Hach ORBISPHERE 6110 Uživatelský manuál

DOC024.98.93009

ORBISPHERE Model

6110 Package Analyzer V3

04/2015, Edition 5

Basic User Manual

Allgemeines Benutzerhandbuch

Manuale dell'utente di base

Manuel d'utilisation de base

Manual básico del usuario

Manual Básico do Usuário

基本用户手册

基本取扱説明書

Základní uživatelská příručka

Basisgebruikershandleiding

Podstawowa instrukcja obsługi

Основно ръководство за потребителя

Alapvető felhasználói kézikönyv

manual fundamental de utilizare

Temel Kullanıcı Kılavuzu

English..............................................................................................................................3

Deutsch.......................................................................................................................... 27

Italiano............................................................................................................................ 53

Français......................................................................................................................... 77

Español........................................................................................................................ 102

Português.................................................................................................................... 127

中文............................................................................................................................... 152

日本語........................................................................................................................... 172

Čeština......................................................................................................................... 196

Nederlands................................................................................................................. 220

Polski............................................................................................................................ 245

български................................................................................................................... 271

Magyar......................................................................................................................... 297

Română....................................................................................................................... 322

Türkçe...........................................................................................................................347

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Table of contents

Specifications on page 3 Calibration on page 15

General information on page 4 Measurement process on page 17

Installation on page 5 Analysis on page 18

User interface on page 8 Maintenance on page 19

Configuration on page 9 Troubleshooting on page 23

Additional information

Additional information is available on the manufacturer's website.

Specifications

Specifications are subject to change without notice

Specification Details

Measurement range O

2

1 ppb - 12 ppm

CO

2

0.75 - 5 V/V or 1.5 - 10 g/kg

Repeatability r

95

Total Package Oxygen ± 5 μg/L ± 10% whichever is the greater

CO

2

on equilibrated packages at T =

10 to 25°C (50 to 77°F)

± 0.05 V/V or 0.10 g/kg ± 2% whichever is

the greater

O

2

± 2 ppb ± 10% whichever is the greater

Typical analysis time About 4 minutes

Display units O

2

concentration ppb or ppm

CO

2

concentration V/V, g/kg, g/L or %W

Pressure bar, mbar, psia

Temperature °C, °F or K

Operating limits Package temperature -2 to 30°C (28 to 86°F)

Package pressure 1.4 to 6.8 bar absolute (20 - 99 psia)

Ambient temperature 0 to 40°C (32 to 104°F)

Relative humidity Up to 80%

Package setup Maximum package height 340 mm (13.39 ins)

Minimum package height 90 mm (3.54 ins)

Minimum volume 150 ml

Material Glass, PET or aluminum

Dimensions (L x W x H) 537 x 540 x 942 mm (21.1 x 21.3 x 37.1 ins)

Weight 55 kg (121 lbs)

Enclosure protection IP20

Power requirements 100-240 VAC ±10% @ 50-60 Hz

Power consumption Max. 250 VA

Purge gas CO

2

with purity > 99.9% at 6 to 7 bar absolute (87 to 102 psia)

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Specification Details

Purge gas consumption 0.4 mL/second (1.5 L/hour)

Forcing gas Air or N

2

at 5.5 to 6 bar absolute (80 to 87 psia)

Forcing gas consumption 0.25 mL/minute in standby mode

European directives Low voltage 2006/95/EC

EMC 2004/108/EC

EMC standards EN 61326: 2006

EMC requirements This product is intended to be used in a domestic or basic electromagnetic

environment

Safety standard IEC/UL/CSA 61010-1

Laser product safety IEC/UL/CSA 60825-1

International standards cETLus

Digital display TFT VGA (640 x 480) color display touch screen with backlight

General information

In no event will the manufacturer be liable for direct, indirect, special, incidental or consequential

damages resulting from any defect or omission in this manual. The manufacturer reserves the right to

make changes in this manual and the products it describes at any time, without notice or obligation.

Revised editions are found on the manufacturer’s website.

Safety information

N O T I C E

The manufacturer is not responsible for any damages due to misapplication or misuse of this product including,

without limitation, direct, incidental and consequential damages, and disclaims such damages to the full extent

permitted under applicable law. The user is solely responsible to identify critical application risks and install

appropriate mechanisms to protect processes during a possible equipment malfunction.

Please read this entire manual before unpacking, setting up or operating this equipment. Pay

attention to all danger and caution statements. Failure to do so could result in serious injury to the

operator or damage to the equipment.

Make sure that the protection provided by this equipment is not impaired. Do not use or install this

equipment in any manner other than that specified in this manual.

Use of hazard information

D A N G E R

Indicates a potentially or imminently hazardous situation which, if not avoided, will result in death or serious injury.

W A R N I N G

Indicates a potentially or imminently hazardous situation which, if not avoided, could result in death or serious

injury.

C A U T I O N

Indicates a potentially hazardous situation that may result in minor or moderate injury.

N O T I C E

Indicates a situation which, if not avoided, may cause damage to the instrument. Information that requires special

emphasis.

