LIEBHERR R9200 Excavator Leaving Minexpo User Manual
- June 15, 2024
- LIEBHERR
Table of Contents
- LIEBHERR R9200 Excavator Leaving Minexpo
- Product Information
- Product Usage Instructions
- FAQ
- INSTALLATION
- SAFETY
- CRITICAL PARTS & MAINTENANCE SCHEDULE
- OPERATOR GUIDE
- SPECIFICATIONS HIGH-CAPACITY HEPA PRESSURISER
- PARTS LIST – TL4 24V DC PRESSURISER UNIT
- PARTS GA
- PARTS LIST
- TECHNICAL DETAILS
- SMOKE EMITTER CABIN PRESSURE LEAK TEST
- CABIN SEALING TEST PROCEDURE
- COMMISSIONING PROCEDURES – CABIN PRESSURISER
- BREATHESAFE SYSTEM TROUBLE SHOOTING GUIDE *TOUCH CONTROL
- USER SETTINGS INSTRUCTIONS
- ALARM BUZZER SETTINGS
- CO2 SETTINGS
- DATA DOWNLOAD
- INPRESS TL WARRANTY
- ABOUT COMPANY
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
LIEBHERR R9200 Excavator Leaving Minexpo
Product Information
Specifications
- Kit Part Number : 700128
- Contact: +61 7 3276 7833
- Website: www.breathe-safe.com.au
- Email: sales@breathe-safe.com
- Address: 62 Mica Street, Carole Park, 4300, QLD
- Manufacturer: LIEBHERR
- Type: R9200 Excavator
Product Usage Instructions
Installation Overview
The LIEBHERR Excavator R9200 requires a cabin pressure of more than 250
Pascals. The maximum set auto cabin pressure is 50 Pascals with a minimum of
20 Pascals.
Installation
The following components need to be installed:
- HEPA H14 Variable Speed Pressuriser
- INPRESS TS Cabin Display with Data Recorder
- HEPA Return Air Filter
Warning
It is important to treat the pressurisation system with great care as it
contains areas that may be dangerous. Qualified staff must wear the correct
personal protective equipment when cleaning and servicing the unit due to dust
and fibers that may be caught by the stages of air filtration. The electrical
power system is supplied by 12V DC or 24V DC, and no work should be carried
out on the pressuriser system without the correct safe work procedures and
electrical safety measures being taken. Ensure all relevant circuit breakers
are opened to isolate the circuit. The air filtration system may have high-
speed rotating equipment with sharp edges. Ensure all safety guards are in
place while the system is running.
Safety
When installing the system, it is important to wear the following personal
protective equipment:
- Hard Hat
- Eye Protection
- Dust Mask
- Ear Protection
- Protective Clothing
Maintenance Schedule
It is recommended to follow the maintenance schedule below, although site
conditions may alter it. High corrosion environments are excluded.
- **Inspect every 500 Hours and replace when filter is full***
- Turbo Pre-cleaner: Check operation of the Turbo PreCleaner.
- Pressuriser Blower: Ensure blower is operational.
- HEPA Primary Filter p/n: 500000: Inspect filter capacity indicator. Replace HEPA filter when 80% or greater. Vacuum out housing before replacing the filter elements.
- HEPA Return Air Filter P/N: 500023: Vacuum inside cabin floor before replacing filter.
- Filter Frame Assembly, Mounts, Seals and Filter Housing: Check door seals, all bolts, screws, and all mounts are secure. Check the filter canister & ensure it is correctly fitted. Check latches are operational and in good order. Replace/Re-tension fixtures and fittings required.
- *15,000 Hours / 36 months
** 500 Hour Inspection: Perform all 500-hour inspection actions.
FAQ
-
Can the HEPA filters be cleaned?
No, HEPA filters cannot be cleaned. They must be replaced at the end of their lifecycle or if the filter media has been damaged. -
Why is it important to wear PPE during installation?
Warehouses and workshops may have hazardous airborne particulates that can remain in the air for longer, increasing the chance for workers to breathe in dust. Wearing PPE, such as hard hats, eye protection, dust masks, ear protection, and protective clothing, helps protect against these hazards. -
How often should the maintenance schedule be followed?
