Instruction Manual
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Low Flow MicroBlender and High Flow MicroBlender Instruction Manual
MicroBlender
Instruction Manual
This document is protected by United States and International Copyright laws. This document may not be copied, reproduced, translated, stored in a retrieval system, transmitted in any form, or reduced to any electronic medium or machine-readable form, in whole or in part, without the written permission of CareFusion. Information in this document is subject to change without notice. This document is for informational purposes only and should not be considered as replacing or supplementing the terms and conditions of the License Agreement. © 2009–2012 CareFusion Corporation or one of its subsidiaries. All rights reserved. CareFusion and the CareFusion logo are trademarks or registered trademarks of CareFusion Corporation or one of its subsidiaries.
CareFusion
CareFusion Germany 234 GmbH
22745 Savi Ranch Parkway
Leibnizstrasse 7
Yorba Linda, CA 92887
97204 Hoechberg
USA
Germany
800.231.2466 toll-free
+49 931 4972-0 tel
714.283.2228 tel
+49 931 4972-423 fax
714.283.8493 fax carefusion.com
Literature number: L2965–101 Revision E
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Instruction Manual
MicroBlender
Contents Low Flow MicroBlender and High Flow MicroBlender ... i Instruction Manual... i Section 1: Introduction ... 1 Section 2: Operation Overview ... 2 Gas Inlets ... 3 Balance Module... 3 Proportioning Module ... 4 Alarm/Bypass ... 4 Outlet Ports ... 5 Bleed Outlet ... 5 Section 3: Warnings, Cautions, and Notes... 7 Section 4: Controls and Alarms ... 9 Section 5: Performance Checks ... 10 MicroBlender Alarm / Bypass Check Reverse Flow Check ... 10 Reverse Flow Check ... 11 Section 6: Troubleshooting Guide ... 13 Section 7: Cleaning and Sterilizing ... 15 Section 8: Maintenance and Service ... 16 Section 9: Parts and Accessories ... 17 Section 10: Explanation of Abbreviations ... 18 Section 11: Specifications ... 19 Section 12: Warranty ... 22
L2965–101 Rev. E
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MicroBlender
Instruction Manual
Low Flow MicroBlender and High Flow MicroBlender
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Instruction Manual
Section 1:
MicroBlender
Introduction
The MicroBlender is a lightweight, compact, air-oxygen blender that provides precise mixing of medical-grade air and oxygen. The MicroBlender provides oxygen concentrations from two gas-outlet ports.
Low Flow MicroBlender
High Flow MicroBlender
The MicroBlender can be used in conjunction with: •
Oxygen hoods
•
Resuscitation bags
•
Masks
•
Transports
•
Nasal cannulas
•
Treatments
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MicroBlender
Section 2:
Instruction Manual
Operation Overview
The MicroBlender provides selection of oxygen concentrations by means of a single control knob located on the front of the unit. Oxygen concentrations ranging from 21 to 100% are available. Outlet Flow Range Bleed Flow Low Flow MicroBlender
Primary, Left Side
3-30 LPM
No Bleed Flow
Auxiliary, Right Side
0-30 LPM
2.5-3.5 LPM
High Flow MicroBlender
Primary, Bottom
15-120 LPM
No Bleed Flow
Auxiliary, Right Side
2-100 LPM
10-12 LPM
Auxiliary Outlet
Primary Outlet
Low Flow MicroBlender Outlets
Auxiliary Outlet
Primary Outlet High Flow MicroBlender Outlets
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MicroBlender
Gas Inlets The ports located on either side of the unit allow flexibility for the clinician. The MicroBlender operates by using two 30–75 PSI gas sources that enter the device through DISS or NIST connectors located on the bottom the unit.
Air and oxygen hoses are connected directly onto the MicroBlender gas inlets.
30 - 75 PSI Inlet Connectors Each inlet connector incorporates a 30 micron particulate filter. After passing through the filter, the gases travel through duckbill check valves that prevent reverse gas flow from either the air or oxygen supply systems.
