西门子SIPLACE HS 50-设备参数_EN.pdf - 第11页

9 PCB Transpor t Direction Description On SIPLACE HS-50 t he in-line conveyor system guar antee s a quick adjustment to new PCB widths. The change is made either at the station computer using the menu function or from th…

Description

A maximum of 2 nozzle changers

can be installed for each of the

12-Nozzle Collect & Place Heads,

which allows for 120 unique noz-

zles per Collect & Place Head

without decreasing feeder quanti-

ties. This allows a quick and reli-

able change of the nozzle configu-

ration when changing to another

job. Damaged or faulty nozzles

can also be exchanged via menu

function.

Placement Heads:

Nozzle Changer for 12-Nozzle Collect & Place Head (Option)

Technical Data

Type of nozzle All standard nozzles of nozzle series 9xx

Capacity 5 magazines holding 12 nozzles

each per

changer

max. 2 nozzle changers per placement head

Nozzle changing time About 2 s per nozzle

a) Nozzles can be of different types.

Nozzle Changer

Position of Nozzle Changers

PCB Transport

Direction

Description

On SIPLACE HS-50 the in-line

conveyor system guarantees a

quick adjustment to new PCB

widths. The change is made either

at the station computer using the

menu function or from the line

computer via the automatic width

adjustment unit.

As standard the SIPLACE place-

ment systems are available with a

single conveyor system.

PCB Conveyor:

Single Conveyor

PCB Conveyor

Technical Data

PCB dimensions See table on page 3

PCB thickness 0.5 to 4.5 mm

Max. PCB weight 3 kg

Max. PCB warpage Top: 4.5 mm - PCB thickness

Bottom: 0.3 mm + PCB thickness

Free space on PCB bottom side 40 mm

PCB conveyor height

830

± 15 mm (Standard)

900

± 15 mm (Option)

930

± 15 mm (Option)

950

± 15 mm (Option) SMEMA

Fixed conveyor edge Right (standard); left (option)

Type of interface Siemens (standard); SMEMA (option)

Component-free PCB

handling edge

3 mm

PCB loading time 2.5 s

PCB Transport

Direction

Description

Thanks to reduced non-productive

times the dual PCB conveyor can

substantially increase the through-

put, depending on the program. It

makes it possible to transport two

PCBs through the machine.

In the asynchronous mode of

transport a PCB is moved into the

machine in “slack time” while an-

other of the same PCB is being

populated. The non-productive

time caused by the PCB transport

is therefore completely eliminated.

The increase in placement speed

to be anticipated is between 10

and 30%, depending on the com-

ponents placed on the PCB.

PCB Conveyor:

Dual Conveyor

Technical Data

PCB dimensions See table on page 3

Fixed conveyor edge Right (standard), left (option)

Asynchronous Transport on Dual Conveyor

Transport mode Asynchronous

View

Placement program

per conveyor

same or different

PCB width

per conveyor

same

Ink spot recognition possible

Automatic width adjustment possible

Dual Conveyor with Asynchronous Transport