It is recommended to follow the maintenance schedule provided. However, site conditions may require adjustments to the schedule.
INSTALLATION
INSTALLATION OVERVIEW
- Manufacturer LIEBHERR
- Type Excavator
- Model R9200
- Cabin Pressure Max >250 Pascals
- Set Auto Cabin Pressure 50 Pascals / 20 Pascals
SAFETY
WARNING
- THE PRESSURISATION SYSTEM DESCRIBED IN THIS MANUAL HAS THE FOLLOWING AREAS WHICH MAY BE DANGEROUS IF NOT TREATED WITH GREAT CARE.
- QUALIFIED STAFF MUST WEAR THE CORRECT PERSONAL PROTECTIVE EQUIPMENT WHEN CLEANING AND SERVICING THIS UNIT DUE TO DUST AND FIBRES WHICH MAY BE CAUGHT BY THE STAGES OF AIR FILTRATION DURING NORMAL UNIT OPERATION.
- THE ELECTRICAL POWER SYSTEM IS SUPPLIED BY 12V DC OR 24V DC AND NO WORK SHOULD BE CARRIED OUT ON THE PRESSURISER SYSTEM WITHOUT THE CORRECT SAFE WORK PROCEDURES AND ELECTRICAL SAFETY MEASURES BEING TAKEN, AND ALL RELEVANT CIRCUIT BREAKER OPENED TO ISOLATE THE CIRCUIT.
- THE AIR FILTRATION SYSTEM MAY HAVE SEVERAL TYPES OF HIGH-SPEED ROTATING EQUIPMENT INSTALLED WITH VERY SHARP EDGES. ENSURE ALL SAFETY GUARD ARE IN PLACE WHILE THE SYSTEM IS RUNNING.
- Please be aware that HEPA filters cannot be cleaned and must be replaced at the end of their lifecycle or if filter media has been damaged.
Particulate Behaviour
- This is the length of time it takes for a particle to drop from a height of 1.5m in STILL air.
- Warehouses and workshops do not have still air, so hazardous airborne particulates may remain in air for longer, increasing chance for workers to breathe in dust. Ensure PPE is worn when installing this system.
CRITICAL PARTS & MAINTENANCE SCHEDULE
Maintenance Schedule
- The following tables show our suggested maintenance schedule for all units. Please note that site conditions may alter this. Excludes high corrosion environments.
- Data download is required to claim the 3-year warranty on Brushless Blower Motor.
**Inspect every 500 Hours and replace when filter is full***
**15,000 Hours / 36 months***
Critical Parts
*Filter service hours are subject to cab sealing efficiency, site conditions and correct system use.
Suggested Schedule Servicing*
Fan Capacity Indicator
- The filter is serviceable if the motor capacity is between 10% & 80%. We recommend that the filter is changed if the capacity is over 80%.
- Site dependent
OPERATOR GUIDE
OPERATORS CHECKLIST
PRE-START
- Visually inspect the BreatheSafe system for any damage.
- Visually inspect the cabin for any damage to doors, windows, seals.
- Please remove dust & debris from shoes and clothes before entering the cabin.
- Ensure door(s) and windows are closed correctly.
- Start engine and turn HVAC on to speed 2 (medium speed).
- After fixed speed delay, the BreatheSafe display will show 50 Pascals or pre-set value.
NORMAL OPERATING CONDITION
Cab Air Conditioning
- BreatheSafe recommends OEM air conditioning fan is set at mid speed or greater to circulate air around the breathing zone and minimise CO₂.
- Acceptable operating range for BreatheSafe fan 10-80%. >80% recommend maintenance.
ALERTS
-
Fixed Fan Start Delay
Allows the operator to carry out pre-start checks – limiting at 30% fan speed, press the red text to disable. -
CO₂ Level Alert (if equipped)
Ensure air conditioning fan is set at mid speed or greater to circulate air and minimise CO₂. -
Low Pressure Alarm
- Cabin is not maintaining positive pressure – check doors and windows are closed correctly.