30 - 75 PSI Inlet Connectors The MicroBlender is tested for compliance with ISO 11195E (1995), clause 6, regarding reverse-gas flow as delivered. Balance Module The gases then enter the balance modules, which equalize the operating pressures of the air and oxygen. The diaphragm in the balance module responds to a difference in pressure and directs the movement (stroke) of each poppet contained within the air and oxygen chambers. The movement of each poppet adjusts the amount of gas fl owing through the balance module, equalizing the air and oxygen pressures.
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Proportioning Module From the balance module, the gases flow into the proportioning module and mix according to the oxygen percentage selected with the MicroBlender control knob. This module consists of a double-ended poppet positioned between two valve seats. One valve seat controls the passage of air and the other valve seat controls the passage of oxygen into the MicroBlender outlets. At this point, the two gases have been blended according to the oxygen percentage selected by the control knob. Alarm/Bypass The alarm feature provides for an audible alarm if source pressures differ by 20 ±2 PSI or more. The primary purpose of the alarm is to audibly warn the operator of an excessive pressure drop or depletion of either source gas. The alarm will also activate when there is an elevation of either source gas resulting in a 20 ±2 PSI difference. Should both gas pressures (oxygen or medical air) increase or decrease simultaneously, and a 20 ±2 PSI differential is not seen, there will not be an audible alarm. If either source gas pressure drops, the output pressure of the blender will drop similarly, since the source gases are always balanced to that of the lower pressure. The bypass function operates in unison with the alarm. The alarm bypass poppet communicates directly with the air supply on one end and the oxygen supply on the other. When the two source gases are near equal in pressure, the alarm bypass poppet is positioned over the bypass channel, blocking the flow of both gases. The poppet will remain seated for unequal pressures up to 20 ±2 PSI. Once a 20 ±2 PSI difference occurs, the higher gas pressure will overcome the spring force and pressure of the poppet at its opposite end, thus creating a path (air or oxygen) to flow into the alarm channel. The gas with the higher pressure will also flow directly to the blender outlet port bypassing the Balance and Proportioning Modules. The gas is also directed to the bottom of the unit to the reed alarm, thus creating an audible warning. The oxygen concentration will be that of the gas at the higher pressure. The blender in the alarm/bypass mode will deliver the oxygen (100%) or medical air (21%) until the pressure has been restored to a differential of approximately 6 PSI. If the blender is set at 21% and the OXYGEN source pressure is reduced enough to produce a 20 ±2 PSI or greater differential, the unit may not alarm because it will continue to deliver 21% concentration according to the setting. If the control is moved slightly from the 21% setting, the alarm will sound.
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Similarly, if the blender is set to deliver 100% concentration and AIR source pressure is reduced or lost, the unit may not alarm because it will continue to deliver the selected 100% concentration. If the blender is left connected to source gases but is not being used (i.e., no output flow or bleed flow) the unit will not alarm if a 20 ±2 PSI or greater pressure differential develops. If the blender is not in use, an alarm under these conditions will be an unnecessary distraction or nuisance. Outlet Ports On the Low Flow MicroBlender, two outlet ports are located on the right and left sides of the MicroBlender and allow low ranges from 0-30 LPM with bleed and 3 - 30 LPM without bleed respectively. On the High Flow MicroBlender, the primary outlet port is located on the bottom of the MicroBlender, and the auxiliary outlet is located on the right side of the MicroBlender, allowing ranges from 15 to 120 LPM without bleed and 2 to 90 LPM with bleed respectively. Bleed Outlet For the Low Flow MicroBlender, when a connection is made to the right side outlet port, for example, when a flow meter is attached, a bleed flow of 2.53.5 LPM is achieved. For the High Flow MicroBlender, when a connection is made to the right side outlet port, a bleed flow of 10-12 LPM is achieved. For both Blenders, the bleed flow exits the unit through a muffler port located on the bottom of the MicroBlender.
