NIDEK
Mark 5 Nuvo Lite Family Models 525, 535, 925, 935 Service Manual Rev E April 2018
Service Manual
35 Pages
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SERVICE MANUAL Mark 5 Nuvo® Lite Family (Nuvo Lite and Nuvo Lite 3) For models: 520, 525, 535, 920, 925, and 935 And serial numbers beginning 132-XXXXX
Nidek Medical Products, Inc.
3949 Valley East Industrial Drive Birmingham, Alabama 35217 USA Telephone: (205) 856-7200 • 24-Hour Fax: (205) 856-0533 Nidek Medical is a trademark of Nidek Medical Products, Inc. Mark 5 Nuvo® is a registered trademark of Nidek Medical Products, Inc
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Contents 1.0
General Safety Warnings...4
2.0
Glossary of Symbols ...5
3.0
About the Mark 5 Nuvo Lite Family ...6
3.1
Intended Use and Operation ...6
3.2
Installation and Storage ...6
3.3
Alarms and Safety Features ...7
3.4
Device Performance and Specifications...8
4.0
Service Provider (Home / Clinic / Hospital)...9
4.1
Responsibilities ...9
4.2
Operational Check...9
4.3
Patient / Caregiver Instruction...11
5.0
Service Technicians ...11
5.1
Testing and Troubleshooting ...11
5.2
Troubleshooting Chart ...15
5.3
Component Removal / Replacement Instruction ...16
5.3.1
Remove Cabinet Back ...16
5.3.2
Remove Caster(s) ...16
5.3.3
Replace Inlet / Silencer Filter ...17
5.3.4
Replace Final Product Filter ...17
5.3.5
Replace Compressor ...17
5.3.6
Replace Capacitor ...18
5.3.7
Replace Control Valve ...18
5.3.8
Replace Sieve Module ...18
5.3.9
Replace Cabinet Fan...19
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5.3.10
Replace Circuit Board (OCSI and Pressure) ... 19
5.3.11
Adjust Regulator ... 20
5.3.12
Clean / Rebuild Regulator... 20
5.3.13
Replace Circuit Breaker ... 21
5.3.14
Replace Power Switch ... 21
5.3.15
Replace Buzzer ... 21
5.3.16
Replace Hour Meter ... 21
5.3.17
Replace Flow Valve ... 22
5.3.18
Replace Power Cord ... 22
5.4 6.0
Tools Required - Test Equipment / Gauges Available... 22 Schematics / Assembly Drawings / Part Callouts ... 23
6.1
Flow Schematic (OCSI models) ... 23
6.2
Flow Schematic (Standard models) ... 23
6.3
Electrical Schematic (all models) ... 24
6.4
Compressor Assembly / Parts Callout... 25
6.5
Front Cabinet Assembly / Parts Callout ... 27
6.6
Back Cabinet Assembly / Parts Callout ... 29
6.5
Module Assembly / Parts Callout... 31
Appendix A
Service and Maintenance Log ... 33
Conformity with EN 60601-1 ... 35
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1.0 General Safety Warnings This unit is not a life-support device. Geriatric, pediatric, or any other patient unable to communicate discomfort while using this device should receive additional monitoring. This device supplies highly concentrated oxygen enriched product gas that promotes rapid burning. DO NOT allow smoking or open flames within the same room of this device or the administration accessory (cannula). Failure to observe this warning can result in severe fire, property damage, and / or cause physical injury or death. Oxygen accelerates the combustion of flammable substances. DO NOT use oil, grease, petroleum based or other flammable products on the device, the administration accessory (cannula) or the patient’s face / neck. Only persons who have read and understood this entire manual should be allowed to service the device. CONTRAINDICATIONS - Those who continue to smoke (because of the increased fire risk and the probability that the poorer prognosis by smoking will offset the treatment benefit).
℞
Only
Federal Law (US) restricts this device to sale by, or on the order of, a licensed physician. This oxygen concentrator should be used only under the supervision of a licensed physician.
