chill roll stand. The drive unit 03 is z. B. realized by a programmable logic controller PLC or may be such to perform a controlled braking operation of the rotating body 01 z. B. as an integrated unit.

It is advantageous to carry out the controlled braking of the rotating body 01 one on the rotating body of revolution 01 acting, from the drive 02 of the rotational body 01 different brake unit 04 provide, which at least in the operating case of the very fast stop of the rotating body 01 a braking force on the rotating body of revolution 01 exercises. A very fast stop of the rotational body rotating at a speed 01 means this body of revolution 01 from its maximum speed in the range of several ten thousand revolutions per hour, z. B. 40,000 or 45,000 revolutions per hour, preferably in less than 15 seconds, especially in less than 10 seconds to bring to a standstill. In the case of a z. B. triggered by a sensory device emergency stop brakes the brake unit 04 the rotating body of revolution 01 continuously down to its standstill, with the delay of rotation of the rotating body 01 controlled to avoid damage or unwanted effects. In this case, the brake unit has 04 of the rotational body 01 the function of an automatic emergency stop device. The emergency stop triggering sensory device may, for. As a power failure or overload of the drive 01 of the rotational body 01 or any other disturbance in the production process carried out with the printing press, and if it exceeds or falls below previously set limit values. B. in terms of the drive 02 drive torque to trigger the emergency stop.

According to the invention it is proposed that the drive 02 currently exerted drive torque of the rotating body 01 and the of the rotation body 01 currently running speed detected and the rotational body 01 acting braking force as a function of the detected drive torque of the rotating body 01 and its speed can be adjusted. The current drive torque of the rotating body 01 and its current speed, which each form a command variable for the braking operation, are preferably with or on the on shoot 01 of the rotational body 01 recorded and z. B. each as an electrical measurement of the associated drive unit 03 made available. To adjust the braking force is preferably used to adjust the drive torque of the rotating body 01 used drive unit 03 of the drive 02 used. The setting of the braking force can also be independent of the brake unit 04 respectively. The braking force is from the drive unit 03 or from the brake unit 04 set such that the drive torque of the rotating body 01 maximum is reduced to zero, ie the setting can be on the rotation body 01 no negative drive torque, so that released by the braking energy in the at least the drive 02 could be fed back with electrical power supplying network. The braking force is from the brake unit 04 exercised dosed so that there is always a defined torque flow and the drive 02 of the rotational body 01 specified limit values with respect to its driving torque neither exceeds nor falls short of. This can help protect the drive 02 its overload can be avoided especially in a very fast running at a high speed braking.

It can also be provided that the drive 02 of the rotational body 01 no braking torque is applied, but that the drive torque at the drive 02 of the rotational body 01 through the associated drive unit 03 only reduced in a defined manner and the braking force alone from the brake unit 04 is applied, whereby the drive train is relieved. The brake unit 04 can apply its braking force by a mechanical or an electrical or a hydraulic action principle. Also, the brake unit 04 be designed as an eddy current brake.

01

body of revolution

02

Drive, electric motor

03

Drive unit, regulator

04

body of revolution

Claims (7)

Method for setting a braking force, wherein the braking force is applied to a rotational body driven by a drive torque ( 01 ) is applied to a printing press, characterized in that the current drive torque of the rotary body ( 01 ) and the current speed detected and the braking force in dependence on the detected drive torque of the rotating body ( 01 ) and its speed can be adjusted. A method according to claim 1, characterized in that the braking force is adjusted such that the driving torque of the rotary body ( 01 ) is reduced to a maximum of zero. A method according to claim 1, characterized in that for adjusting the braking force for adjusting the drive torque of the rotary body ( 01 ) used drive unit ( 03 ) is used. A method according to claim 1, characterized in that the braking force with one of the drive ( 02 ) of the rotating body ( 01 ), on the rotating body ( 01 ) acting brake unit ( 04 ) is exercised. A method according to claim 4, characterized in that the braking force alone from the brake unit ( 04 ) is exercised. A method according to claim 1, characterized in that the current drive torque of the rotary body ( 01 ) and its current speed with or on the drive ( 02 ) of the rotating body ( 01 ) and the drive ( 02 ) associated drive unit ( 03 ) to provide. Method according to claim 1, characterized in that that with the adjustment of the braking force, a printing cylinder of the Printing machine and / or a cooling roller in a belonging to the printing press Cooling roller stand braked become.