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Precautionary labels

Read all labels and tags attached to the product. Personal injury or damage to the product could

occur if not observed. A symbol on the instrument is referenced in the manual with a precautionary

statement.

This symbol, when noted on a product, indicates a potential hazard which could cause serious

personal injury and/or death. The user should reference this instruction manual for operation and/or

safety information.

This symbol, when noted on a product enclosure or barrier, indicates that a risk of electrical shock

and/or electrocution exists and indicates that only individuals qualified to work with hazardous

voltages should open the enclosure or remove the barrier.

This symbol, when noted on the product, indicates the presence of devices sensitive to electrostatic

discharge and indicates that care must be taken to prevent damage to them.

This symbol, when noted on a product, indicates the instrument is connected to alternate current.

Electrical equipment marked with this symbol may not be disposed of in European domestic or

public disposal systems. Return old or end-of-life equipment to the manufacturer for disposal at no

charge to the user.

Products marked with this symbol indicates that the product contains toxic or hazardous substances

or elements. The number inside the symbol indicates the environmental protection use period in

years.

Use of antifoam

Antifoam is injected into the sample as part of the measurement process. Once a sample has

completed the measurement process it will therefore contain a small amount of antifoam. After

measurement, ensure the sample is disposed of in a sink (or similar) to avoid any risk of ingestion.

Class 1 laser

A Class 1 laser is installed in this instrument. Class 1 lasers are products where the radiant power of

the laser beam accessible (the accessible emission) is always below the Maximum Permissible

Exposure value. Therefore, for Class 1 lasers the output power is below the level at which it is

believed eye damage will occur. Exposure to the beam of a Class 1 laser will not result in eye injury.

Class 1 lasers may therefore be considered safe. However, Class 1 laser products may contain laser

systems of a higher class but there are adequate engineering control measures to ensure that

access to the beam is not reasonably likely. This Class 1 laser product complies with 21 CFR

Chapter 1, subchapter J. It is evaluated and tested in accordance with EN 61010-1, Safety

Requirements for Electrical Equipment for Measurement and Control and Laboratory Use and

IEC/EN 60825-1, Safety of Laser Products.

Installation

W A R N I N G

This section provides necessary information to install and connect the analyzer. The installation of the analyzer

should be performed in accordance with relevant local regulations, and only by personnel trained and

experienced in the installation of the 6110 analyzer. Disconnect the power supply of the analyzer before carrying

out any work inside the analyzer. Any work inside the analyzer should be performed exclusively by personnel

specialized and authorized to work on electrical installations. In addition, and in accordance with safety standards,

it must be possible to disconnect the power supply of the analyzer in its immediate vicinity.

W A R N I N G

Electrical danger and fire hazard. Only qualified experts may perform the tasks detailed in the installation section

of this manual, while adhering to all locally valid safety regulations.

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C A U T I O N

Risk of finger trapping. A silicon insert is located on the transparent front door to assist in lifting and lowering the

door when adding or removing packages for analysis. Under no circumstances must this silicon insert be

removed.

C A U T I O N

The instrument is heavy (55 kg) so extreme care must be taken when handling, to avoid damaging the instrument

or inflicting personal injury. It is highly recommended to use a pulley system (or similar) attached to the lifting

ring located on the top of the instrument when unpacking or moving it.

N O T I C E

This is a class A product. There may be potential difficulties in ensuring electromagnetic compatibility in other

environments, due to conducted as well as radiated disturbances. In a domestic environment this product may

cause radio interference in which case the user may be required to take adequate measures.

N O T I C E

Proper ESD (electrostatic discharge) protocols must be followed to prevent damage to the product when working

with the electronic boards.

N O T I C E

Measurement variations of approximately 10% on CO

2

values can occur in the 80 MHz to 1 GHz band. Although

this variation is unlikely to occur at customer installations, user care must be taken in the routing of the instrument

power line to avoid ambient field interference.

Positioning

C A U T I O N

The instrument is heavy (55 kg) so extreme care must be taken with handling to avoid damaging the instrument or

inflicting personal injury.

Hach Lange recommends installing the instrument on a sturdy laboratory table that can more than

support the 55kg weight. Place it on a clean flat surface, and convenient to the power source. The

display screen should be at head-height for easy viewing and operation.

Pre-installation

1. Make sure you have suitable standards available before performing any calibration.

2. Make sure you have the following available:

Purge gas for O

2

and CO

2

sensor (CO

2

) 6 to 7 bar (87 to 102 psia), purity > 99.9%

Forcing gas for piercing device (Air or N

2

) 5.5 to 6 bar (80 to 87 psia)

Reference gas for CO

2

sensor (optional) 5.5 to 6 bar (80 to 87 psia)

Instructions for connecting these gas supplies to the instrument are described in the installation

wizard that will start automatically once power is connected to the instrument for the first time

(refer to Physical installation on page 6).