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2.0 Glossary of Symbols ON (Power switched on) OFF (Power switched off) Manufacturer Name and Address Type B Device Class II Protection IPX1 Protection from vertically falling water drops Do Not Expose to Open Flames Do Not Expose to Oil or Grease Tools Required / Technician Only Refer to Technical Information / Service Manual Refer to Instructions for Use / User’s Guide Keep in Vertical Position FRAGILE – Handle with Care Visual Alarm Indicator
WARNING – A hazard or unsafe practice that can result in serious injury or death if conditions are not avoided. Caution - A hazard or unsafe practice that can result in minor injury and / or property damage if conditions are not avoided. Note – Information important enough to emphasize or repeat
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3.0 About the Mark 5 Nuvo Lite Family 3.1 Intended Use and Operation The Mark 5 Nuvo Lite Family (Nuvo Lite and Nuvo Lite 3) Oxygen Concentrators are used as a means of providing continuous oxygen enriched product gas for patients, adolescent to geriatric, suffering from health conditions that cause low levels of oxygen in the blood (hypoxaemia). The Mark 5 Nuvo Lite Family begins their operation with air being pulled into the external air intake filter. This filtered air enters the compressor via a suction resonator and fine filter. Pressurized air then exits the compressor and passes through a heat exchanger, which reduces the temperature of the compressed air. Next, an electronic valve system directs the air into one of two tubes that contain molecular sieve (sieve beds). The molecular sieve adsorbs (physically attracts) the nitrogen from the air as it is pushed through the sieve beds. This allows the oxygen enriched product gas to pass through before being delivered to the pressure regulator. As one tube is generating the product gas, the other is being purged of the adsorbed nitrogen, this process is called pressure swing adsorption (PSA). After passing through the regulator, the rate of product gas being delivered to the patient is set by the flow meter adjusting valve. Finally, it passes through a fine particle filter and then over a sensor that detects the oxygen concentration of the product gas before it exits the device through a fire resistant outlet. Make sure during operation and after shut down that the cannula is facing away from soft surfaces and clothing. Excess oxygen can accumulate and cause ignition if exposed to a spark or open flame. Use the power cord provided. Check that the electrical characteristics of the power outlet used match those indicated on the manufacturer’s technical label on the rear panel of the device. This unit may be equipped with a polarized plug. That is one blade wider than the other. If it does not fit into the outlet, reverse the plug. If it still does not fit, contact a qualified electrician. Do not defeat this safety feature.
3.2 Installation and Storage The device should be operated in a dry area, with an ambient temperature between 10°C to 40°C (50°F to 105°F) at 15-95% relative humidity. The device can be operated at an altitude of up to 2200m (7500ft) at a temperature of 21°C (70°F) without causing product degradation. DO NOT use in explosive atmosphere. To avoid risk of fire and explosion the concentrator should be kept away from heat sources, incandescent sources, solvents, Aerosols, etc. Unit should be placed and operated in a well-ventilated space that is free of pollutants or fumes and protected from the elements with adequate lighting. Unit should be placed and operated in a space where the position and storage of the mains cable and oxygen tubing do not present a tripping hazard. The mains cable should be easily accessible for disconnection. For patient safety and benefit, no modification to the equipment is allowed. It is also not recommended to interconnect the device with any equipment or accessories not specified in this guide. Device must have power to operate. In the event of power loss and for continued operation a backup source is recommended. Do not use in a specifically magnetic environment (MRI, X-ray, etc.). May cause device malfunction. We recommend against the use of extension cords and adapters, as they are potential sources of sparks and fire. 2010-8407 Rev E
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Consult your equipment provider for further information regarding altitudes of 2200 m to 4000m (7500 to 13000ft).
The device should be stored in a dry area, with an ambient temperature between -20°C to 60°C (0°F to 140°F) at 1595% relative humidity. It must be stored, transported and used in the vertical position only. Oxygen concentration can be affected after prolonged periods of storage – check device before use.
3.3 Alarms and Safety Features Each device is equipped with indicator lights (green and yellow) and auditory indicators to identify various operational modes. Devices manufactured prior to 2018 were equipped with red and yellow indicator lights. The alarm modes are described below: The device has an audible alarm to warn the user of problems. In order that the alarm may be heard, the maximum distance that the user can move away from it must be determined to suit the surrounding noise level. If any of the below alarm conditions occur, press the Power Switch to the “O” (OFF) position. Refer to the Troubleshooting Guide in §5.2 for the possible cause and solution. No voltage detection: In the event of a loss of mains power, an intermittent audible alarm is activated and the green light is no longer illuminated. Oxygen Concentration Status Indicator: If supplied, in the event that the oxygen concentration falls below the set point percentage, a continuous audible alarm and the yellow indicator light will actuate. The oxygen concentration monitor is an electronic module capable of checking the effective oxygen concentration supplied by the concentrator. When the device is started, the green indicator light will flash until the concentration set point is reached (approximately two minutes).