- Refer to maintenance department to check filters and cabin sealing. Ensure filters are serviceable.
-
Check Filter
- Reminder to inspect or replace filter. Service hour meter requires re-set.
- Refer to maintenance department.
SPECIFICATIONS HIGH-CAPACITY HEPA PRESSURISER
Specifications High-Capacity HEPA Pressuriser
- Blower : Brushless Blower P/N 200002.
- Protection : Locked Rotor Protection (Sub Zero Environments) Under Voltage, Under/Over Current & Over Temperature.
- Voltage : 24VDC.
- Current Draw : 11 amps (peak). *Note: Motor has slow start to stop excessive in-rush current.
- Air Flow : Up to 30-300 m3/h or 50-215 CFM.
- Pre-cleaner : Integrated VLR (Very Low Restriction). Turbo Pre-Cleaner.
- Filter Element : BreatheSafe HEPA Primary Filter (H14=99.99% MPPS) TESTED AS PER EN1822 – P/N 500000.
- Plugs & Fittings : Mining Spec. Deutsch electrical plugs as standard.
- Construction : High strength composite construction.
- Serviceability : Easy access HEPA filter with twist-lock (TL) dust cap single assembly.
- Mounting : Heavy Duty adjustable mounting brackets.
- Design : Fully designed in SolidWorks 3D CAD & Ansys Engineering Simulation Software.
- FEA Testing : Critical components FEA (Finite Element Analyst) tested in Solid Works Simulation.
- CFD Testing : CFD (Computational Fluid Dynamics) simulations in Flow Works to ensure optimum air flow through the system.
List of Abbreviations DH Dual HEPA
- DHPR Dual HEPA Powered Recirculation DHAC Dual HEPA Activated Carbon
- DHACPR Dual HEPA Activated Carbon Powered Recirculation CPM Cabin Pressure Monitor
- CPU Central Processing Unit DB Decibel Sensor
- DPM Diesel Particulate Matter GAS Gas Sensor
- HEPA High-Efficiency Particulate Air Filter HPAFU High Pressure Air Filtration Unit
- HRAF HEPA Return Air Filter HVAC Heating Ventilation and Air Conditioning
- MAF Mass Air Flow OEM Original Equipment Manufacturer
- PM Particulate Mass RH Relative Humidity
- TEMP Temperature TS Touch screen
- UI User Interface VMS Vehicle Monitoring System
- VS Vibration Sensor OGSP OnGuard Sensor Pod
- CO2s CO2 Sensor INPRESS TS
PARTS LIST – TL4 24V DC PRESSURISER UNIT
PARTS GA
PARTS LIST
PRESSURISER MODULE
RETURN AIR MODULE
TECHNICAL DETAILS
Display Key Features
- Digital cabin pressure monitoring system
- Automatic cabin pressure control
- Intelligent fan speed output
- Data logger
- Alarm for low-pressure (RS20)
- Light sensor for automatic dimming of the screen
CO2 Sensor
- CO2 Sensor Type is NDIR (Non-Dispersive Infrared)
- Sample Rate is every 2 seconds
- 12-30V DC Operating Voltage
- Automatic Altitude Compensation
- Alarm Set points are adjustable
- No setup required
Connections: 200027
-
PIPE A – AMBIENT PRESSURE – OUTSIDE
-
PIPE B – POSITIVE PRESSURE – INSIDE
-
RJ45 CONNECTOR – CO2 SENSOR
-
OVERRIDE TOGGLE SW = MAX SPEED
-
12/24 VOLT POSITIVE SUPPLY
-
CAN H OPTION
-
CAN L OPTION
-
SERIAL TRANSMIT RS232
-
MOTOR CONTROL VOLTS OUT
-
ALARM + OUTPUT
-
TEMP SENSOR
-
NO CONNECTION
-
SERIAL RECEIVE RS232
-
DOOR INPUT (+)
-
WINDOW INPUT (+)
-
0V NEGATIVE GROUND
Wiring Diagram
SMOKE EMITTER CABIN PRESSURE LEAK TEST
-
Do not handle until MSDS & all safety precautions have been read and understood. Use personal protective equipment as required.