3. Make sure that the A1100 sensor recharge kit (supplied with the instrument) is available. A new

cartridge is included in the kit and must be installed on the sensor prior to first use. Instructions

for cartridge replacement are described in the installation wizard that will start automatically once

power is connected to the instrument for the first time (refer to Physical installation on page 6).

Physical installation

1. Connect the instrument to a power source (see Power supply on page 7).

2. Turn the instrument ON. An instrument auto check routine will start automatically. As this is the

first time the instrument will have been powered up, the O2 sensor residual LED will always be

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English

red. This is normal as the system has not yet been fully commissioned and this can be ignored at

this stage.

3. The installation wizard will start automatically. The wizard will take you through the process of

connecting all the gas inputs, filling the antifoam cartridge (refer also to Antifoam cartridge

preparation on page 20), EC sensor cartridge replacement, antifoam pump maintenance and

the instrument auto-check (refer also to Instrument auto check on page 8).

Post-installation

1. The instrument has been delivered with English as the default language. However, a USB

memory stick is supplied with other available languages (German, Spanish, Chinese, and

Japanese). If you wish to keep English as the preferred language please proceed to the next step

(Step 2 below), otherwise follow these instructions for installing a new language:

• Set the instrument power to OFF.

• Insert the supplied USB memory stick into the USB port on the instrument.

• Set the instrument power to ON.

• Follow the on-screen instructions to install the preferred language.

• Remove the USB memory stick and restart the instrument.

2. Set the security levels, user ID’s and passwords as described in Security and user management

on page 13.

3. Configure the instrument parameters as described in Configuration on page 9.

4. Perform a barometric sensor calibration as described in Barometric pressure sensor

on page 16.

5. Perform an O

2

sensor calibration as described in Oxygen sensor on page 17. Wait until the

residual value of the sensor is low enough (controlled automatically by the instrument). This

operation may take around 1-2 hours depending on storage conditions.

Note: The other sensors are more stable and will not require calibration prior to use.

Power supply

W A R N I N G

A power cable can be ordered with the instrument and this cable must be used to connect the instrument to the

power supply. If no power cable was ordered, please contact your Hach Lange representative for cable

specifications. Inadequately dimensioned power cables must not be used.

C A U T I O N

Check voltage requirement sticker on the rear panel of the instrument before connecting (100-240 VAC).

Connect the power cable to the socket at the rear of the instrument (left in diagram) for AC

power connection. To switch the instrument on and off, press the rocker switch (right in the

diagram) - I for On and O for Off.

Note: For optimum performance always keep the gas and power supplies to the instrument switched on.

Emergency STOP button

The red STOP button is located on the right side of the instrument. Should the need arise to stop the

machine at any time during operation, press this button. An audible click can be heard as the button

locks in position. The instrument should then be disconnected from the power supply. Once

disconnected, unlock the button by turning it clockwise. The instrument can then be reconnected to

the power supply and restarted.

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User interface

Switching ON and OFF

The instrument has a power switch located at the rear of the left side of the base. The LED on the

instrument measurement start button is illuminated when the instrument is powered ON.

Note: It is recommended to keep the instrument powered ON at all times, unless the instrument is to be moved to

another location, if it will not be used for a long period of time, or if maintenance procedures need to be carried out

inside the instrument.

Instrument auto check

When the instrument is powered ON it goes through a number of

startup procedures to check all components are installed and

functioning correctly.

The right side of the screen lists each of the instrument

components that are being checked and a colored indicator to the

left of each component shows the current status:

• Green - the component is installed and working correctly

• Yellow - the component is in the process of being checked

• Red - there is a problem with that particular component

• Blue - the component has not yet been checked

If any errors occur on startup that mean that the instrument

cannot function correctly, a warning screen will be displayed

indicating the next course of action.

Note: Once the instrument is switched on you will need to wait until the oxygen sensor residual value reaches the

threshold of 0.1 mbar. This operation can take as much as two hours depending on the instrument and sensor

conditions prior to startup.

Touch screen

The front panel is a TFT VGA (640x480 pixels) color display and touch screen.

Data entry

When a text box (alphanumeric field) is selected for data entry, a

virtual keyboard appears on screen. This is used in a similar way

to a standard PC keyboard. When data entry is complete press

the Enter key on the right of the keyboard to confirm input and

exit the virtual keyboard.

Note: Use the Cap key at the bottom left of the keyboard to switch between

upper and lower case characters. This is important for case-sensitive

information such as passwords.

For convenience, selection through a possible large list of items

has been designed with a rolling list. Use the up and down arrows

at the side to navigate through the list or select one item directly.

Press Ok to confirm.

User identification

If access rights have been enabled (see Security management on page 13), it will be necessary to

log on as an authorized user to get access to the instrument. By default, three users have been

defined for the instrument, and will be required on first access to the instrument:

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Level ID Password

Administrator 000 123

Manager 001 123

Operator 002 123

After setting up your own user list, these three default entries should be removed.

To log on, press Login on the banner at the bottom of the screen. Enter a valid User ID and

Password combination in the boxes provided, and press Ok to continue. The details will be

displayed at the top left corner of the screen. Press the Ok button at the bottom left of the screen to

gain access to the menu.