A solid green indicator light means the power is applied to the concentrator and that it is ready to provide oxygen enriched air to the patient. No special maintenance is required. The alarm set-point is factory set and the setting cannot be adjusted. All OCSI models are set at 85% ± 3%.
Blocked Cannula detection: If supplied, the device has a Blockage Alarm. A continuous audible alarm and both indicator lights will be lit immediately in the event the flow of oxygen to patient becomes blocked. Malfunction detection: If low pressure occurs due to a mechanical failure, the indicator light will flash yellow and a continuous audible alarm will actuate. Thermal safety: The compressor motor is protected by a thermal switch situated in the stator winding (145 ± 5° C). One tubeaxial fan cools the compressor compartment. Electrical protection: •
A 5A circuit breaker is incorporated into the front cabinet of all 230V models
•
A 10A circuit breaker is incorporated into the front cabinet of all 115V models
•
Class II devices with insulated casings (EN60601-1 standard)
Safety valve: This is fitted on the compressor outlet and is calibrated to 3.4 bar (50 psig). Fire Break: This device is fitted with a metal fire break at the Oxygen Product Outlet. This break will keep fire from entering the device.
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3.4 Device Performance and Specifications The performance of the device (especially the oxygen concentration) is quoted at 21°C (70°F) and one atmosphere. The specifications may change with temperature and altitude.
Model
520
Description
5 LPM 115V
Frequency Average Power
525
535
935
5 LPM 230V
3 LPM 115V
3 LPM 230V
60 Hz
50 Hz
60Hz
50 Hz
330 Watts
300 Watts
210 Watts
180 Watts
Protection Class Mains Protection
920
925
Class II 10A
5A
5A
At 2 LPM > 90%
Average Oxygen Content Average Oxygen Content
At 5 LPM 87% to 95.5%
At 3 LPM 87% to 95.5%
Liter Flow
0.125 to 5 LPM
0.125 to 3 LPM
Outlet Pressure
7 Psig
Dimensions (L x W x H)
36 x 23 x 58.5 cm (14 x 9 x 23 in.)
Weight
14.5 kg (32 lbs.)*
Noise Level
< 58 dBA
* Weight dependent on model and features
In compliance with EN ISO 80601-2-69, the flow supplied is equal to the flow set on the flowmeter, accurate to within ± 10% or 200 ml/min, whichever is greater. The variation of the maximum recommended flow does not exceed ± 10 % of the indicated value when a back pressure of 6.9 kPa (1 psig) is applied to the output of the device. Complies with EN 60529:2001 + A2:2014 rating of IPX1; enclosure protects internal electrical components against vertically falling water drops. Complies with EN 60601-1:2006 [11.6.3]; enclosure protects internal electrical components against spilling of a glass of water (i.e. contents of humidifier).
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4.0 Service Provider (Home / Clinic / Hospital) 4.1 Responsibilities Service Providers of the Mark 5 Nuvo Lite Family (Nuvo Lite and Nuvo Lite 3) Oxygen Concentrators must assume responsibilities for handling, operational testing, patient instruction, and maintenance. These responsibilities are outlined below and throughout this manual. To ensure patient safety, use only after one or more settings have been individually determined or prescribed for the patient at their specific activity levels – AND – only use the accessories that were used when the settings were determined. While undergoing oxygen therapy, if the patient feels discomfort or experiences a medical emergency, seek medical assistance immediately. As a Service Provider, you should do all of the following: •
Inspect the condition of each device immediately upon delivery to your location. Note any sign of damage, on the delivery receipt, and immediately report it directly to both the freight company and Nidek Medical Products, Inc.
•
Ensure the operation of each device before delivery to a patient by completing the “Operational Check” provided in §4.2.
•
Ensure each device has been thoroughly cleaned, the cabinet filter has been cleaned or replaced, and the nasal cannula and tubing has been replaced before delivering the device to a new patient or between patients.
•
Deliver device only to patients authorized by a physician’s prescription. The device must not be used as a life-supporting or life sustaining device.
