WIKA CTD9100 series Istruzioni per l'uso

Tipo
Istruzioni per l'uso
Operating instructions
Betriebsanleitung
Manuale d'uso
EN
DE
IT
Dry-well temperature calibrator, micro calibration bath, multi-function
calibrator, models CTD9100, CTB9100, CTM9100
Temperatur-Blockkalibrator, Mikrokalibrierbad, Multifunktionskalibrator,
Typen CTD9100, CTB9100, CTM9100
Calibratore di temperatura a secco, microbagno di calibrazione,
calibratore multifunzione, modelli CTD9100, CTB9100, CTM9100
Multi-function calibrator,
model CTM9100
Dry-well temperature calibrator,
CTD9100 series
Micro calibration bath,
CTB9100 series
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Operating instructions models CTD9100, CTB9100,
CTM9100
Page 3 - 50
Betriebsanleitung Typen CTD9100, CTB9100,
CTM9100
Seite 51 - 98
Manuale d’uso modelli CTD9100, CTB9100, CTM9100 Pagina 99 - 146
Further languages can be found at www.wika.com.
© 07/2012 WIKA Alexander Wiegand SE & Co. KG
All rights reserved. / Alle Rechte vorbehalten.
WIKA
®
is a registered trademark in various countries.
WIKA
®
ist eine geschützte Marke in verschiedenen Ländern.
Prior to starting any work, read the operating instructions!
Keep for later use!
Vor Beginn aller Arbeiten Betriebsanleitung lesen!
Zum späteren Gebrauch aufbewahren!
Prima di iniziare ad utilizzare lo strumento, leggere il manuale d‘uso!
Conservare per future consultazioni!
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Contents
Contents
1. General information 5
2. Short overview 5
2.1 Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
3. Safety 6
3.1 Explanation of symbols . . . . . . . . . . . . . . . . . . . . . . . . 6
3.2 Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
3.3 Scope of delivery . . . . . . . . . . . . . . . . . . . . . . . . . . 6
3.4 Intended use . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
3.5 Improper use. . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
3.6 Safety instructions for using calibration liquids . . . . . . . . . . . . . . . . 7
3.7 Personnel qualification . . . . . . . . . . . . . . . . . . . . . . . . 8
3.8 Personal protective equipment. . . . . . . . . . . . . . . . . . . . . . 8
3.9 Labelling, safety marks . . . . . . . . . . . . . . . . . . . . . . . . 9
4. Design and function 10
4.1 Overview of the different instrument models . . . . . . . . . . . . . . . . 10
4.2 Isometric views of the CTD9100 series dry-well temperature calibrators. . . . . . . 11
4.3 Isometric views of the CTB9100 series micro calibration baths . . . . . . . . . . 12
4.4 Isometric views of the model CTM9100-150 multi-function calibrator . . . . . . . . 13
4.5 Description of the operating elements . . . . . . . . . . . . . . . . . . 14
4.6 Data interface . . . . . . . . . . . . . . . . . . . . . . . . . . 15
4.7 Interface protocol . . . . . . . . . . . . . . . . . . . . . . . . . 15
4.8 Protective earth monitoring . . . . . . . . . . . . . . . . . . . . . . 15
5. Transport, packaging and storage 16
5.1 Transport . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
5.2 Packaging and storage . . . . . . . . . . . . . . . . . . . . . . . 16
6. Commissioning, operation 16
6.1 Operating position . . . . . . . . . . . . . . . . . . . . . . . . . 16
6.2 Inserts with metal block . . . . . . . . . . . . . . . . . . . . . . . 17
6.3 Preparation of the micro calibration bath . . . . . . . . . . . . . . . . . 17
6.3.1 Properties of the calibration liquid . . . . . . . . . . . . . . . . . 17
6.3.2 Filling the micro calibration bath . . . . . . . . . . . . . . . . . . 18
6.3.3 Operation of the magnetic stirrer . . . . . . . . . . . . . . . . . . 18
6.3.4 Insert for liquids . . . . . . . . . . . . . . . . . . . . . . . 18
6.4 Surface insert (only CTM9100-150) . . . . . . . . . . . . . . . . . . . 19
6.5 Infrared insert (only CTM9100-150) . . . . . . . . . . . . . . . . . . . 19
6.6 Testing of temperature sensors . . . . . . . . . . . . . . . . . . . . 20
6.7 Start-up procedure. . . . . . . . . . . . . . . . . . . . . . . . . 20
6.8 Switching on the calibrator/micro calibration bath . . . . . . . . . . . . . . 20
6.9 Reference and set temperature display . . . . . . . . . . . . . . . . . . 20
6.10 Control of the reference temperature . . . . . . . . . . . . . . . . . . 20
7. Operating elements of the calibrator/micro calibration bath 21
7.1 Selection of the operating modes for the CTM9100-150 . . . . . . . . . . . . 21
7.2 Method of operation in calibration mode within individual operating modes. . . . . . 21
7.3 Calibration (calibration mode) . . . . . . . . . . . . . . . . . . . . . 22
7.4 Setting a temporary set temperature (set-point mode) . . . . . . . . . . . . . 22
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7.5 Programming (Main menu) . . . . . . . . . . . . . . . . . . . . . . 23