Note: For security purposes, when the session inactivity delay period has expired the user is logged off

automatically.

Instrument options

A banner is displayed at the foot of each screen showing the available options:

• Standby - Press this button to leave the instrument in operational mode if there is a long time

delay between measurements. The screen will go blank, but can be reactivated by tapping it. Once

reactivated, you will need to enter a valid user ID and password combination if this has been set

up.

• Configuration - Refer to Configuration on page 9

• Calibration - Refer to Calibration on page 15

• Measurement - Refer to Measurement process on page 17

• Analysis - Refer to Analysis on page 18

• Maintenance - Refer to Maintenance on page 19

Note: If any of the options are unavailable for any reason (e.g. access level not high enough), they will be greyed

out.

Instrument status indicator

A colored LED indicator on the top right of the screen will indicate the current status of the

instrument:

• Green - no problems have been detected

• Yellow - a problem has been detected but is not serious enough to stop measurements being

taken

• Red - there is a serious problem with the system which must be corrected before any

measurements can be taken

If multiple problems have been detected, the color of the LED will reflect the most severe error. If the

LED indicator is not green, pressing it on any screen will display a list of errors and warnings. To

make sure the instrument is working correctly, it is advisable to correct all errors and warnings before

continuing.

Configuration

Units and resolutions

For each value displayed by the instrument select the required unit from the drop-down list and press

Ok to continue. When all units have been assigned, press Ok on the main screen to save these

values and continue.

For each value displayed by the instrument select the required display resolution from a drop-down

list and press Ok to continue. A maximum of 4 digits and a decimal point can be displayed (i.e. 1234,

123.4, 12.34, or 1.234). This does not affect the actual resolution of data measured and stored, only

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the data displayed on screen. When all display resolutions have been defined, press Ok on the main

screen to save these values and continue.

Package parameters

Package management

Add new package definitions (up to a maximum of 100), and edit or delete existing definitions. To edit

or delete a package, first select the package from the list displayed by touching the package name

on the screen, and then press either Edit or Delete as appropriate.

A new package will be created using the default package parameters. You will then need to select

the new package and edit it to define the new package parameters.

1. Product tab

Option Description

Solubility Enter the type of beverage in the package.

Formula Define up to five different formulae for computing a new parameter. The formula definitions must

already have been entered into the system (see Formula management on page 12 for details).

2. Package tab

Option Description

Comment Enter a free-format alphanumeric text. This text will appear against the package

description in the main package management screen.

Brimful volume Enter the volume of the package when full to overflowing.

Height Enter the overall height of the package. This information is used if you activate the

Package size check option in Measurement output on page 12.

Default deformity The default deformity of the package caused by internal pressure. The value is zero for

glass bottles and increases for cans and plastic bottles. This value cannot be changed.

Deformity

coefficient

The deformity coefficient defaults to the default deformity value. This value can be

increased or decreased if necessary.

Tilt position Enter the tilt position of the package holder (optional). This should be 1, 2, or 3 and

corresponds to the number on the tilt knob on the front of the instrument .

Pck backstop Position of the package backstop (optional). The backstop is calibrated on a scale of

zero to seven.

Package type Select the correct image for the type of package being measured (bottle, can, etc.). The

setups for each icon are different, so it is important to select the correct one.

Note: The above reference values are also displayed at the start of the measurement process for the package,

so the operator can adjust the instrument accordingly (tilt position, etc.).

3. Alarms tab

Option Description

Alarm parameters Select the parameter to define the alarm settings, and enter the minimum and maximum

values allowable for each parameter listed. When the measurement value falls below

the minimum level or exceeds the maximum level for any parameter listed, an alarm will

be triggered.

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4. Factors tab

Option Description

Factors Small adjustments can be made to the measurements listed by entering a factor. This defaults to

1.000 for all measurements to indicate no adjustment. If this is changed then the measurement

calculated by the instrument will be multiplied by this factor to give an adjusted measurement value.

5. Options tab

Option Description

Headspace Check this box for a fast measurement sequence that provides data from the

headspace only.

Equilibrated This is only available if Headspace (previous box) is checked. Check this box if you

require the additional total O

2

and dissolved CO

2

measurements taken from the

headspace.

Slow decompress If checked, then after the measurement process has completed, a slow release of any

remaining pressure will take place so the package can be handled safely.

Flow multiplier This defaults to 1. Set this value to between 0.5 and 5 to decrease or increase the time

taken for the pressure release process at the end of the measurement. The higher the

value, the quicker the pressure is released. This is especially useful for large packages.

HS measurement

pressure drop

This defaults to 0.5 bar. Set this value to between 0.1 and 5 bar. When the pressure

has decreased by this amount, the headspace measurement stops. This is useful for

packages that contain a gas widget. This parameter can be used to determine if the

headspace is measured before or after the gas from the widget is released. If foam is

detected during the headspace measurement or during the sonication, it is advised to

reduce this value. It will also reduce the analysis time. However, if this value is too small

the accuracy of the HS O

2

measurement will be reduced.