Before use, carefully read the product label. Safe work practices are advised to avoid eye or skin contact and inhalation. Observe good personal hygiene, including washing hands before eating. Prohibit eating, drinking, and smoking in contaminated areas. Avoid inhalation. Mechanical extraction ventilation is recommended when the removal of atmospheric contaminants is required. Maintain dust / fume levels below the recommended exposure standard. For small amounts, absorb with sand, vermiculite or similar and dispose of at an approved landfill site.-
WARNING
- For Professional Use Only – keep out of reach of children.
- Do not ignite near or around flammable materials.
- Use only in well-ventilated areas, outdoors, and/or with proper respiratory protection.
- Persons with respiratory sensitivity should avoid exposure to any smoke.
- Concentrated smoke may cause severe burns to the skin, eyes, or respiratory system.
- Improper use may result in sufficient inhalation of smoke to cause respiratory tract irritation and lung damage.
- Harmful if swallowed.
-
DANGER
Use only as directed. Do not handle until all safety precautions, including Safety Data Sheet, have been read and understood. The product contains hexachloroethane. Wear protective clothing. If exposed or concerned, get medical advice. Store in a cool, dry, secure location. KEEP OUT OF REACH OF CHILDREN. Dispose of contents/container per location regulations. When used as directed, exposure should be limited and usually poses no hazard because the hexachloroethane is consumed inside the tube as smoke is produced. -
Directions: (Smoke Bomb)
- Ensure other workers in close proximity are informed of use. Place on a non-combustible container, away from flammable materials.
- Place at Blower intake, or upwind of target area, or near centre of space.
- Orient “Smoke Issues Here” toward air stream, away from surfaces. Place candle on a flame / heat resistance plate – if not it will melt into the plastic surface.
- Ensure smoke will not create any hazard where it is anticipated to go.
- Ignite emitter inside the cabin using site approved device i.e., solder torch or ‘lighter’ and conduct smoke test.
- Do not touch or hold smoke generator after ignition – item becomes very hot & remains hot after use.
- Smoke Emitter Cabin Pressure Leak Test
- The pressuriser system is switched on (TEST MODE).
- Hold the smoke emitter angled down.
- Ignite emitter using site approved ignitor i.e., solder torch or ‘lighter’.
- When the product ignites, remove the lighter.
- If the product flames up, blow out the flame.
- Place the emitter in a non-flammable container and place it inside the cabin at floor level and close the door/windows.
- Observe smoke leaks to indicate worn-out or broken seal locations. Check leakage points outside the cabin.
- Do not come into contact with or inhale smoke haze.
- Wait until the smoke haze completely disperses before re-entering the cabin. Open door to allow sufficient ventilation of smoke prior to entering cabin.
- **Personal Protective Equipment (PPE)
-
**
-
Pre-operational Safety Checks
- Locate and ensure you are familiar with all machine operations and controls.
- Check work area and walkways to ensure no slip/trip hazards are present.
- Ensure the work area is clean and clear of any flammable material & fire extinguish device is present.
-
Operational Safety Checks
- Ensure the machine is correctly isolated / immobilized.
- Ensure other persons do not inhale smoke haze.
- Take care and do not place a lit emitter close to a
- flammable surface.
-
Ending Operations and Cleaning Up
Leave the work area in a safe, clean, and tidy state -
Potential Hazards
- Falls
- Fumes
- Fire
- May cause cancer
- Exposure is highly unlikely when the product is used as directed. Direct contact with the product does not occur.
-
Don’t
- Do not use if an open flame is forbidden.
- Never leave the emitter [cabin test] unattended
CABIN SEALING TEST PROCEDURE
Cabin Sealing Efficiency Test Procedure
-
Start Engine – Pressuriser System is ON
-
Ensure all windows & door(s) are CLOSED correctly (no cabin pressure leaks)
NOTE: for a new cabin with effective seals, you may need to open a window slightly before closing the door to bleed the static cabin air pressure outwards. Once door is fully closed then close windows to begin testing. -
Enter the Settings menu via the touch screen button.