7.5.1 Menu structure, parameter levels. . . . . . . . . . . . . . . . . . 24
7.5.2 Switching off automatic control . . . . . . . . . . . . . . . . . . 25
7.5.3 Switching on automatic control . . . . . . . . . . . . . . . . . . 25
7.5.4 Switching on manual control . . . . . . . . . . . . . . . . . . . 26
7.5.5 Switching off manual control . . . . . . . . . . . . . . . . . . . 26
7.5.6 Setting and storing fixed set temperatures . . . . . . . . . . . . . . 27
7.5.7 Recalling the stored set temperatures . . . . . . . . . . . . . . . . 28
7.5.8 Setting the ramp control and a temperature profile . . . . . . . . . . . . 28
8. Cooling down the metal blocks or micro calibration baths 32
9. Faults 33
10. Maintenance, cleaning and recalibration 34
10.1 Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . 34
10.2 Cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
10.2.1 Cleaning calibrators with inserts . . . . . . . . . . . . . . . . . . 34
10.2.2 Cleaning fan guards . . . . . . . . . . . . . . . . . . . . . . 34
10.2.3 Cleaning the micro calibration bath . . . . . . . . . . . . . . . . . 34
10.2.4 External cleaning . . . . . . . . . . . . . . . . . . . . . . . 34
10.3 Recalibration . . . . . . . . . . . . . . . . . . . . . . . . . . 34
11. Dismounting, return and disposal 35
11.1 Dismounting . . . . . . . . . . . . . . . . . . . . . . . . . . 35
11.2 Return . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
11.3 Disposal . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
12. Specifications 36
12.1 Dry-well temperature calibrator, CTD9100 series. . . . . . . . . . . . . . 36
12.2 Micro calibration bath, CTB9100 series . . . . . . . . . . . . . . . . . 38
12.3 Multi-function calibrator, model CTM9100-150 . . . . . . . . . . . . . . 40
13. Accessories 41
13.1 CTD9100 series . . . . . . . . . . . . . . . . . . . . . . . . . 41
13.2 CTB9100 series . . . . . . . . . . . . . . . . . . . . . . . . . 41
13.3 Model CTM9100-150 . . . . . . . . . . . . . . . . . . . . . . . 41
14. Heating and cooling times 42
14.1 Dry-well temperature calibrator, model CTD9100-COOL . . . . . . . . . . . 42
14.2 Dry-well temperature calibrator, model CTD9100-165 . . . . . . . . . . . . 42
14.3 Dry-well temperature calibrator, model CTD9100-165-X . . . . . . . . . . . 43
14.4 Dry-well temperature calibrator, model CTD9100-450 . . . . . . . . . . . . 43
14.5 Dry-well temperature calibrator, model CTD9100-650 . . . . . . . . . . . . 44
14.6 Micro calibration bath, model CTB9100-165 . . . . . . . . . . . . . . . 45
14.7 Micro calibration bath, model CTB9100-225 . . . . . . . . . . . . . . . 47
14.8 Model CTM9100-150 as a micro calibration bath. . . . . . . . . . . . . . 48
14.9 Model CTM9100-150 as dry-well temperature calibrator . . . . . . . . . . . 49
14.10 Model CTM9100-150 as an infrared black body source . . . . . . . . . . . 49
14.11 Model CTM9100-150 as surface temperature calibrator . . . . . . . . . . . 50
Declarations of conformity can be found online at www.wika.com.
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1. General information
1. General information / 2. Short overview
The calibrator or the micro calibration bath described
in the operating instructions has been designed and
manufactured using state-of-the-art technology.
All components are subject to stringent quality and
environmental criteria during production. Our management
systems are certified to ISO 9001 and ISO 14001.
These operating instructions contain important information
on handling the instrument. Working safely requires that all
safety instructions and work instructions are observed.
Observe the relevant local accident prevention regulations
and general safety regulations for the instrument’s range
of use.
The operating instructions are part of the product and
must be kept in the immediate vicinity of the instrument
and readily accessible to skilled personnel at any time.
Pass the operating instructions onto the next operator or
owner of the instrument.
Skilled personnel must have carefully read and
understood the operating instructions prior to beginning
any work.
The general terms and conditions contained in the sales
documentation shall apply.
Subject to technical modifications.
Factory calibrations / DKD/DAkkS calibrations are carried
out in accordance with international standards.
Further information:
- Internet address: www.wika.de / www.wika.com
- Relevant data sheet: CT 41.28
CT 41.40
CT 46.30
- Application consultant: Tel.: +49 9372 132-0
Fax: +49 9372 132-406
info@wika.de
2. Short overview
2.1 Overview
1
Temperature block
2
Controller
3
Handle
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3. Safety
3.1 Explanation of symbols
DANGER!
