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Operational Safety 2.1.6 Danger of Crushing at SIPLACE JTF-MW Safety Instructions User Manual JTF-MW on SIPLACE E 17 Pinch points when the door is open Pinch points on the conveyor 1. Pinch point between pulley and tim i…

Operational Safety

Safety Instructions 2.1.6 Danger of Crushing at SIPLACE JTF-MW

16 User Manual JTF-MW on SIPLACE E

1. Pinch point at rod-less cylinder end B

1. Gear cover

2. Pinch point when gear cover is removed

Operational Safety

2.1.6 Danger of Crushing at SIPLACE JTF-MW Safety Instructions

User Manual JTF-MW on SIPLACE E 17

Pinch points when the door is open

Pinch points on the conveyor

1. Pinch point between pulley and timing belt

1. Pinch points between tray and moving magazine

1. Pinch points at the tray clamp on the conveyor

Operational Safety

Safety Instructions for Transporting the Feeder 2.3.1 Definition of ESD

18 User Manual JTF-MW on SIPLACE E

2.2

2.2 Safety Instructions for Transporting the Feeder

Safety Instructions for Transporting the Feeder

2.3

2.3 ESD Guidelines

ESD Guidelines

2.3.1

2.3.1 Definition of ESD

Definition of ESD

Pinch point between pulley and timing belt

CAUTION

Heavy Weight

The heavy weight of the SIPLACE JTF-MW (~ 60 kg/~132 lb) could cause injuries if the module

is not handled correctly.

► Do not lift or carry the module alone.

► Use lifting aids and proper lifting techniques when removing or replacing.

► You might need to enlist the help of a second person.

Almost all of the modules in use today are equipped with highly integrated MOS blocks and compo-

nents. The manufacturing techniques used mean that these electronic components are extremely sen-

sitive to overvoltage and thus to electrostatic discharge.

The abbreviation for such modules is 'ESD' (Electrostatic Sensitive Device). This is

used internationally, although the German abbreviation 'EGB' may also be seen. The

following symbol on cabinet rating plates, racks or packaging indicates that compo-

nents which are sensitive to electrostatic discharge have been used and thus that the

modules concerned are also touch-sensitive.

ESDs can be destroyed by voltages and power levels that are far below the level that can be perceived

by humans. Such voltages occur if a person touches a component or module without earthing them-

selves. Components that are exposed to such overvoltages do not generally appear to be defective im-

mediately - incorrect behavior starts after the component or module has been in operation for some

time.