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Formula management

This option allows you to add new formula definitions (up to a maximum of 40), and edit or delete

existing definitions. You can use up to 16 variables pre-defined by the instrument and 2 user defined

numerical variables that are set up manually at the end of each measurement.

1. New formula

Option Description

New Press the New button to create a new formula. The formula editor screen is displayed and used to

define the formula. The measurement values that can be used are listed down the left side of the

screen. The operators and operands are listed down the top right. In the bottom right of the screen

are a number of screen navigation options to assist in editing.

The colored indicator in the top right corner shows the validity of the formula as it is being created. It

is initially colored yellow but will turn red if the formula is invalid and green when valid. When the

indicator is red, the Ok button will be unavailable.

Use the Select button to select an existing formula to include in the new formula. The list of existing

formulae is displayed as a rolling list. When a valid formula has been entered, press the Ok button

to continue. You are then requested to assign a name to the new formula, after which an information

box is displayed showing the name of the user who created the formula and the date and time it was

created.

If required, add any free format alphanumeric text to identify the formula and press Ok to continue.

2. Edit or delete an existing formula

Option Description

Edit or

Delete

To edit or delete a formula, first select the formula from the list displayed and then press

either Edit or Delete as appropriate. If Delete was selected, you will be asked to confirm

deletion before the formula is deleted from the list. If Edit was selected the formula editor

screen is displayed to allow you to change the definition of the formula.

3. Display formula information

Option Description

Info This button can be used to display information about the selected formula, such as the operator who

created it, the date and time of creation (or the last edit), and any comments associated with it.

Instrument parameters

Measurement output

1. Define the parameters shown on the screen after and during the measurement process.

Option Description

Diagnostic

measurement view

Use this option to troubleshoot measurement problems. If this box is checked, then

instead of the standard measurement progress screens being displayed during the

measurement process, the measurement values are displayed instead.

Display diagnostic

results

Use this option to troubleshoot measurement problems. If this box is checked, then

instead of the standard measurement results screen being displayed at the end of

the measurement process, more detailed measurement values are displayed

instead.

Skip comments view

after analysis

If checked, the comments section on the measurement results screen is not

displayed.

Package size check If checked, the instrument will verify that the package size is the same as that

defined in the height parameter for the package being measured. If different a

warning message will be displayed. The height detection resolution is 1 mm.

Warning messages If checked, any warning messages will be displayed during the package

measurement process. If left unchecked, all warnings will be suppressed.

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Option Description

Normalization If checked, enter the temperature value for CO

2

normalization. CO

2

calculations will

then be made based on the temperature entered rather than the sample

temperature.

Column selection From the drop down list, define the three measurements to display on the right side

of the measurement results screen after the measurement process has completed.

When all details have been entered, select Ok to confirm.

Other parameters

1. Time and Date - Set the system date and time parameters and the display format. Select Ok to

confirm.

2. System information - Display the system information about the currently configured boards.

Select Exit to exit the screen.

Security and user management

Security management

When the instrument is started for the first time, security is disabled by default. To avoid any

unauthorized access, it is highly recommended that each user be entered into the system and given

appropriate access rights as soon as possible.

1. Configure parameters related to confidentiality. On completion, select Ok to confirm.

Option Description

Access rights

enabled

When checked (recommended), it is required to log on as a registered user to access

the menus. When disabled (default), all menus are access free and there will be no

name recorded against any actions in the audit trail. To set up valid users, refer to User

management on page 14.

Auto logoff When checked, the user is logged out automatically when the set delay for inactivity is

reached. The instrument goes on standby. Enter a maximum time of inactivity (in

minutes) for all users.

Audit trail When checked, every action from a user is recorded in an audit file for traceability.

These actions cover the configuration, calibration, and maintenance options. The audit

file is a rolling buffer recording the last 1000 actions.

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Option Description

Clear audit trail

file

This option deletes the audit file.

Clear result file This option deletes the package measurement data.

User management

1. The list of registered users (up to a maximum of 99) for this instrument are displayed. To have the

Delete and Edit options available, select one of the existing users.

Option Description

New To add a new user, all of the following fields must be entered, then select Ok to confirm:

• Name - Enter the user surname (3-15 characters)

• First Name - Enter the user first name (3-15 characters)

• ID - Enter an alphanumeric ID (1-10 characters)

• Password - Enter an alphanumeric password (3-15 characters)

• Security level - Select the security level from the drop-down list (see also the table below)

Edit or

Delete

To remove or modify an existing user, select the user in the user management screen and

select Edit or Delete as appropriate. To save all changes, press Ok or press the Exit button to

exit the screen without making any changes.

Level Available options

Operator Measurement and Analysis

Supervisor Calibration, Measurement, Analysis and Maintenance

Manager Configuration, Calibration, Measurement, Analysis and Maintenance

Administrator Configuration, Calibration, Measurement, Analysis and Maintenance

Note: If access rights have been disabled (see Security management on page 13), all users are logged on at

Administrator level and there will be no name recorded against any actions in the audit trail.