... indicates a directly dangerous situation
resulting in serious injury or death, if not avoided.
WARNING!
... indicates a potentially dangerous situation
that can result in serious injury or death, if not
avoided.
CAUTION!
... indicates a potentially dangerous situation
that can result in light injuries or damage to
equipment or the environment, if not avoided.
DANGER!
... identifies hazards caused by electric power.
Should the safety instructions not be observed,
there is a risk of serious or fatal injury.
WARNING!
... indicates a potentially dangerous situation that
can result in burns, caused by hot surfaces or
liquids, if not avoided.
Information
... points out useful tips, recommendations
and information for efficient and trouble-free
operation.
2. Short overview / 3. Safety
2.2 Description
The calibrator or micro calibration bath is a portable unit, for
service functions and also for industrial and laboratory tasks.
The temperature calibrators and micro calibration baths
from WIKA are provided for the calibration of thermometers,
temperature switches/thermostats, resistance thermometers
and thermocouples. The operational safety of the delivered
instruments is only assured if the equipment is employed for
its intended use (verification of temperature sensors). The
given limit values should never be exceeded (see chapter
12 “Specifications”).
The appropriate instrument should be selected depending on
the application; it should be connected correctly, tests carried
out and all components serviced.
The instrument is manufactured in different versions. The
individual version for any single unit can be found on the
nameplate on the calibrator/micro calibration bath.
2.3 Scope of delivery
The calibrators/micro calibration baths are delivered in
special protective packaging. The packaging must be set
aside so that the calibrator or the micro calibration bath can
be sent safely back to the manufacturer for recalibration or
repair.
Scope of delivery for the model CTD9100 dry-well
temperature calibrator
Calibrator
Insert replacement tools
Standard bored insert
Power cord
Calibration certificate
Operating instructions
Scope of delivery for the model CTB9100 micro
calibration bath
Micro calibration bath
Transport cover
Sensor basket
Magnetic stirrer
Magnetic lifter
Power cord
Calibration certificate
Operating instructions
Scope of delivery for the model CTM9100 multi-function
calibrator
Multi-function calibrator
Insert replacement tools (standard and surface)
Standard bored insert
Transport cover
Sensor basket
Magnetic stirrer
Magnetic lifter
Infrared insert
Surface insert
External reference sensor
Power cord
Calibration certificate
Operating instructions
Cross-check scope of delivery with delivery note.
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3.2 Intended use
The calibrator or micro calibration bath is a portable unit, for
service functions and also for industrial and laboratory tasks.
The temperature calibrators and micro calibration baths
from WIKA are provided for the calibration of thermometers,
temperature switches/thermostats, resistance thermometers
and thermocouples.
This instrument is not permitted to be used in hazardous
areas!
The instrument has been designed and built solely for
the intended use described here, and may only be used
accordingly.
The technical specifications contained in these operating
instructions must be observed. Improper handling or
operation of the instrument outside of its technical
specifications requires the instrument to be taken out of
service immediately and inspected by an authorised WIKA
service engineer.
Handle electronic precision measuring instruments with
the required care (protect from humidity, impacts, strong
magnetic fields, static electricity and extreme temperatures,
do not insert any objects into the instrument or its openings).
Plugs and sockets must be protected from contamination.
The manufacturer shall not be liable for claims of any type
based on operation contrary to the intended use.
3.3 Improper use
WARNING!
Injuries through improper use
Improper use of the instrument can lead to
hazardous situations and injuries.
Refrain from unauthorised modifications to
the instrument.
Do not use the instrument within hazardous
areas.
Only ever use the supplied mains cable.
Any use beyond or different to the intended use is considered
as improper use.
Special hazards
DANGER!
Danger of death caused by electric current
Upon contact with live parts, there is a direct
danger of death.
The instrument may only be installed and
mounted by skilled personnel.
Before replacing the fuse, cleaning,
maintenance/servicing and in the event of
danger, the calibrator or the micro calibration
bath must be disconnected by unplugging the
mains cable from the power supply outlet.
The mains socket must be freely accessible
at all times!
Thermal fuse
For safety, the calibrator or the micro calibration
bath is fitted with an independently-operating
temperature fuse, which cuts out the heater
power supply if the temperature inside the
enclosure is too high. Once the metal block and
the liquid bath have cooled down, send in the
calibrator or the micro calibration bath to WIKA
for examination.
The calibrator and the micro calibration bath
have been designed as measuring and control
instruments. With any operation of the calibrator/
micro calibration bath not expressly provided
for in these operating instructions, additional
protective measures must be taken.
Since a malfunction of the calibrator/micro
calibration bath can cause personal injury or
damage to property, the equipment must be
protected by additional electro-mechanical
safeguards.
3.4 Safety instructions for using calibration liquids
Calibration liquid, water
Only use distilled water, otherwise the calibrator
tank can become strongly scaled and soiled.
Collect spilled liquids immediately and dispose
of them properly.