-
Select and press the System Check button to go to System Test – Max Fan.
-
Record / photograph the maximum cabin pressure achieved.
COMMISSIONING PROCEDURES – CABIN PRESSURISER
Commissioning Procedures
-
Follow each step of the installation guide that was supplied with the BreatheSafe kit.
-
Cabin sealing is an integral part of RS20 & ISO 23875; you must ensure that cabin seals are adequate for maintaining positive pressure. In addition, the site (end- user) must have the correct procedure(s) for servicing OPERATOR enclosure seals in a proactive manner rather than reactive. Items such as door and window seals must be in good working order or new seals FITTED before the BreatheSafe system installation.
-
Touch-screen cabin pressure display/controller Part# 200027:
System Check Function: enter the Settings menu option and select “System Check – Set Max.” The minimum BreatheSafe requirement for cabin sealing efficiency is 250 pascals; if this result is not met, it is essential to re-examine and find pressure leaks of the enclosure and apply new sealing measures. -
Submission for commissioning procedure as per the diagram below:
The commissioning images required are:
- ID plate / Machine Serial Number / Asset Number or Call Sign
- INPRESS TL Pressuriser location
- HEPA Return Air Filter Location Option: Powered Return Air Filter
- Cabin Pressure Display Location – Including the “System Check” maximum cabin pressure result with motor output capacity %
Fill in the BreatheSafe Service Tag with the following details:
- Machine Serial Number and Installers details
- Date installed and System Check result (max cabin pressure)
- The set cabin pressure with actual pressure and motor percentage output
- Verify the 250-pascal threshold was achieved = pass OR not achieved = fail
Please upload machine and installation details in conjunction with the required images. A Commissioning Certificate will be sent to the email address you nominate. Extended warranty for (RS20 & ISO 23875) BreatheSafe Systems is only applicable to operator enclosures meeting this requirement.
BREATHESAFE SYSTEM TROUBLE SHOOTING GUIDE *TOUCH CONTROL
USER SETTINGS INSTRUCTIONS
ENTER SET UP MODE
- Start-Up Screen > Main Screen > Settings Button > Settings Screen > Site Access Button > Insert Pin > Site Menu
- To enter the Setup mode, press the SETTING button.
- Then enter SITE ACCESS MENU. Type in 4-number pin and press ENTER.
SET UP PARAMETERS
Placing the BreatheSafe 200027 unit into Setup mode allows the adjustment of
the following parameters:
- Time (hours/minutes/seconds)
- Date (day/month/year)
- Pressure alarm setpoint
- Preferred cabin pressure
- Alarm delay/ intervals of alarm
- Calibration and system settings
- Resetting of the data logging
- Service reminders interval gap
- Reset current runtime between services
- CO2 settings and alarms
PRESSURE SETPOINT
- The pressure setpoint changes the pressure that the cabin will be maintained.
- INPRESS TS maintains the pre-set pressure within the cabin compared to outside.
- Enter Setup mode and select ADJUST SETPOINT button. Then, use the onscreen UP and DOWN buttons to change the corresponding fields.
PRESSURE ALARM SETTING
- The mining industry benchmark for cabin pressure is 50 pascals and low-pressure is set at 20 pascals.
- After a delay the alarm will activate if cabin pressure remains below the pre-set value. Enter Setup mode and select ADJUST SETPOINT button. Then, use the onscreen UP and DOWN buttons to change the corresponding fields.
SERVICE INTERVAL
- Use the onscreen UP and DOWN buttons to change the service interval setpoint.
- To reset the current runtime to zero, press the RESET CURRENT RUNTIME button and enter the site access pin.
DATE & TIME SETTINGS
Change the recorded date displayed and measured by the INPRESS TS.
ALARM BUZZER SETTINGS
PRESSURE ALARM BUZZER SETTING
To disable the buzzer, toggle through to the ENABLED and DISABLED buttons.