•
Ensure a backup supply of oxygen is available.
•
Instruct patients and patient caregivers how to use the device in conjunction with the Instructions for Use (PN 2010-8401CE), including required routine maintenance and cleaning of the device and filters. See “Patient / Caregiver Instruction” provided in §4.3.
•
Record and notify Nidek Medical of any and all complaints provided by the patient or patient caregiver. o The FDA defines a complaint as “any written, electronic, or oral communication that alleges deficiencies related to the identity, quality, durability, reliability, safety, effectiveness, or performance of a device after it is released for distribution.”
•
Be available to service each patient at any time.
•
Keep service records of each device. A form approved by Nidek Medical has been provided in Appendix A.
•
Repair components and replace parts only as outlined in this manual. Use only Nidek Medical parts for replacement. Refer to the Product Warranty Statement if parts replacement is required within the warranty period.
4.2 Operational Check Nidek Medical runs each device through a burn in period and tests every device thoroughly after manufacture before releasing it for shipment. As the Service Provider, it is your responsibility to perform the following check to ensure that the device is operational.
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1. Plug in the power cord of the unit, following the electrical characteristics noted on the technical label, and set the Power Switch to the I (ON) position. The compressor should begin running. 2. Once the device has been running for approximately ten minutes, verify the concentration is within specifications, the flow is accurate and the alarms are operational. For units equipped with the Oxygen Concentration Status Indicator (OCSI) (models 525, 535, 925, 935), the green indicator light will flash until the oxygen concentration reaches 85% ± 3% (approximately two minutes). a. Verify oxygen concentration by: i. Connect a calibrated oxygen concentration analyzer to the oxygen outlet. 1. If an oxygen humidifier bottle is used, remove it from the oxygen outlet. The concentration readings of the product gas after it has passed through a humidifier bottle will be erroneous and can result in damage to your analyzer. 2. Oxygen analyzers are available for purchase from Nidek Medical (see §5.4 for testing equipment part numbers). ii. Set the flow rate of the device to the prescribed rate of the patient. iii. Record oxygen concentration readings over a period of several minutes to reduce any cyclic variations. These readings should fall within the specifications provided in §3.4. 1. If not, refer to the troubleshooting chart in §5.2 for possible causes and solutions. b. Verify the flow is accurate by: i. Connect a calibrated flow gauge to the oxygen outlet. 1. If an oxygen humidifier bottle is used, remove it from the oxygen outlet. 2. Gauges are available for purchase from Nidek Medical (see §5.4 for testing equipment part numbers). ii. Turn the flow knob clockwise until it stops (wide open). iii. The reading should indicate 5 liters/min. (models 520, 525, 920 and 925) or 3 liters/min (models 535 and 935). 1. If not, refer to §5.3.11 for adjusting the regulator, or refer to the troubleshooting chart in §5.2 for other possible causes and solutions. c. Verify alarms are operational by: i. No Voltage Alarm 1. Unplug the power cord from the wall outlet. 2. Set the Power Switch to the I (ON) position. 3. This should immediately activate the intermittent audible alarm and there should be no indicator lights actuated. a. If it does not, refer to the troubleshooting chart in §5.2 for possible causes and solutions. ii. Blockage Alarm 1. Adjust the Flow Knob to desired flow rate. 2. Block the oxygen flow at the patient outlet 3. This should immediately activate a continuous audible alarm and both indicator lights should be actuated. a. If it does not, refer to the troubleshooting chart in §5.2 for possible causes and solutions.
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4.3 Patient / Caregiver Instruction It is important that the patient and/or caregiver thoroughly understands how to operate their device. This enables proper treatment as prescribed by a qualified, licensed physician. You must explain that the purpose of this therapy is to alleviate symptoms. If the patient experiences any discomfort or the unit alarm sounds, they must notify their Service Provider and/or physician immediately. You, as the Service Provider, are responsible to see that each patient receives the Instructions for Use (IFU) (PN 2010-8401CE) and understands how to operate, clean and maintain their device. •
Refer to §4.2 in the IFU for the Start-Up procedure.
•
Refer to §4.3 in the IFU for the Shut Down procedure.
•
Refer to §5.1 in the IFU for the Cleaning procedures of the device itself, the filters and the accessories.