3. Safety
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Calibration liquid, silicone oil
WARNING!
Hazardous substances silicone oils
Improper handling can result to poisoning or
personal injury.
Wear the requisite protective equipment (see
chapter 3.6 “Personal protective equipment”).
Observe the information in the material safety
data sheet for the corresponding medium.
Before working with silicone oil, read the
material data safety sheet. The current
material safety data sheet can be found at
www.wika.de on the respective product page.
Only use the silicone oil included within
the scope of supply or specified in these
operating instructions.
When working with silicone oil, sufficient
ventilation should be ensured in the room
since it can give off pollutants.
Since silicone oil is hygroscopic, after use,
always close the calibration bath using the
transport cover.
Before transporting with silicone oil, allow the
calibrator or micro calibration bath to cool. The
transport cover is fitted with a safety valve. If
the micro calibration bath is closed when it is
still warm, excessive pressure can build up.
In order to avoid overpressuring, which could
lead to damage to the liquid bath, the safety
valve is activated at a pressure of approx.
2.5 bar [36 psi]. This can lead to hot vapour
escaping.
WARNING!
Risk of burns!
Touching the hot metal block or micro calibration
bath, the hot bath liquids or the test item can
lead to acute burns.
Before transporting or touching the metal
block/liquid bath, make sure that it has cooled
down sufficiently.
Collect spilled liquids immediately and dispose
of them properly.
Wear safety goggles!
Do not allow silicone oil to come into contact with
the eyes.
Wear protective gloves!
Protect hands from friction, abrasion, cuts or
deep injuries and also from contact with hot
surfaces and aggressive media.
3.5 Personnel qualification
WARNING!
Risk of injury should qualification be
insufficient!
Improper handling can result in considerable
injury and damage to equipment.
The activities described in these operating
instructions may only be carried out by skilled
personnel who have the qualifications described
below.
Skilled personnel
Skilled personnel, authorised by the operator, are understood
to be personnel who, based on their technical training,
knowledge of measurement and control technology and
on their experience and knowledge of country-specific
regulations, current standards and directives, are capable
of carrying out the work described and independently
recognising potential hazards.
Special operating conditions require further appropriate
knowledge, e.g. of aggressive media.
3.6 Personal protective equipment
The personal protective equipment is designed to protect the
skilled personnel from hazards that could impair their safety
or health during work. When carrying out the various tasks
on and with the instrument, the skilled personnel must wear
personal protective equipment.
Follow the instructions, displayed in the work area,
regarding personal protective equipment!
The required personal protective equipment must be
provided by the operating company.
Wear safety goggles!
Protect eyes from flying particles and liquid
splashes.
Wear protective gloves!
Protect hands from friction, abrasion, cuts or
deep injuries and also from contact with hot
surfaces and aggressive media.
3. Safety
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3. Safety
3.7 Labelling, safety marks
Product label (example)
The product label is fixed on the rear of the instrument.
3
2
1
8
7
6
5
4
1
Year of manufacture
2
Fuse
3
Notes regarding the safety data sheet
4
Serial no.
5
Power supply
6
Temperature range
7
Model designation
8
Instrument designation
Explanation of symbols
Before mounting and commissioning the
instrument, ensure you read the operating
instructions!
Do not dispose of with household waste. Ensure
a proper disposal in accordance with national
regulations.
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Temperature calibrator, model CTD9100-165 Temperature calibrator, model CTD9100-650
Multi-function calibrator, model CTM9100-150Micro calibration bath, model CTB9100-165
4. Design and function
4. Design and function
4.1 Overview of the different instrument models
Temperature calibrators
CTD9100-COOL (cooling and heating)
CTD9100-165 (cooling and heating)
CTD9100-450 (heating)
CTD9100-650 (heating)
Micro calibration baths
CTB9100-165 (cooling and heating)
CTB9100-225 (heating)
Multi-function calibrator
CTM9100-150 (cooling and heating)
The calibrator and micro calibration bath consist of a robust,
grey-blue-painted steel enclosure, with a carrying handle on
top.
The rear part of the enclosure includes a metal block or
liquid bath with an opening for the test item, accessible from
the top.
The metal block/liquid bath incorporate the heating or cooling
elements and the temperature sensor for determining the
reference temperature.
The metal block and the liquid bath are thermally insulated.
The front part contains the complete electronic unit for
controlling the reference temperature.
Solid state relays (SSR) are used to control the heating and
cooling elements.
On the front panel is the controller, which is fitted with a
7-segment LED (2 rows of 4 digits) for the reference and set
temperature.
The micro calibration bath has an additional knob for
controlling the stirring speed.
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4. Design and function
4.2 Isometric views of the CTD9100 series dry-well temperature calibrators
Front and top of the model CTD9100
On the top of the dry-well temperature calibrator, you will find
the dry well access opening for inserting the inserts.