Audit trail

View the list of user actions performed on the instrument. The actions are listed chronologically with

the latest action always at the top of the list. When the maximum of 1,000 recorded actions is

reached, the oldest is deleted and replaced with the newest.

Scroll through the audit trail screens using the First, Previous, Next and Last buttons, or select the

Exit button to leave this option.

Note: To clear the audit trail file, use the option available in Security management on page 13.

Communication

This option sets the parameters required for exporting instrument data files to your PC or USB

storage device. Select from:

• Data download configuration (see Data download configuration on page 14)

• Ethernet configuration (see Ethernet configuration on page 15)

Data download configuration

Scroll through the list of available data files using the up/down arrow keys on the right, and select if

the file to be exported is in data or text format. By default, the text format is set to YES and the data

format to NO. Set both formats to NO if you do not require the file downloaded. Use the Invert

Selection button under each column to toggle between YES and NO. When the data formats have

been configured, select Ok to confirm.

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Note: It is recommended to set the files to text format for easy loading into standard software applications on the

PC such as Microsoft Excel or similar. The data format is only required for Hach Lange service and support

personnel.

To transfer the data files, plug an external mass storage device (such as a USB memory stick) into

the USB-A port at the rear left of the instrument. The instrument should automatically recognize the

presence of the device. The files are automatically copied and on completion a pop-up window will

inform you the process completed successfully and you can remove the device.

Remove the device and press YES in the pop-up window to continue, followed by EXIT in the main

window to complete the process. Insert the device into a USB port on your computer and download

the data using standard computer software.

Ethernet configuration

This option allows you to set up an Ethernet connection to download data from the instrument to a

PC. This can be to a web page (see Web browser configuration on page 15) using an HTTP

connection, or to an OPC client (see OPC client on page 15) using a DCOM connection. These

options allow you to perform several operations directly from your PC. To be able to use these

options, the instrument must be connected to the network.

At the bottom of the ethernet connection screen, check the data access box required.

Web browser configuration

Access the information by launching an internet browser on your PC and typing “http://” followed by

the device name assigned to the instrument. The home page will then be displayed. You will be

required to enter a valid username and password combination (defined in User management

on page 14). The initial screen will then be displayed. Click on Expand All to see all the available

options.

OPC client

OPC (Open Process Control) is a software interface standard that allows Windows PC programs to

communicate with industrial hardware devices. The OPC client software is installed on a PC and

communicates directly with the OPC server embedded in the 6110 instrument. To activate the link,

check the OPC option on the ethernet configuration screen.

The first time this option is selected, a registration key is required. This can be found on the case of

the supplied CD-ROM. Enter the registration key. Once validated, press the information button next

to the OPC checkbox to display the CLSID number. Enter the instrument ID (shown in the device

name box in the configuration screen) and the CLSID into the OPC client software on the PC to

establish the two-way network link to the instrument.

Scheduled operations

Define the sensor service and calibration schedule for all the sensors installed on the instrument.

• Manual Calibration - Select a sensor and check the activation flag as required. Set the desired

frequency from the options available. When set, the system will set a yellow status indicator

message to inform you when a sensor calibration is required.

• Verification - Define the verification frequency for selected sensors

• Routine maintenance - Define a service frequency for selected instrument maintenance options

• Service - Define a service frequency for selected instrument service options

Calibration

The calibration option is available for all of the internal sensors:

1. Barometric pressure sensor

2. Pressure sensor

3. Temperature sensor

4. CO

2

sensor

5. Flow sensor

6. O

2

sensor

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Note: The above is the actual sequence that must be followed for any calibration (i.e. if you calibrate the CO

2

sensor, then the barometric sensor, pressure sensor and temperature sensor must be calibrated first and in that

order).

After selecting a sensor to calibrate, the details of the last calibration are displayed. This shows the

values recorded, and information about who performed the last calibration and when. The due date

of the next calibration is also shown. A report is created on completion of any new calibration. The

last 10 reports can be viewed by selecting the Calibration reports option in the calibration screen.

Calibration schedule

The following table shows the recommended sensor calibration intervals based on an average of

500 package analyses per week. This proposed schedule can be modified according to operating

conditions.

Sensor Interval Sensor Interval

Barometric pressure sensor 6 months O

2

sensor 2 - 3 months

Flow meter 6 months CO

2

sensor 6 months

Temperature sensor 6 months Pressure sensor 6 months

Barometric pressure sensor

1. Push New calibration. A calibration screen is displayed showing the current values measured by

the instrument.

2. Using a precision certified barometer, measure the barometric pressure in the location where the

instrument is used and compare with the current barometric pressure value displayed. If the

values are the same press Cancel, otherwise enter the new value in the New barometric value

box and press Validation to store the new setting.

Pressure sensor

1. Push New calibration. A calibration screen is displayed showing the current values measured by

the instrument.

2. Using a precision certified barometer, measure the barometric pressure in the location where the

instrument is being used. Provided a barometric pressure sensor calibration has recently been

performed this measurement should be the same as the value displayed in the Reference

pressure box. If this is the case press Enter, otherwise enter the measured barometric pressure

value in the Reference pressure box and press Enter.