•
Refer to §5.2 in the IFU for the Maintenance procedure.
Refer to §5.3.3 and §5.3.4 of this manual for instruction on replacing the inlet and final product filters.
5.0 Service Technicians The design of the Mark 5 Nuvo Lite Family (Nuvo Lite and Nuvo Lite 3) allows for easy access and removal of most components. This allows you to perform scheduled maintenance, repair, and replacement of parts with minimal time and effort.
•
Refer to §5.2 for the Troubleshooting Chart for a list of problems, possible causes and solutions.
•
Keep service records of each device. A form approved by Nidek Medical has been provided in Appendix A.
•
Repair components and replace parts only as outlined in this manual. Use only Nidek Medical parts for replacement.
•
Refer to the Product Warranty Statement if parts replacement is required within the warranty period.
•
Analyzers and gauges are available for purchase from Nidek Medical, see §5.4 for part numbers. For your safety, be sure to set the Power Switch to O (OFF) position and unplug the power cord before you service the device.
5.1 Testing and Troubleshooting Before reviewing the troubleshooting chart, the following questions may be useful to isolate any malfunctions. 1. Does the concentrator turn on when the switch is activated? 2. Are the filters clean? 3. Connect an oxygen analyzer to the outlet fitting of the device. Set the flow to 2LPM, is the concentration greater than 90%? Set the flow at 5 LPM (or 3LPM for models 535 and 935), is the concentration between 87 and 95.5%? 4. Connect test pressure gauge to the outlet fitting of the unit. Does the pressure read 7.1 psig (49 kPa) ± 20%? 5. Perform an air pressure test (P1). Does the pressure cycle between 10-15 and 25-32 psig approximately (70103 and 172-220 kPa)? a. Remove the upper cabinet back (see §5.3.1 for instructions). b. Remove the air supply tubing going to the control valve and install the test port tee fitting. (See Figures 5.1.1 and 5.1.2 below for Normal Operating Configuration and Test Port Configuration.) 2010-8407 Rev E
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c. Connect the pressure test gauge to the P1 test port. d. Observe the maximum and minimum readings on the pressure test gauge. i. Higher than normal operating pressure may indicate a restrictive exhaust muffler, which does not allow the waste (purge) gas to exit the system freely, or contaminated sieve beds. ii. Lower than normal operating pressure may indicate: 1. A restriction in the suction resonator or inlet air filter, this limits the amount of room air available to the compressor. a. Disconnect the suction tube at the compressor, then allow the unit to operate without the suction resonator to see if normal operating pressure returns. 2. An improperly operating control valve. Confirm that the control valve does not have a leak. 3. A leak in the unit, which allows system pressure to escape. Leak test the unit. 4. A compressor with reduced output. 6. Are all tubing connections and fittings leak free? a. Test with a leak testing solution. Protect circuit board from solution and start leak test at the heat exchanger, following the air flow through the unit to the oxygen outlet. Repair all leaks by tightening connections and fittings. 7. Perform a product pressure test (P2). Does the pressure cycle between approximately 9 psig and 32 psig (62 to 220 kPa)? a. Remove the back cabinet top (see §5.3.1 for instructions). b. Remove the plug from the regulator test port and install the test gauge tube. c. Remove the tube from the control valve and install the test port tee. (see Figures 5.1.1 and 5.1.2 below for Normal Operating Configuration and Test Port Configuration.) d. Connect the pressure test gauge to the P2 test port. e. Observe the maximum and minimum readings on the pressure test gauge. i. Higher than normal operating pressure may indicate a restrictive exhaust muffler, which does not allow the waste (purge) gas to exit the system freely, or contaminated sieve beds. ii. Lower than normal operating pressure may indicate: 1. An inlet air filter that limits the amount of room air available to the compressor. a. Disconnect the suction tube at the compressor, then allow the unit to operate without the suction resonator to see if normal operating pressure returns. 2. An improperly operating control valve. Confirm that the control valve does not have a leak. 3. A leak in the unit, which allows system pressure to escape. Leak test the unit. 4. A compressor with reduced output. Refer to the troubleshooting chart in §5.2 if you answered no to any of the above questions. See the Troubleshooting Flow Chart (Figure 5.1.3), for easy reference. 2010-8407 Rev E
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PRODUCT OUT TO FLOW CONTROL VALVE
INLET FROM COMPRESSOR
Figure 5.1.1 Normal Operating Configuration
P2 TEST PORT
P1 TEST PORT
5.1.2 Test Port Configuration
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Low Oxygen Concentration
Verify Oxygen Flow Rate
Measure Air Pressure Low Pressure
High Pressure
Replace Air Inlet Filter Replace Muffler Foams
Check for Leaks
Check Control Valve
Check the Compressor Normal Air Pressure
Measure the Oxygen Pressure Low Pressure
High Pressure
Check for Leaks
Replace Muffler Foams
Check the Control Valve
Replace Sieve Module Normal Pressure
Check for leaks at the: - regulator outlet - product tubing - oxygen outlet
5.1.3 Troubleshooting Flow Chart
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5.2 Troubleshooting Chart PROBLEMS POSSIBLE CAUSES Compressor runs with intermittent high pressure alarm and low oxygen concentration. Compressor relief valve releases (popping sound).