CTD9100-COOL: Ø 28 x 150 mm [Ø 1.10 x 5.91 in]
CTD9100-165: Ø 28 x 150 mm [Ø 1.10 x 5.91 in]
CTD9100-165-X: Ø 60 x 150 mm [Ø 2.36 x 5.91 in]
CTD9100-450: Ø 60 x 150 mm [Ø 2.36 x 5.91 in]
CTD9100-650: Ø 28 x 150 mm [Ø 1.10 x 5.91 in]
The controller, with display and controls, is located on the
front of the calibrator.
Rear of the instrument
On the rear of the equipment is the product label with the key
information about the particular model.
CTD9100-COOL: -55 ... +200 °C [-67 ... +392 °F]
CTD9100-165: -35 ... +165 °C [-31 ... +329 °F]
CTD9100-450: 40 ... 450 °C [104 ... 842 °F]
CTD9100-650: 40 ... 650 °C [104 ... 1.202 °F]
The correct mains voltage and frequency is also given.
AC 100 ... 240 V, 50 ... 60 Hz
AC 115 V, 50 ... 60 Hz
AC 230 V, 50 ... 60 Hz
Furthermore, the individual serial number
(e.g. S/N 550 33 44) as well as the mains voltage and the
fuse rating is given.
You will also find the connector for the RS-485 interface here.
Underside of the instrument
On the underside of the instrument are the mains connection
socket and the power switch with its fuse-holder.
These are located in the centre, at the front. Furthermore,
depending on the model, there are one or two air intakes
located on the underside of the instrument.
The air intakes must not be obstructed in any way.
1
Temperature block
2
Controller
3
Handle
4
Product label
5
RS-485 interface
6
Fan 1
7
Fan 2
8
Mains connection socket with power switch
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4. Design and function
4.3 Isometric views of the CTB9100 series micro calibration baths
Front and top of the model CTB9100
On the top of the micro calibration bath are the block opening
for filling Ø 60 x 150 mm [Ø 2.36 x 5.91 in].
The controller, with display and controls, is located on the
front of the calibrator.
Rear of the instrument
On the rear of the equipment is the product label with the key
information about the particular model.
Furthermore, the individual serial number
(e.g. S/N 550 33 44) as well as the mains voltage and the
fuse rating is given.
You will also find the connector for the RS-485 interface here.
Underside of the instrument
On the underside of the instrument are the mains connection
socket and the power switch with its fuse-holder.
These are located in the centre, at the front. Furthermore,
depending on the model, there are one or two air intakes
located on the underside of the instrument.
The air intakes must not be obstructed in any way.
1
Temperature block
2
Controller
3
Handle
4
Product label
5
RS-485 interface
6
Fan 1
7
Fan 2
8
Mains connection socket with power switch
9
Controller for the stirrer
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3
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4. Design and function
4.4 Isometric views of the model CTM9100-150 multi-function calibrator
Front and top of the model CTM9100-150
On the top of the multi-function calibrator, you will find the dry
well access opening for inserting the different inserts or filling
Ø 60 x 150 mm [Ø 2.36 x 5.91 in].
The controller, with display and control elements, is located
on the front of the calibrator. In addition, the control elements
for the external reference are placed on the front.
Rear of the instrument
On the rear of the equipment is the product label with the key
information about the particular model.
Furthermore, the individual serial number
(e.g. S/N 550 33 44) as well as the mains voltage and the
fuse rating is given.
You will also find the connector for the RS-485 interface here.
Underside of the instrument
On the underside of the instrument are the mains connection
socket and the power switch with its fuse-holder.
These are located in the centre, at the front. Furthermore,
there are two air intakes located on the underside of the
instrument.
The air intakes must not be obstructed in any way.
1
Temperature block
2
Controller
3
Handle
4
Product label
5
RS-485 interface
6
Fan 1
7
Fan 2
8
Mains connection socket with power switch
9
Controller for the stirrer
10
Switch for ext. reference
11
Socket for ext. reference
14 WIKA operating instructions, models CTD9100, CTB9100, CTM9100
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4. Design and function
4.5 Description of the operating elements
Front of the controller
Overview of the operating elements on the front of the controller
1
2
34
5
6
7 8 9
1
Button [▲]
Increasing value being set
Selection of individual menu item
Go back up one menu level
2
Button [▼]
Reduction of value being set
Selection of individual menu item
Go back up one menu level
3
Button [P]
Access to the set temperature adjustment
Access to the menu items and parameters
Input confirmation
4
LED SET
Flashing signals access to the individual menu items
and parameters
5
SV display
Set temperature display
Display of particular parameters in the individual
modes and the menu options
6
PV display
Indication of the current reference temperature
Display of the individual modes, menu items and the
parameters
7
LED OUT 2
a) Heating instrument
Signals the status of the outputs for the fan control
If LED OUT 2 is on, the fan is running at higher
speed
If LED OUT 2 is not on, the fan is running at lower
speed
b) Heating and cooling instrument
Signals the status of the outputs for the temperature
control
If LED OUT 1 is on, the calibrator or the micro
calibration bath is cooling
If LED OUT 1 is not on, the calibrator or the micro
calibration bath is not cooling
8
LED OUT 1
Signals the status of the outputs for the temperature
control
If LED OUT 1 is on, the calibrator or the micro
calibration bath is heating
If LED OUT 1 is not on, the calibrator or the micro
calibration bath is not heating
9
Button [U]
Recall the stored set temperatures
Further definitions
[XXX] Press XXX button
XXX Menu XXX will be displayed
15WIKA operating instructions, models CTD9100, CTB9100, CTM9100
11263911.05 03/2019 EN/DE/IT
EN
4. Design and function
4.6 Data interface
The instruments are fitted with an RS-485 communications
interface. Via this interface one can connect to a PC, level
converter or a network.