3. Connect a precision certified pressure gauge (0-7 bar) to the gas out connection on the rear of

the instrument and measure the reference pressure. Enter this value in the Reference pressure

box and press Enter.

4. Press the Validation button at the bottom left of the screen to accept the new calibration and

complete the process.

Temperature sensor

1. Push New calibration. A calibration screen is displayed and the instrument measures two

temperature values and checks the stability of the measurements. Provided the measurements

are stable, you can choose to accept or reject the new values. Press Validation to store the new

setting.

Carbon dioxide sensor

A Verification option is also available for this sensor. The process is the same as a new calibration.

When verification is complete press the Ok button to exit. No report is produced for the verification

process. The CO

2

sensor is calibrated using pure CO

2

and air. CO

2

is supplied by the purge gas and

air is provided by an internal pump that takes air directly from the atmosphere.

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1. Push New calibration. A calibration screen is displayed showing the gas purity data of the main

gas. If the value is incorrect, enter the correct value in the Gas purity box.

2. When the measurement stabilizes press the Validation First Point button. A new measurement

is then initialized and the internal air pump automatically activated.

3. When the measurement stabilizes press the Validation Second Point button.

4. You now have the opportunity to accept the calibration, store the new values, and write the

details to the calibration report file. If the calibration cannot be performed, an error message will

be displayed giving the reason.

Flow sensor

1. Push New calibration. A calibration screen is displayed and the instrument will then compute the

measured flow in four steps (at 0.200 mL/s, 0.400 mL/s, 0.800 mL/s and at 0.000 mL/s). The

results are displayed on screen.

2. After a few minutes, when the process is complete, the Validation button is highlighted. Press

this button to accept the calibration (you will need to confirm acceptance).

Oxygen sensor

The O

2

sensor is calibrated in-situ with an air pump providing a continuous flow of fresh air in front of

the sensor head.

1. Push New calibration. A calibration screen is displayed.

2. The value Ratio ideal membrane is a percentage of the current against the ideal current for the

membrane being used.

3. The value Variation shows the percentage of this measurement against the last sensor

calibration measurement.

4. The Calibration Status box at the bottom of the screen shows the current calibration process

with a bar graph below it to indicate the progress.

5. On completion, only if the calibration is valid will the Validation button be displayed. Press this

button to accept the calibration, store the new values, and write the details to the calibration

report file. If the calibration cannot be performed, an error message will be displayed giving the

reason.

Measurement process

Main screen

The initial screen displays standard information about the package to measure. You have the

possibility to change the user and the package type to be measured.

Start analysis

Note: Once a sample has completed the measurement process it will contain a small amount of antifoam.

Therefore, after measurement, ensure the sample is disposed of in a sink (or similar) to avoid any risk of ingestion.

For optimal operation, the base of the package holder should always have a layer of water for

improved transfer of the ultrasound energy to the liquid in the package. For the correct amount of

water, tilt the package holder forward by turning the tilt knob to position 3 (small can icon). Next, fill

the holder with water until the water level reaches the top without spilling over. Finally, put the holder

back to the correct tilt position for the package to be measured in readiness for the measurement

process.

Select the Start Analysis option to start the measurement process. The instrument will display

information regarding the measurement step being taken, instructions on any user involvement

required, and the measurement progress throughout the duration of the measurement process.

The first screen gives details of the package being analyzed and gives the user information on what

action to take. As instructed, raise the transparent front door in order to place the package in the

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17

measuring chamber. As soon as the door is raised, the initialization screen is displayed with the next

set of instructions.

Place the package to be analyzed on the circular platform, and set the tilt position as defined for this

package by turning the black knob on the front. Two red laser beams are activated as the front door

is raised. Where the two red beams intersect is where the package will be pierced.

For bottles, position the package so that the two red beams intersect in the centre

of the bottle top (illustrated above left).

For cans, position the package so that the two red beams intersect at position 1

(illustrated above right). This is the recommended piercing position. Alternatively,

position the package so that the two red beams intersect at position 2. If piercing at

position 2, turn the ring pull 90° left or right, in order to clear the piercing position.

Do not pierce the can with the ring pull in the position illustrated.

Make sure that the package is also hard up against the backstop. This may require realigning the

backstop by turning the locking wheel counter clockwise and adjusting its position to that defined for

this package. Lock it in place by turning the locking wheel clockwise finger tight.

Once the package is secure against the backstop and the piercing position aligned with the two red

laser beams, close the front door.

Start the measurement process by pressing the illuminated START button on the front right side of

the instrument base. A progress bar is displayed at the bottom of the screen showing the elapsed

time to date, and the estimated time for measurement completion. This bar is updated on an on-

going basis. No user intervention or action is required until the measurement process has completed.

However, you do have the option to Abort the process at any point.

Once complete, the measurement results are displayed. The three columns of data displayed are

those that have been defined in Measurement output on page 12 and are color coded (green

signifies the measurements are within the defined limits for this package, and red signifies outside

the defined limits).