Constant alarm with Power Switch in ON position. Circuit breaker repeatedly trips.
Alarm does not sound.
Flow fluctuates.
Defective sieve beds. Restriction in exhaust muffler. Defective valve. Defective control valve. Contaminated sieve beds. Defective relief valve. Defective circuit breaker. Defective capacitor. Defective compressor. Defective circuit board. Faulty electrical connection. Faulty electrical connection. Defective I/0 (ON/OFF) switch. Defective buzzer. Defective pressure sensor. Improperly set or faulty product regulator. Leak. Worn compressor. Defective flow valve. Kinked tubing.
Cabinet fan does not turn.
Limited or Iow flow.
Defective cabinet fan. Defective electrical connections. Restriction in humidifier or tubing. Product regulator set too low. Leak. Weak compressor. Air flow obstruction.
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SOLUTIONS Replace sieve beds. Replace or clean muffler. Replace sieve module. Replace sieve module. Replace sieve module. Replace relief valve. Replace circuit breaker. Replace capacitor. Replace compressor. Replace circuit board. Repair electrical connection. Repair electrical connection. Replace Power Switch. Replace board. Replace and test control board. Check regulator setting/clean, repair, or replace regulator. Leak test. Replace compressor. Replace flow valve. Check tubing that connects the top of the sieve beds. Replace cabinet fan. Check electrical connections. Replace humidifier or tubing. Adjust regulator setting. Leak test and repair leak. Check system pressure and rebuild or exchange compressor. Check Filter, suction resonator, and suction tube for obstruction.
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Compressor inlet filter is dirty or partially blocked. System leak. Faulty compressor. Low concentration.
Unit temperature too high. Contaminated sieve beds. Defective control valve. Restriction in exhaust muffler. Restriction in suction resonator. Restriction in humidifier or tubing. Product regulator set too low.
Limited or low flow. Leak.
Replace inlet filter. Leak test and repair leak. Check system pressure and rebuild or replace compressor. Blocked air intake or defective cabinet filter. Check that P1 and P2 pressures are within range. Replace sieve module. Repair or replace sieve module. Replace or clean exhaust muffler. Check suction resonator and suction tube for obstruction and remove. Replace humidifier or tubing. Adjust regulator setting. Leak test and repair leak. Check system pressure and rebuild or exchange compressor. Check Filter, suction resonator, and suction tube for obstruction.
5.3 Component Removal / Replacement Instruction For your safety, be sure to set power switch to O (OFF) position and unplug the power cord before you service the device.
Keep service records of each device. A form approved by Nidek Medical has been provided in Appendix A.
5.3.1
Remove Cabinet Back
The cabinet back consists of a lower section and an upper section. Almost all maintenance functions can be accomplished by removing only the upper section. 1. Upper: 1. Stand the device on its casters facing the back. 2. Remove five (5) screws, two at the top near the handle and three near the bottom of the upper section. 2. Lower: 1. After removing the upper section, lay the device on its front. 2. Remove four (4) screws, two at the top of the section and two at the bottom of the lower section.
5.3.2
Remove Caster(s)
The casters are a push in type that does not require a fastener. 1. Lay the device on its back to access the casters from the bottom. 2010-8407 Rev E
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2. Pull the caster straight out away from the bottom.