The software protocol used is a MODBUS-RTU protocol,
which is used in may monitoring programs available on the
market.
The transmission speed (baud rate) is factory set to 9,600
baud. Upon request, other data transmission rates are
possible.
The 5-pin socket has two pins, A and B, that you connect to
the corresponding connections on the PC, level converter or
network.
Plan view of the 5-pin panel socket
To connect to a PC, the RS-485 signal must be externally
converted to an RS-232 or USB signal. The appropriate
converter, including drivers, is available as an option.
The computer records all operational data and allows
programming of all calibrator configuration parameters.
The minimum requirements for operation with a USB
converter are:
IBM compatible PC
Installed operating system, Microsoft
®
Windows
®
98 SE,
ME, 2000, XP (Home or Prof.) or 7
A USB interface (USB 1.1 or USB 2.0)
A network connection enables the connection of up to 32
calibrators/micro-baths on the same network.
To connect to a network, some factory setting is required. For
this, please contact the supplier or WIKA directly.
For access to the programming via the keypad
while the serial interface is communicating, the
message “buSy” appears on the display, and
therefore indicates that it is in an “occupied”
state.
4.7 Interface protocol
The interface protocol is available on request for delivery as a
specific additional document.
4.8 Protective earth monitoring
The calibrator is fitted with a protective earth
monitor to keep a check on the base isolation
of the heater. The monitoring unit works
independently of the normal controls and
switches off the heating power supply as soon as
the calibrator no longer has a connection to the
protective earth system of the isolation.
Once reconnected to the protective earth
system, the monitoring unit automatically
switches the power supply back on to the
heating circuit.
16 WIKA operating instructions, models CTD9100, CTB9100, CTM9100
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EN
6. Commissioning, operation
5. Transport, packaging and storage
5.1 Transport
Check the calibrator or the micro calibration bath for any
damage that may have been caused by transport.
Obvious damage must be reported immediately.
CAUTION!
Damage through improper transport
With improper transport, a high level of damage
to property can occur.
When unloading packed goods upon delivery
as well as during internal transport, proceed
carefully and observe the symbols on the
packaging.
With internal transport, observe the
instructions in chapter 5.2 “Packaging and
storage”.
If the instrument is transported from a cold into a warm
environment, the formation of condensation may result
in instrument malfunction. Before putting it back into
operation, wait for the instrument temperature and the room
temperature to equalise.
5.2 Packaging and storage
Do not remove packaging until just before mounting.
Keep the packaging as it will provide optimum protection
during transport (e.g. change in installation site, sending for
repair).
Permissible conditions at the place of storage:
Storage temperature: -10 ... +60 °C [14 ... 140 °F]
Humidity: 30 ... 95 % relative humidity (no condensation)
Avoid exposure to the following factors:
Direct sunlight or proximity to hot objects
Mechanical vibration, mechanical shock (putting it down
hard)
Soot, vapour, dust and corrosive gases
Potentially explosive environments, flammable
atmospheres
Store the calibrator or the micro calibration bath in its original
packaging in a location that fulfils the conditions listed above.
4. Design and function / 5. Transport, packaging and storage
Personnel: Skilled personnel
Protective equipment: Protective gloves and safety goggles
Only use original parts (see chapter 13 “Accessories”).
WARNING!
Physical injuries and damage to property
and the environment caused by hazardous
media
Upon contact with hazardous media (e.g.
oxygen, acetylene, flammable or toxic
substances), harmful media (e.g. corrosive,
toxic, carcinogenic, radioactive), and also with
refrigeration plants and compressors, there is
a danger of physical injuries and damage to
property and the environment.
Should a failure occur, aggressive media and/
or with high temperature may be present at the
instrument.
For these media, in addition to all standard
regulations, the appropriate existing codes or
regulations must also be followed.
Wear the requisite protective equipment (see
chapter 3.6 “Personal protective equipment”).
6.1 Operating position
The operating position of the calibrator or the micro
calibration bath is in the vertical orientation, since this
guarantees an optimal temperature distribution in the metal
block or liquid bath.
Voltage supply
DANGER!
Danger to life caused by electric current
Upon contact with live parts, there is a direct
danger to life.
Only ever use the supplied mains cable.
The voltage supply of the instrument is made via the power
cable. This is included in the scope of delivery.