It is possible to add 2 numerical values and 5 comments to these results by entering them in the text

boxes displayed down the left. The numerical values will be required if they have been defined as

part of a formula (see Formula management on page 12).

Press the Continue button to return to the main measurement screen, or press the Info button to

display more detailed results in a tabular format.

Analysis

Open data

This option allows you to view the measurement data from the last 1000 measurements. The data

elements displayed are those defined in Table settings on page 19. Use the Previous and Next

buttons to scroll through the data. Select one of the lines of data and the Info button will be made

available. Press the Info button to see more details of the measurement in a new screen.

Use the Exit button to return to the main analysis menu.

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Table settings

This options allows you to define up to 10 data elements that the instrument will display for each

measurement. More data is recorded, but only 10 values can be displayed on screen. Define for

each of the 10 columns the data to view from the drop-down list of available data elements. Select

Validation to accept and save the selected data elements.

Maintenance

Schedule

The following table shows the recommended maintenance schedule for an average of 500 package

analyses per week. This proposed schedule should be modified according to operating conditions.

Action Interval

Clean instrument exterior Daily

Refill sonotrode base with water Daily

Check piercing tip is tight Daily

Check the purge gas supply, pressure and purity (CO

2

99.9%)

C A U T I O N

On no account should the cylinder become empty while the instrument is

switched on as this can cause damage to the carbon dioxide sensor.

Daily

Run a reference sample (old beer) through the system to verify the CO

2

sensor

and the O

2

response/residual (< 20 ppb)

Daily

Goretex filter replacement (see Wizards on page 20) Weekly

Remove and clean instrument front door inside and out Weekly

Clean optical barrier windows Weekly

Clean the sonotrode surface of the package holder Weekly

Clean laser optics used to position the package Weekly

Refill the antifoam cartridge (see Antifoam cartridge preparation on page 20) Approximately every 6 weeks

O

2

sensor cartridge replacement and calibration (see Wizards on page 20) Every 2-3 months

Piercing gasket replacement (see Wizards on page 20) Every 3 months

Piercing tip replacement (see Wizards on page 20) Every 6 months

Clean antifoam cartridge Every 6 months

Purge and clean antifoam system Every 6 months

Replace the display protection film Every 6 months

Replace the rim detector protection Every 6 months

Replace flow chamber O-ring Every 6 months

Replace the blue sample tubing Every 6 months

The following are performed by a Hach Lange service technician:

Action Interval

Sensor calibrations Twice a year

Replace needle valve Yearly

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Action Interval

Replace antifoam cartridge internal membrane Yearly

Antifoam pump maintenance Yearly

Piercing module maintenance Yearly

Wizards

This option gives an on-screen visual guide through a number of standard maintenance procedures

to perform on the instrument.

Installation

The installation wizard will be invoked automatically the first time the instrument is switched on to help you

complete the installation of the instrument.

Once the instrument has been successfully installed, the Skip installation wizard on device startup checkbox

should be checked to ensure a normal startup from there onwards.

Maintenance

It is recommended to use the maintenance wizards for maintenance of the instrument. Simply follow the on-

screen instructions available for each of the options.

Antifoam tank filling When refilling the cartridge, follow the instructions given in Antifoam cartridge

preparation on page 20.

To ensure the performance and reliability of the instrument, it is strongly

recommended to only use the silicone antifoam supplied by Hach Lange (part

number 33156).

EC sensor maintenance Chemical reactions within the gas sensor requires that the oxygen sensor be

serviced regularly to restore its original sensitivity. A clear sign that a sensor

maintenance is required is when measurements are noticeably less stable than

usual.

For EC sensor maintenance, please also refer to the instruction sheet entitled

A1100 cleaning procedure for 6110 TPA which is supplied with the instrument.

Goretex filter replacement It is recommended to replace this filter every week.

Piercing tip replacement It is recommended to replace these about every six months.

Note: When replacing the tip, use the mounting tool supplied with the installation kit and apply

some Loctite

®

243 sealant (or similar) on the screw thread of the tip before mounting.

Antifoam pump maintenance Refill or replace the antifoam cartridge as required.

Antifoam cartridge preparation

To optimize the performance and reliability of the instrument, it is strongly recommended to only use

the silicone antifoam supplied by Hach Lange (part number 33156). To fill the cartridge, refer to the

steps that follow and Figure 1.

1. Lower the piercing assembly (refer to Manual displacement on page 22) for easier access to

the antifoam cartridge connector. Raise the transparent front door.

2. Push the refill bottle onto the antifoam cartridge connector until the bottle clicks into place.

3. Squeeze the refill bottle to force as much antifoam as possible out of the bottle and into the

antifoam cartridge.

4. Maintain pressure on the bottle to avoid any antifoam being sucked back into the bottle. Press on

the lock on the top of the bottle to release it from the antifoam cartridge, and pull the bottle down

to remove it.

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Hach ORBISPHERE 6110 Uživatelský manuál

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