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High Flow MicroBlender
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Instruction Manual
Section 3:
MicroBlender
Warnings, Cautions, and Notes
The MicroBlender should be operated by trained, qualified medical personnel under the direct supervision of a licensed physician. Before clinical application, the following WARNINGS, CAUTIONS and NOTES should be read and understood. Note: A specific point is made to assist the operator in understanding the equipment. Caution! Conditions may exist that could damage the MicroBlender or other pieces of equipment. Warning! Conditions may exist that could adversely affect the operator or patient. Note: Users are advised to use inlet pressure regulators with the MicroBlender to display system pressure. Allow equilibration time for FiO2 changes before analyzing gas. Caution! •
Always operate air/oxygen blenders with clean and dry medical grade gasses. Contaminant or moisture can cause defective operation. Air used for medical purposes must meet USP compressed air and/or ANSI Z86.1 1973 grade F, and water vapor content must not exceed a blender’s dew point of 5°F below the lowest ambient temperature to which the delivery system is exposed. Particulate content must not exceed that which would be downstream of a 15 micron absolute filter.
•
Water vapor content of medical air or O2 supply to the MicroBlender must not exceed 5.63 grams H2O per cubic meter of non-condensable gas.
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Warning! •
•
• • • • • • • • •
If either the air or oxygen gas source fails, the MicroBlender alarm sounds, alerting the clinician that a condition has occurred that may significantly alter the FiO2 and flow output from the MicroBlender. If either the air or oxygen gas source pressure is reduced or increased creating a pressure differential of 20 ±2 PSI, the MicroBlender alarm sounds. This condition significantly alters the FiO2 and flow output from the MicroBlender. Always operate the MicroBlender with clean and dry medical grade gases. Air Inlet Filter/Water Trap (P/N 07426) is recommended for use with the MicroBlender. The patient gas must be monitored with an oxygen analyzer. DO NOT steam clean, autoclave, or otherwise subject the MicroBlender to temperatures above 145°F (62°C). DO NOT immerse the assembled MicroBlender in liquid decontamination agents. Consult a physician for appropriate FiO2 setting. DO NOT tape, obstruct, or remove the reed alarm outlet at any time. DO NOT occlude or obstruct the bleed port or muffler on the bottom of the MicroBlender. Adjustment of the oxygen concentration must be verified using an oxygen analyzer.
The following symbol may be referenced on the blender or in the accompanying documentation. Symbol
8
Source/Compliance
Meaning
Symbol #03-02 IEC 60878
Indicates ATTENTION, consult ACCOMPANYING DOCUMENTS
L2965–101 Rev. E
Instruction Manual
Section 4:
MicroBlender
Controls and Alarms
The MicroBlender delivers selected oxygen concentrations through two outlet ports. The outlet ports, although similar in appearance, have different flow range specifications. The two outlet ports provide a choice of flow ranges based on the application desired. Both outlets may be used simultaneously, provided the combined flows do not exceed the rated maximum flow capability of the MicroBlender. The use of a flow meter attached to either or both of the outlet ports may be used to control the flow of mixed gas. Control knob-allows selection of oxygen concentrations from 21 to 100%
Low Flow MicroBlender
(Front View)
High Flow MicroBlender
An audible alarm indicates a differential of 20 PSI has been reached between air and oxygen inlet gas pressures.
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MicroBlender
Section 5:
Instruction Manual
Performance Checks
Before placing the MicroBlender into clinical use, perform the following performance checks. Warning! If the MicroBlender does not function as described below, contact CareFusion (refer to the company information at the beginning of this manual). DO NOT use the MicroBlender until correct performance is verified. MicroBlender Alarm / Bypass Check Reverse Flow Check Adjustment Response 1. Connect the 50 ±5 PSIG** air/ oxygen source gases. Adjust the control knob to 60%. Connect the flow meter to the auxiliary outlet and set the flow to 2 LPM.
1. Alarm/Bypass* should not activate (if gases are within 20 PSI of each other).
2. Disconnect the 50 PSIG air source from the MicroBlender.
2. Audible alarm, bypass* gas flow starts.
3. Reconnect the 50 PSIG** air source to the MicroBlender.
3. Audible alarm stops; bypass* gas flow stops flowing.
4. Disconnect the 50 PSIG** oxygen source from the MicroBlender.
4. Audible alarm, bypass* gas flow starts.
5. Reconnect the 50 PSIG** oxygen source to the MicroBlender.
5. Audible alarm stops; bypass* gas flow stops flowing.
6. Verify that the oxygen flow meter is set at 2 LPM.
6. Oxygen analyzer should read 60 ±3% when measured from the flow meter outlet.
*Bypass flow should occur whenever the alarm sounds, but this condition can only be verified by measuring O2 concentrations with an oxygen analyzer. **Gas supply pressures of 50 PSIG provide optimal performance.
