A10011-ASM-T53-EN-Spec-TX-micron-DMS - 第11页

11 Board conveyor Flexible dual conveyor Flexible dual conveyor The flexible dual conveyor has two conveyor tracks that are electrically and mechani- cally independen t of one another. The fixed co nveyor sides are both …

Placement heads

Nozzle changer

Nozzle changer for the SIPLACE SpeedStar (C&P20 M2)

Nozzle changer for the SIPLACE MultiStar (CPP M)

Magazine for 20 nozzles of type 40xx

Magazine for 9 nozzles of

type 28xx

Magazine for 20 nozzles of type 20xx

Description

Nozzle changers increase the flexibility of the placement heads when it comes to processing

different components. The nozzle configuration can be rapidly adjusted to changing place-

ment jobs. Precisely defined positions and perfect nozzle seat in the garage ensure minimum

radial eccentricity on the placement head.

The nozzle changers feature a monitoring circuit.This checks whether the nozzle magazines

are seated correctly on the mount.In addition, the nozzle changer recognizes whether the

magazines are for 40xx, 20xx or 28xx nozzles by the code.

Board conveyor

Flexible dual conveyor

The flexible dual conveyor

has two conveyor tracks that

are electrically and mechani-

cally independent of one

another. The fixed conveyor

sides are both "outside" as a

default. As an option, the

fixed conveyor sides can be

selected as right/right or left/

left. The PCB dual conveyor

can also be operated as a

single conveyor, as an

option. In dual conveyor

mode, two boards are moved

into the placement machine

and placed either at the

same time (synchronous

mode) or alternatively (asyn-

chronous mode). This makes

it possible to process the top

and bottom sides of a board

in one line.

Synchronous mode

In synchronous mode, two

boards of the same size are

transported into the place-

ment position at the same

time. They are processed as

a common panel. When

using products with greatly

differing placement content,

common optimization

increases the performance of

the whole content on both

boards.

Asynchronous mode

In asynchronous mode, only

one board on a conveyor

lane is processed. At the

same time, another board on

the second conveyor lane is

moved into the placement

position. This saves the full

conveying time of one board,

thus considerably increasing

performance, particularly for

boards with a short cycle

time.

I-Placement

The SIPLACE line achieves

top placement performance

with the use of I-Placement.

In this mode, the two heads

work simultaneously and

populate the PCB on the cor-

responding conveyor side,

totally independently of one

another. Short distances fur-

ther increase the output.

Borrow Performance

By facilitating simultaneous

production of two boards with

different contents in one line,

Borrow Performance is the

ideal addition to I-Placement.

In placement machines with

Borrow Performance, both

heads place the same board

in alternation The board in

the other conveyor lane is

simply transported through

the system. This makes it

possible to achieve the same

cycle time for both boards,

despite the different place-

ment contents.

Convoy Mode

When processing boards

with lengths shorter than 175

mm, Convey Mode moves

more boards into the place-

ment area and input con-

veyor section. While one

board is being processed,

the second one waits directly

behind it. The transportation

time is therefore reduced sig-

nificantly, especially in I-

Placement mode.

Flexible dual conveyor

Board conveyor

Technical data

Flexible dual conveyor Dual conveyor in

"single conveyor"

(optional) mode

Board dimensions (length x width) at place-

ment accuracy 20µm/25µm at 3σ

50 mm x 55 mm to

375 mm x 260 mm

50 mm x 55 mm to

375mm x 460mm

Board dimensions (length x width)

at place-

ment accuracy 15µm/µm at 3σ

a) Only with SIPLACE TX2i micron 15µm accuracy class and with C&P20 M2

50 mm x 55 mm to

250 mm x 100 mm

n.a.

Stationary conveyor side Outside

Right / right

Left / left

Outside

Automatic electrical width adjustment Standard

PCB thickness

Standard 0.3 mm to 4.5 mm

PCB warpage See page 14

PCB weight

Standard

b) The board weight value refers to the weight of the board plus the weight of the components.

Max. 2.0 kg Max. 2.0 kg

Clearance on PCB underside 25 mm

PCB conveyor height

Option

Standard

Option SMEMA

900 mm

930 mm

950 mm

Type of interface SMEMA or IPC-HERMES-9852

Component-free PCB handling edge 3 mm

PCB changeover time

Dual conveyor 1.3 seconds

0 seconds

c) With the "Convoy Mode" option. Without this option 1.8 seconds.

d) 0 seconds in asynchronous mode

Key information for machines in combination with SIPLACE TX micron:

When setting up a machine (S; F, HS, HF, X or D-Series) next to a SIPLACE TX micron, be aware that there is limited

room between the two machines. In these cases, use a suitable conveyor extension to create room of 0.5m for the

operator between the two machines.

IPC-Hermes-9852

A protocol for advanced development of Industry 4.0 in electronics production

The Hermes Standard, also published as IPC-HERMES-9852, is a non-proprietary open protocol,

based on TCP / IP and XML. This boosts the exchange of PCB-relevant data between the various

machines in the electronics production lines. The Hermes Standard was initiated, developed and

established and is still managed by a group of leading equipment manufacturers, who share their

know-how to achieve a significant step towards advanced process integration. It has been recognized

by IPC as the next generation solution for IPC-SMEMA-9851, normally known as "SMEMA standard".

The founding and defining body The Hermes Standard Initiative is available to all equipment providers

wanting to actively participate in using the benefits of Industry 4.0 for their customers.