5.3.3
Replace Inlet / Silencer Filter
The inlet air filter requires inspection at each patient visit. The filter should be replaced every 2 years, or more often depending on environment. (The filter may require more frequent cleaning if the device operates in a harsh environment such as a house heated by wood, kerosene, or oil, or one with excessive cooking, cigarette smoke or atmospheric dust.) 1. Remove the cabinet air filter to locate the inlet air filter underneath. 2. Pull the inlet filter straight out away from the back. 3. Replace with a new filter. 4. Reinstall the cabinet air filter.
5.3.4
Replace Final Product Filter
The final product filter does not require periodic replacement; it needs to be replaced only if it restricts oxygen flow. It is suggested that it be replaced whenever the sieve module is repaired or replaced and after the compressor is rebuilt. 1. Remove the upper cabinet back (§5.3.1) to locate the final product filter. Observe the position of the filter (flow direction) before removal. 2. Separate the silicone tubing from both sides of the filter. 3. Install the new filter with the inlet side in the same position as before. 4. Push the tubing together so that it overlaps the barbs of the final product filter connections. 5. Reinstall the upper cabinet back.
5.3.5
Replace Compressor
The compressor is the pump within the oxygen concentrator that supplies air to the separation process performed by the sieve beds. The pressure generated by the compressor forces oxygen to flow out of the top of the sieve columns. The compressor was designed to function without maintenance for 15,000 hours, after that time it should be either serviced or replaced. The compressor is the likely cause of two potential specific problems, an insufficient amount of air is supplied to the process, and an excessive sound level. •
Air Supply - Compressor output refers to how much compressed air the compressor can produce. This depends upon the model of the compressor, length of stroke, piston diameter, speed of rotation and condition of seals. The cup seals form the seal between the piston and the cylinder wall. As the cup seals wear, the output begins to gradually decrease. This reduction in compressor output results in less air, and thus less oxygen, entering the sieve beds. Therefore, the production of oxygen decreases. The minimum air volume required for full oxygen capacity is 62 l/min (2.2 scfm) for 230 V devices (3 l/min units is 45l/min or 1.7 scfm) and 68 l/min (2.4 scfm) for 115 V devices, all tested at 20psi, 1.4 bar or 138 kPa. Because this drop in oxygen production occurs over a long period of time, preventive maintenance on the compressor is not required until the recommended replacement period at 15,000 hours.
•
Sound Level - The sound level is largely determined by the condition of the compressor’s bearings.
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There are four bearings located within the compressor that allow the inner components of the compressor to rotate. If the bearings wear to the point that they become loose and noisy, the compressor becomes noticeably loud and needs servicing. The life of a compressor is determined primarily by its operating temperature. It is extremely important that the inlet cooling air filters are cleaned and replaced as required. To remove the compressor assembly for exchange, take the following steps: 1. Remove the both the upper and lower cabinet back sections (§5.3.1). 2. Disconnect the suction tube and the discharge tube. 3. Disconnect the two compressor power cable leads and the two leads to the capacitor. 4. Slide the compressor assembly from the cabinet. 5. Remove compressor from the compressor support frame. 6. If equipped, remove heat exchanger from compressor. 7. If equipped, remove the heat exchanger fitting from the compressor. 8. With a new compressor, perform the steps 1-7 in reverse order. 9. Leak test all connections.
5.3.6
Replace Capacitor
The capacitor helps the compressor to start and run more efficiently. If the compressor cannot start, the capacitor may be defective and require replacement. The capacitor should be replaced at each compressor service. To replace the capacitor, take the following steps: 1. Remove the upper cabinet back (§5.3.1). 2. Disconnect the two leads to the capacitor and clip the tie wrap securing the capacitor. 3. With a new capacitor, connect the leads and install a new tie wrap. 4. Clip excess tie wrap after securing capacitor.
5.3.7
Replace Control Valve
The device uses a solenoid powered poppet valve assembly to control the air separation process. There is a feed port that connects to the compressor and an exhaust port that discharges through an integral exhaust muffler. There are three possible valve states as follows: •
Air feed connected to sieve bed A and exhaust connected to sieve bed B.
•
Air feed connected to sieve bed B and exhaust connected to sieve bed A.
•
Both ports open (this is a very short time period during which air pressure builds in the sieve beds).