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Reverse Flow Check
1. 2.
3.
4. 5.
Connect both gas supply hoses to the inlet connectors. Connect the oxygen hose to an oxygen pressure regulator, and submerge the free end of the air hose in a container of water. Do not make a connection to either blender outlet (so that they remain closed). Slowly adjust the oxygen pressure regulator to increase pressure from 0 to 50 PSIG* while looking for bubbles to rise from the submerged air hose connector. The presence of bubbles indicates leakage of the one-way valve and the need for repair. If there is no leakage, disconnect the oxygen from the regulator and submerge the end of the hose in water. Connect the air hose to an air pressure regulator and repeat the procedure. Repair if bubbles are present. *Gas supply pressures of 50 PSIG provide optimal performance.
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Section 6:
MicroBlender
Troubleshooting Guide
Problem
Potential Cause
Corrective Action
Oxygen concentration discrepancy between MicroBlender settings and analyzer.
1. Analyzer out of calibration.
1. Calibrate the analyzer
2. Flow requirements are below the specified LPM range.
2. Correct the flow. Verify that the correct outlet port is being used. Each outlet port has a different flow range.
3. Gas supply is contaminated.
3. Correct the contaminated gas supply. If repair is needed, contact CareFusion
4. MicroBlender is out of calibration.
4. Contact CareFusion for repair.
5. Bleed filter is obstructed, causing reduction of bleed.
5. Contact CareFusion
6. Air entrained into circuit by ventilator or accessory device.
6. Correct
1. Inlet pressure difference greater than 20 PSI.
1. Correct the pressure difference.
2. Alarm module is not calibrated properly.
2. Contact CareFusion for repair.
3. Inlet gas contamination, alarm module malfunction.
3. Contact CareFusion for repair.
Reed plate improperly installed or damaged.
Contact CareFusion for repair.
Alarm sounding
MicroBlender in bypass - no alarm.
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MicroBlender
Instruction Manual
Problem
Potential Cause
Corrective Action
MicroBlender is accurate only when inlet gas pressures are equal.
1. Balance module not functioning properly.
1. Contact CareFusion for repair.
2. Both air and oxygen gas sources are below 30 PSIG.
2. Correct the low pressure condition.
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Section 7:
MicroBlender
Cleaning and Sterilizing
Note: User is to consult with the manufacturer of the ETO equipment for aeration time. •
Use an all-purpose liquid cleaner on the exterior.
•
Do not steam autoclave or otherwise subject the MicroBlender to temperatures over 145°F.
•
Do not immerse the assembled Low Flow MicroBlender in liquid decontamination agents.
•
Do not use any strong solvent cleaners on labels or markings.
Blenders manufactured by CareFusion are compatible with ethylene oxide gas sterilization.
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MicroBlender
Section 8:
Instruction Manual
Maintenance and Service
Caution! The MicroBlender should only be serviced or calibrated by a CareFusion trained technician. CareFusion equipment is designed to provide the maximum amount of utilization with a minimum amount of maintenance. When determining the desired frequency of complete overhaul intervals, three variables must be considered: •
Frequency of use
•
Cleanliness of compressed air source
•
Use of an air inlet filter/water trap
The MicroBlender, like other pieces of health care equipment, will require routine maintenance over a period of time. Before to placing the MicroBlender into clinical use, follow the performance-check guidelines outlined in Section 5. When using the MicroBlender with a compressed air source, an air inlet filter/water trap (P/N 07426 or equal) is recommended. Contaminants from hospital air lines may compromise the function of the MicroBlender. Caution! If the MicroBlender does not function as outlined in Section 5, contact CareFusion for service. Applicable parts used in the MicroBlender have been cleaned and de-greased for oxygen service. All lubricants used during assembly are designed for use in an oxygen enriched environment. Use only CareFusion specified lubricants when servicing this device. Elastomer components, such as diaphragms and O-rings, are designed to function satisfactorily for a minimum of two years. The need for cleaning and replacement depends on gas line conditions and is indicated by the MicroBlender not meeting its specified performance.
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