17WIKA operating instructions, models CTD9100, CTB9100, CTM9100
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6. Commissioning, operation
6.2 Inserts with metal block
In order to achieve the greatest possible accuracy, the use
of exactly matched inserts is necessary. For this, diameter of
the specimen must be accurately determined. The bore for
the insert is obtained by adding +0.5 mm [+0.02 in].
Inserts
Following use, the inserts should be removed
using the replacement tools and then the sleeve
and block should be cleaned. This prevents the
sleeves becoming jammed in the heating block.
6.3 Preparation of the micro calibration bath
In order to achieve the highest possible accuracy for a
micro calibration bath, it should be filled with an appropriate
calibration liquid.
6.3.1 Properties of the calibration liquid
Different calibration liquids, due to their specific properties,
deliver varying calibration results. A compensation to the
calibration liquid used in each case should, if necessary, be
performed by the manufacturer at the factory.
Recommended calibration liquids for the different
temperature ranges:
Water as a calibration liquid
Only use distilled or demineralised water, otherwise the
calibrator tank can become strongly scaled and soiled.
Silicone oil as a calibration liquid
Only use the silicone oil recommended here.
When working with silicone oil, sufficient ventilation should
be ensured in the room since it can give off pollutants.
Since silicone oil is hygroscopic, after use, always close
the calibration bath using the transport cover.
Only use clean calibration liquids. The
checking of temperature sensors and other
temperature measuring devices may lead to the
contamination of the calibration liquid. These
contaminants, through the rotational movement
of the magnetic stirrer, may cause an abrasive
effect on the bottom tank.
Wear safety goggles!
Do not allow silicone oil to come into contact with
the eyes.
Wear protective gloves!
Protect hands from friction, abrasion, cuts or
deep injuries and also from contact with hot
surfaces and aggressive media.
Clean the tank
Before calibration, clean the sensors
Replace the worn magnetic stirrer
Replace the contaminated, cloudy calibration liquid
Medium Calibration range Flash point
Distilled water 5 ... 90 °C [51 ... 194 °F] none
Dow Corning 200 Fluid with 5 CS -40 ... +123 °C [-40 ... +253 °F] 133 °C [271 °F]
Dow Corning 200 Fluid with 10 CS -35 ... +155 °C [-31 ... +311 °F] 163 °C [325 °F]
Dow Corning 200 Fluid with 20 CS 7 ... 220 °C [45 ... 428 °F] 232 °C [450 °F]
Dow Corning 200 Fluid with 50 CS 25 ... 270 °C [77 ... 518 °F] 280 °C [536 °F]
18 WIKA operating instructions, models CTD9100, CTB9100, CTM9100
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6. Commissioning, operation
6.3.2 Filling the micro calibration bath
1. Firstly, remove the transport cover.
2. Place the test item in the sensor basket.
3. Fill the tank with calibration liquid.
Following maximum filling heights are recommended:
Calibrator model max. filling height
CTB9100-165 / CTM9100-150 130 mm [5.12 in]
CTB9100-165 / CTM9100-150
with removable insert
110 mm [4.33 in]
CTB9100-225 123 mm [4.84 in]
CTB9100-225 with removable insert 105 mm [4.13 in]
CTB9100-225-X 115 mm [4.53 in]
CTB9100-225-X with removable insert 95 mm [3.74 in]
Following points should be observed at the maximum
filling heights:
Measured from the bottom of the sensor basket
Non loaded tank
WIKA standard filling liquid
Pre-filling ex-works with the optimal height
The transport cover is fitted with a safety valve.
If the micro calibration bath is closed when it is
still warm, excessive pressure can build up. In
order to avoid overpressuring, which could lead
to damage to the liquid bath, the safety valve
is activated at a pressure of approx. 2.5 bar
[36 psi]. This can lead to hot vapour escaping.
6.3.3 Operation of the magnetic stirrer
The greatest possible homogeneity is achieved by the
agitation of the calibration liquid via a magnetic stirrer.
Set the stirring speed to the maximum possible. Turning the
wheel upwards will increase the speed, turning it downwards
slows down the stirring speed.
Front of the controller with stirrer-speed dial
The magnetic stirrer is a
consumable.
Liquid bath
6.3.4 Insert for liquids
The insert for liquids consists of:
Insert with leak-proof cover
Sensor basket
Magnetic stirrer and lifter
Replacement tools
Insert for liquids
WARNING!
Risk of burns!
Hot liquids can lead to acute burns
The insert for liquids must only be removed if
the calibrator is used at room temperature.
The fill level must be matched the relevant
medium and the temperature.
If the insert for liquids is ordered with a new
model CTB9100 micro calibration bath or a new
model CTM9100 multi-function calibrator, the
instrument will have been matched to the insert
for liquids.
Should the insert for liquids be ordered
afterwards, a re-adjustment of the instrument at
the customer’s will be needed.
