Operator`s manual
Table Of Contents
- Contents
- Figures
- Tables
- Safety
- Introduction
- Setting Up the 708-DS / 709-DS
- Operating the 708-DS / 709-DS
- Main Screen - Options
- Main Screen - Display Parameters
- Main Screen - Sample Temperatures
- Main Screen - Run
- Main Screen - Stop
- Main Screen - Drive Unit Up / Down
- Manual Drive Unit Up / Down
- Manual Sampling
- Main Screen - Manifold Up / Down
- Main Screen - Lock
- Main Screen - Unlock
- Main Screen - Remote Control
- Main Screen - Alarms
- Main Screen - Maintenance Due Icon
- Menu Screen - System Menu
- General 708-DS / 709-DS Conventions
- Agilent 708-DS / 709-DS Notifications
- Main Screen - Options
- Maintenance and Troubleshooting
- Index

Maintenance and Troubleshooting 5
708-DS / 709-DS Operator’s Manual 119
• Please store baskets properly between uses. Do not simply place
these baskets in a drawer. They will be subject to nicks, chips, and
scratches as they bump against each other and they may get bent out
of shape. Place them back into the original shipping container or
other appropriate container between uses. This will prevent them
from coming into contact with each other or anything else in the
storage area.
Rinsing Sample Lines
If the Agilent 708-DS / 709-DS is configured with a sampling manifold,
the sample lines require a routine rinsing after each test. A rinse tubing
kit (17-1341) or rinse tray is provided to conveniently flush the sample
tubing.
Rinse Tubing Kit
1 Attach one end of the lines of the rinse tubing kit to the sample
cannulas and place the other in a container of an appropriate rinsing
solution.
2 Activate the pumping mechanism to properly flush the tubing lines.
Rinse Tray
1 Raise the drive unit of the 708-DS / 709-DS to its maximum height.
2 Push each shaft up to provide clearance for the rinse tray.
3 Fill the rinse tray with the desired cleaning solution.
4 Position the rinse tray on the vessel plate so that each sample cannula
is above the tray.
5 Lower the sampling manifold.
NOTE
Do not rotate the shafts with the shafts pushed up. This could cause
damage to the cannulas / probes on the sampling manifold.