CALIBRATE ZERO SENSOR
Over long runtime, the 200027 may need recalibration. This screen allows the
sensor to be recalibrated if more than 5 Pascals are out. To recalibrate, open
windows and doors, turn off air conditioning, and any other device that may
alter cabin pressure. Then, press the AUTO ZERO SENSOR button and leave the
cabin while measuring. This process will reset the Zero Pressure
CO2 SETTINGS
CO2 MODULE ENABLE/DISABLE
Enable or disable to CO2 module used for measuring CO2 levels within the
cabin.
CO2 PRIMARY ALARM POINT
The first alarm will sound when CO2 levels inside the enclosure reach this
point.
CO2 ALARM DELAY
After CO2 (concentration in ppm) within the cabin reaches the 1000 ppm
setpoint, the alarm will sound after this designated amount of time. The Alarm
Delay adjusts the time between the INPRESS TS measuring CO2 concentration and
sounding the alarm. Use the onscreen ADJUST buttons to change the
corresponding fields. For example, press to toggle through Disabled / 1 – 10
minutes.
CO2 CRITICAL ALARM MUTE RESET
The critical alarm is set at 2500 PPM and cannot be changed. The mute delay,
however, can be configured.
DATA DOWNLOAD
Data Download – Setting up RS232 Connection
-
Plug the RS232/USB adaptor into a free USB port on your computer
-
Open up TeraTerm software. (TeraTerm is an open-source software tool and easily accessible via online search)
-
Use the following settings in TeraTerm: Serial and choose the correct port connection
-
Hint:
Click on the COMxx Port with the “USB serial Port” connection from the drop- down menu. -
Example:
COM 21
This connection may be different on your computer.
-
- Click OK once the correct communication port has been identified.
- Go to SETUP and click on Serial Port.
- Change the COM ports to the following configuration:
- Baud
- Rate: 57600 Data: 8 bit
- Parity: EVEN
- Stop: 2 bit
- Flow Control: NONE
- If required, you may choose to save the COM port settings. Go to Settings and clock save the setup.
- Hint: From the drop-down menu, click on the Save Setup.
- Name the file and save it.
- The next time a download is required, you may restore the setup, and the required COM PORT settings will be loaded, ready to download the data file from the 200027 unit.
- From the drop-down menu, click on the Save setup.
- Click Restore setup.
- Choose the file name you have already saved.
- From the drop-down menu, click on the Edit menu function.
- Press “Select All”.
- Select “Copy table”. 15 Open a blank excel document and click on the page. Then, right-click to paste the copied table.
- Fields are:
Date, time, motor (volts) output, cabin pressure (Pa), cabin pressure pre-set (Pa), low cabin pressure alarm (Pa).
Excel Data Instructions – Unformatted
- Open an Excel sheet and select the first cell A-1. Next, press and hold down the CTRL button on your keyboard and then press the letter V on the keyboard.
- This procedure will paste the copied data onto that Excel sheet. Once that data has been pasted onto the Excel sheet, click on ‘DATA’ on the pull-down menu, followed by ‘Text to Columns’. Next, select ‘Delimited’ on the newly opened window and click on Next.
- Only select the ‘Comma’ button in the next window and then click ‘Finish’. Then, the Excel fields will update such that each piece of data is placed in the correct columns.
- The data is now ready for archiving.
Data Logging Formats
- BU No: xxxxxx (the device number unique to each unit and used for identification – format = 000000)
- Time: [09:25]
- Date: [25/07/12]
- Pressure: 32 (Pascals) as an example.
INPRESS TL WARRANTY
Express Warranty
- All BreatheSafe products carry a warranty against defects in materials or workmanship, provided the defects are not from factors outside of BreatheSafe’s control (including neglect, lack of maintenance, improper installation or operation, unauthorized servicing repair, etc.). BreatheSafe will replace goods defected in material or workmanship at our Queensland factory or designated branch*. All parts deemed as failed or faulty must be returned to BreatheSafe for evaluation unless otherwise stated in writing.