19WIKA operating instructions, models CTD9100, CTB9100, CTM9100
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EN
6. Commissioning, operation
6.4 Surface insert (only CTM9100-150)
The operation of the calibrator with the surface insert is
suited to a simple and the most accurate calibration possible
of surface probes.
Fit the insert, which is hollow and long from the bottom, into
the block using a special replacement tool.
The sleeve also has three bores (1 x 3 mm, 1 x 3.1 mm and
1 x 4 mm [1 x 0.12 in, 1 x 0.12 in and 1 x 0.16 in]) directly
under the surface, so that the correct surface temperature
can be controlled at all times.
Following use, the inserts should be removed using the
specific replacement tools and then the sleeve and block
should be cleaned. This prevents the sleeves becoming
jammed in the heating block.
The calibration of surface thermometers is very
difficult and not fully defined. Thermometers
mounted on surfaces dissipate heat from
the surface and create a cold zone on the
surface being measured. In the multi-function
calibrators, the calibration temperature is created
in a specially designed surface insert and an
external reference thermometer measures the
temperature directly under the surface. The
reference thermometer also determines the
temperature of the cold zone through integration
of the temperature along the sensitive length of
the reference thermometer and thus provides
a true temperature calibration of surface
temperature sensors.
The sleeve is designed so that the supplied
external reference provides the best possible
result, since the depth of the bore is adjusted
to the sensitive length. If a separate external
reference is used for comparison calibration,
ensure that the sensitive length is known and it
lies in the centre of the calibration surface.
Surface insert
6.5 Infrared insert (only CTM9100-150)
The operation of the calibrator with the infrared insert is
suited to a quick and simple calibration of non-contact
thermometers.
Fit the hollow and specially-designed insert into the
block using a special replacement tool. The sleeve also
has two bores in the edge (1 x 3.5 mm and 1 x 4.5 mm
[1 x 0.14 in and 1 x 0.18 in]) for the accurate monitoring of the
temperature.
The design and surface finish of the sleeve is important, in
order that a defined emissivity of 1 is achieved.
Following use, the inserts should be removed using the
specific replacement tools and then the sleeve and block
should be cleaned. This prevents the sleeves becoming
jammed in the heating block.
With temperatures of < 0 °C [< 32 °F] and higher
air humidity, ice or dew can form in the insert.
This can falsify the calibration. By capping the
measurement opening, the ice or dew formation
can be strongly reduced.
Leave the measurement opening closed as
long as possible
Open the measurement opening for a short
while for the measurement
Remove any ice or dew present by heating
Insert for infrared measurements
20 WIKA operating instructions, models CTD9100, CTB9100, CTM9100
11263911.05 03/2019 EN/DE/IT
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6.6 Testing of temperature sensors
To test temperature sensors, connect a separate
temperature-measuring instrument to the test item. By
comparing the temperature displayed on the external
measuring instrument with the reference temperature,
there is evidence of the status of the test item. This ensured
that the test item requires a short time until it reaches the
temperature of the metal block or liquid bath.
There is no possibility for calibrating earthed
thermocouples, since the heating block is
earthed and this would therefore lead to false
measurement results.
6.7 Start-up procedure
If the calibrator is not used for a long time, because of the
materials used (magnesium oxide), moisture can penetrate
the heating elements.
Following transport or storage of the calibrator in moist
environments, the heating elements must be taken to higher
temperatures slowly.
During the drying process,it should be assumed that the
calibrator has not yet reached the required insulation voltage
for protection class I. The start-up set point is T
anf
= 120 °C
[248 °F] with a holding time of T
n
= 15 min.
6.8 Switching on the calibrator/micro calibration bath
1. Connect to the mains using the mains connector supplied.
2. Switch on the mains switch.
The controller will be initialised.
The upper PV display will show tEst.
In the lower SV display, the version number (e.g. rL 2.2) will
be shown.
After approx. 5 secs, the initialisation will be complete and
the calibration mode will automatically be displayed.
The built-in heating or cooling elements will temper the metal
block automatically from room temperature to the controller’s
set temperature.
6.9 Reference and set temperature display
Upper PV display:
The red 4-digit, 7-segment display shows the current
temperature of the metal block or liquid bath.
Lower SV display:
The green, 4-digit, 7-segment display shows the current set
temperature of the metal block or the liquid bath.
Once the set temperature has been reached, through short
switch impulses, the radiated heating energy from the metal
block or liquid bath is delivered, so that the temperature
within remains constant.
Reference and set temperature display
6.10 Control of the reference temperature
The red LED OUT 1 indicates that the heater is turned on.
Display with LED OUT 1
During the heating phase a steady light indicates that heating
energy is being supplied. A flashing LED indicates that the
reference temperature (set temperature) has almost been
reached and therefore the heating energy is only being
supplied in short bursts.
Control achieved via PID algorithm
To ensure good temperature stability, the cycle time of the
controller is set low and the control output is usually raised.
6. Commissioning, operation
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WIKA CTD9100 series Istruzioni per l'uso

Tipo
Istruzioni per l'uso