TA Instruments DHR Series Getting Started Manual page 12

Mount the Asphalt Submersion Cell on the rheometer using the Smart Swap connector, as shown below.
Water inlet
Pt 100 cable
Overflow
Figure 3 Asphalt Submersion Cell mounted on rheometer (DHR shown).
Make the following connections, referring to the diagrams for guidance. All tubing should be cut to length.
• The lower drain port on the Submersion Cell to the lower drain port on the solenoid box using the
6-mm tubing (blue) provided.
• The upper drain connector on the Submersion Cell to the upper drain port on the solenoid box using
the 6-mm tubing (blue) provided. Insert the in-line filter into the line, as shown in
• The water inlet port on the Submersion Cell to the fluid outlet port on the CCFC using the 4-mm tub-
ing (white) provided. It may be necessary to replace the connector on the CCFC with that provided.
The manual tap should be inserted into the line. This can be used to cut off the supply of water to the
cell in the event of overflow, but should otherwise be in the fully open position.
• The water outlet port on solenoid box to the fluid Inlet connector on the CCFC using the 6-mm tubing
(blue). It may be necessary to replace the connector on the CCFC with that provided.
• The overflow port on the Submersion Cell to a suitable container/drain using the 6-mm tubing (blue).
• The Event connection on the Solenoid box to the Event B connection on the rheometer rear using the
9-pin to Lemo cable provided.
• The RS232 auxiliary port on the Rheometer Electronics box to the SERIAL port on the CCFC using
the 9 to 9-pin RS232 cable provided.
• The Lemo connector on the Submersion Cell Pt100 cable to the Pt100 connection on the CCFC.
DHR/AR Series Asphalt Submersion Cell Getting Started Guide
In-line filter
Upper drain
Lower drain
Figure 4.
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