- Note- Systems must be installed and commissioned as per BreatheSafe installation and commissioning instructions. Once commissioned, the online commissioning sheet must be filled in, extending the components warranty as below. In addition, the system must be serviced and maintained correctly and by trained and qualified personnel. This requisite includes BreatheSafe technicians, qualified automotive air-conditioning technicians, or qualified auto electricians.
Warranty period – Standard
- 1 year or 10,000 hours (whichever occurs first).
- Controllers – 1 year no extended warranty option.
- Warranty Period Extension when commissioning documents are registered online within 28 days of installation
- Extended warranty** only offered if commissioning maximum pressure test reaches at least 250Pa.
- Brushless motor fixed speed two years, or 10,000 hours (whichever occurs first).
- Variable speed brushless motor 15,000 hours, or 3 years** (whichever occurs first).
Must be supplied with a variable speed pressure controller, data download required for 3-year warranty option. Link to online Commissioning and Extended Warranty Registration form https://www.breathe-safe.com.au/commission/
What is not covered under Express Warranty?
- Failures are due to incorrect application.
- Damage resulting from neglect, misuse, lack of maintenance, improper installation, or operation, inappropriate or abnormal use, accidental or unauthorized servicing repair.
- Failures are due to parts not being sold or approved by BreatheSafe.
- Failures arising from any other cause that is not directly related to a defect in material or workmanship.
This Express Warranty is VOID if the product is altered, modified, or used in the manner it was not designed for, also including unauthorized repairs, or using maintenance and repair parts other than those supplied by BreatheSafe.
BreatheSafe responsibilities
- If there is a defect in material or workmanship not caused by the excluded failures during the warranty period, BreatheSafe will either replace the defective goods at our Queensland factory, or designated branch. *
- Alternatively, BreatheSafe may elect to provide new replacement parts, BreatheSafe approved repair parts or assembled components needed to repair the defect. BreatheSafe reserves the right to provide a refund of the purchase price in lieu of replacement or repair at BreatheSafe’s discretion. The replacement or repaired product will be sent to you freight prepaid by the customer or made available for pick-up on site.
Users Responsibilities
- The customer should ensure that the system is maintained according to BreatheSafe service requirements and only authorized parts must be used to service and maintain BreatheSafe systems. In the event of a suspected warranty claim, BreatheSafe should be contacted in the first instance to arrange the repair or to assist with diagnosis. Claims should be made within one week of the repair.
- After contacting BreatheSafe, you may be required to deliver or send the parts to BreatheSafe’s Queensland factory or designated branch. * Link to online Warranty claim form https://www.breathe-safe.com.au/warranty/
Exclusion and Limitations on Damages and Remedies
- This warranty is provided in lieu of all other warranties, written or oral, whether expressed by affirmation, promise, description, drawing, model, or sample. To the extent allowed by law, all warranties other than this warranty, whether express or implied, including implied warranties of fitness for a particular purpose, are disclaimed. The maximum liability of BreatheSafe under this warranty shall not exceed the original purchase price of the product. Interference with the equipment by or abuse, or by operating the equipment at ambient temperatures or with electrical power characteristics outside the ranges indicated in our specification shall be excluded from this warranty, as shall consequential damages.
- Excluded from any express warranty are costs incurred in relation to service outside our factory our designated service branch, including traveling time, waiting time, transport costs, mechanical and overtime payments required. As per Australian Consumer Law: You are entitled to choose a refund or replacement for major failures with goods. If a failure with the goods or service does not amount to a major failure, you are entitled to have the failure rectified in a reasonable time. If this is not done, you are entitled to a refund for the goods and to cancel the contract for the service and obtain a refund of any unused portion. You are also entitled to be compensated for any other reasonably foreseeable loss or damage from a failure in the goods or service.
ABOUT COMPANY
- +61 7 3276 7833
- www.breathe-safe.com.au
- sales@breathe-safe.com
- 62 Mica Street, Carole Park, 4300, QLD
References
- BreatheSafe - Intelligent HEPA H14 Cabin Air Filtration
- Home - Safe Software
- BreatheSafe - Intelligent HEPA H14 Cabin Air Filtration
- Commissioning - BreatheSafe
- Commissioning - BreatheSafe
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