The control valve of the device requires no scheduled maintenance. If a valve does not function as required, it is best to replace the complete sieve module (§5.3.8) as it is probable that one or both of the beds has been damaged.
5.3.8
Replace Sieve Module Do not expose molecular sieve (contents of bed) to air for an extended period of time. Prolonged exposure of molecular sieve to the moisture in room air results in contamination and permanent damage to the sieve material. Keep all openings to the sieve beds sealed during periods of storage.
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It is recommended to replace the sieve beds and control valve as a complete assembly.
To replace the sieve module, take the following steps: 1. Remove the upper cabinet back (§5.3.1). 2. Disconnect the compressor discharge 5/16” tube from the top of the solenoid valve and the product tube from the regulator. 3. Unplug the solenoid valve electrical leads at the solenoids 4. Lift the module up and out of the cradle. 5. With a new sieve module, perform steps 1-4 in reverse order. 6. Check for leaks. It is very important to ensure that the tubes are fully inserted into the fittings to eliminate leaks. To check for leaks, take the following steps: •
Plug in the unit.
•
Set the unit’s I/0 (ON/OFF) switch to I (ON) for three minutes with the flow meter closed to pressurize the system.
•
Apply soapy water around the tubing connections at the valve; check for leaks.
There is an electrical shock hazard with the Power ON. Be careful that no water contacts any of the electrical connections.
5.3.9
Even small leaks can affect concentrator performance and can cause contamination of the sieve. Careful leak testing is important.
Replace Cabinet Fan
The cabinet fan for the MARK 5 NUVO Lite is located adjacent to the compressor. To replace the cabinet fan, take the following steps: 1. Remove the back cabinet (§5.3.1). 2. Disconnect the fan leads, remove the isolation foam. 3. Lift out the fan. 4. With new fan, perform steps 1-3 in reverse order.
5.3.10
Replace Circuit Board (OCSI and Pressure)
There is a single printed circuit board within the device. It controls the alarm system functions and also controls the timing logic for the solenoid valves. The high and low pressure alarms are activated by a pressure transducer located on the printed circuit board. The Printed Circuit board (PCB) contain components that are sensitive to electrostatic discharge (ESD) that can damage the board if not handled properly. As when handling any ESD sensitive PCB, observe standard ESD safety procedures, including: • Handle the PCB by the edges only. • Work on a grounded ESD mat. • Wear a grounded wrist strap. • Store PCB in anti-static bags only. 2010-8407 Rev E
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The OCSI board is different from the Pressure Monitoring board found in standard units (models 520 and 920).
To replace the circuit board, take the following steps: 1. Remove the upper cabinet back (§5.3.1). 2. Remove the flow control valve (§5.3.17). 3. Disconnect the 7-pin connector from the upper circuit board. 4. IF OCSI BOARD - Disconnect tubing from each end of the black sensor tube, noting their position and orientation. 5. Cut tie-wrap and remove pressure sensor line. 6. Remove the screws that attach the board to the front cabinet. 7. Remove the circuit board. 8. With a new circuit board, perform steps 1-7 in reverse order.
5.3.11
Adjust Regulator
The product regulator enables you to set the maximum flow of oxygen output. To check for proper adjustment of the product regulator, take the following steps: 1. Set the power switch to the I (ON) position. 2. Allow the unit to run for a few minutes. 3. Connect a pressure gauge directly to the patient outlet. 4. The pressure should read 7.1 psig (49 kPa) ± 20%. 5. If it requires adjustment, a. Remove the upper cabinet back (§5.3.1) and lift out the module (§5.3.8) enough to access the regulator. b. Set flow to 5LPM. c. Adjust the regulator as necessary to read 4.9 to 5.1 LPM flow. Turn the knob clockwise to increase the flow or counterclockwise to lower the flow. (Requires a 3/32 hex wrench) 6. Reinsert the sieve module and reinstall the upper cabinet back.
5.3.12
Clean / Rebuild Regulator
Clean or rebuild the product regulator if the regulator cannot be adjusted. To clean / rebuild the regulator, take the following steps: 1. Remove the upper back cabinet (§5.3.1). 2. Remove the regulator from the tee on top of the solenoid valve assembly. 3. Adjust the product regulator fully counterclockwise to unload the spring. This makes disassembly and reassembly easier. 4. Remove the diaphragm. (Clean or replace it.)
2010-8407 Rev E
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