thermoscientific 3950 Reach In Incubator

Product Information

The Thermo Scientific Reach-In Incubator is a large capacity CO2 incubator that is designed to maintain the optimal environment required for incubating cells and tissues for scientific research and clinical applications. The incubator is available in two models – 3950 T/C and 3951 T/C – and comes with a CO2 sensor. The unit operates at a voltage range of 100-120V or 200-230V at 50/60 Hz.

Covered Models

• 3950 T/C
• 3951 T/C

Intended Use

The Thermo Scientific Reach-In Incubator is intended for maintaining the optimal environment for the incubation of cells and tissues for scientific research and clinical applications. The unit maintains temperature and carbon dioxide (CO2) levels as set by the operator with increased relative humidity.

Non-Intended Use

The Thermo Scientific Reach-In Incubator is not intended for use where electrical or physical contact with the patient is established. It is not intended for use by the general public, within the patient environment, outdoors, or in potentially explosive environments or with flammable materials.

Product Usage Instructions

It is important to read the instruction manual carefully before using the Thermo Scientific Reach-In Incubator. Failure to read, understand, and follow the instructions in the manual may result in damage to the unit, injury to operating personnel, and poor equipment performance.

Caution

All internal adjustments and maintenance must be performed by qualified service personnel.

Warning

If the incubator is not used in the manner specified in the operating manual, the protection provided by the equipment design may be impaired.

Electrostatic Discharge (ESD)

The incubator contains parts and assemblies susceptible to damage by electrostatic discharge (ESD). Therefore, it is important to exercise caution while handling the unit.

Registering Your Warranty

To register your warranty, visit the Thermo Scientific website at www.thermoscientific.com/labwarranty.

User Manual

Forma 29 cu ft Reach-In Incubator
Model 3950 and 3951
Operating and Maintenance Manual 7003950 Rev. 30
Visit us online to register your warranty www.thermoscientific.com/labwarranty

Covered Models

CO2 Sensor*

3950 T/C

3951 T/C

Voltage** 100-120 200-230

• T/C is a thermal conductivity sensor. ** All units are 50/60 Hz.

Preface

Manual Number 7003950

30 ECNM-001355

12/06/21 Updated Exploded Spare Parts Drawings in pages 8-9 and 8-10.

TFI

29 ECNM-001110 11/06/2020 Updated Intended and Non-Intended use statements and

Assembly Drawings in pages 8-5 and 8-6.

TFI

28

41882

2/14/18 Added Intended use and Non-Intended use statement

bpg

27

41283

1/29/18 Updated dwg 3950-8

bpg

26 40087/IN-4743

7/27/16 Changed the label in the remote alarm artwork to a note – pg 6-1

ccs

25

40639

5/3/16 Updated for UL (G Smith), added risk assessment info

ccs

24 31580/IN-4675

10/5/15 Motor chg – part number, expl dwg, schematic

ccs

23

31289

7/18/14 Removed CE reference on pg 7-3

ccs

22 30374/IN-4419

4/22/14 Updated 1900008-06 drawing – pg 8-11 (left hand door swing)

ccs

21 29318//IN-4272

12/14/12 Clarified usage on exploded drawing 3950-08-4 list

ccs

20 28773/IN-4231

10/8/12 Updated Figure 1-6 to current

ccs

19

28267

2/20/12 Added cautions for running high RH or temps

ccs

18 24921/IN-3939

2/16/12 Removed accessory list – pg 7-2

ccs

Thermo Scientific

Reach-In Incubator i

Preface
CAUTION
Contains Parts and Assemblies Susceptible to Damage by
Electrostatic Discharge (ESD)
Important Read this instruction manual. Failure to read, understand and follow the instructions in this manual may result in damage to the unit, injury to operating personnel, and poor equipment performance.
Caution All internal adjustments and maintenance must be performed by qualified service personnel.
Warning If the incubator is not used in the manner specified in this operating manual, the protection provided by the equipment design may be impaired.
Caution When operating this unit under high temperatures and/or relative humidity (RH), caution must be observed when the unit is shut down, unexpectedly or by choice. Condensate can form on the interior of the chamber as it cools. This includes the heating element surfaces. Heavy condensate can bridge the ceramic insulators and cause a temporary electrical short to ground. This electrical circuit is protected by a circuit breaker. However, to avoid this contingency if these conditions occur, open the door of the unit and allow it to stand open until the water vapor disperses.
Intended Use: The Thermo Scientific Large Capacity Reach in CO2 Incubators are intended to maintain an optimal environment for the incubation of cells and tissues for scientific research and clinical applications. These models maintain temperature and carbon dioxiode (CO2) levels as set by the operator with increased relative humidity.
Non-Intended Use: The Thermo Scientific Large Capacity Reach-In CO2 Incubators are not intended for use where electrical or physical contact with the patient is established. Not intended for use by the general public. Not intended for use within the patient environment. Not to be used outdoors. Not intended to be operated in potentially explosive environments or for use with flammable materials.
Material in this manual is for information purposes only. The contents and the product it describes are subject to change without notice. Thermo Fisher Scientific makes no representations or warranties with respect to this manual. In no event shall Thermo be held liable for any damages, direct or incidental, arising out of or related to the use of this manual.
© 2021 Thermo Fisher Scientific. All rights reserved.

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Preface
Important operating and/or maintenance instructions. Read the accompanying text carefully.
Potential electrical hazards. Only qualified persons should perform procedures associated with this symbol. Equipment being maintained or serviced must be turned off and locked off to prevent possible injury.
Lifting Hazard Warning. The incubator weighs more than 200lbs (91 kgs). Take adequate safety measures when moving this device. WEEE Compliance: Thermo Fisher Scientific has contracted with companies for recycling/disposal in each EU Member State. For further information, send an email to weee.recycle@thermofisher.com.
Always use the proper protective equipment (clothing, gloves, goggles, etc.) Always dissipate extreme cold or heat and wear protective clothing. Always follow good hygiene practices. Each individual is responsible for his or her own safety.

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Reach-In Incubator iii

Preface

Do You Need Information or Assistance on Thermo Scientific Products?

If you do, please contact us 8:00 a.m. to 6:00 p.m. (Eastern Time) at:

1-740-373-4763 1-800-438-4851 1-877-213-8051 http://www.thermofisher.com service.led.marietta@thermofisher.com www.unitylabservices.com

Direct Toll Free, U.S. and Canada FAX Internet Worldwide Web Home Page Tech Support Email Address Certified Service Web Page

Our Sales Support staff can provide information on pricing and give you quotations. We can take your order and provide delivery information on major equipment items or make arrangements to have your local sales representative contact you. Our products are listed on the Internet and we can be contacted through our Internet home page.

Our Service Support staff can supply technical information about proper setup, operation or troubleshooting of your equipment. We can fill your needs for spare or replacement parts or provide you with on-site service. We can also provide you with a quotation on our Extended Warranty for your Thermo Scientific products.

Whatever Thermo Scientific products you need or use, we will be happy to discuss your applications. If you are experiencing technical problems, working together, we will help you locate the problem and, chances are, correct it yourself…over the telephone without a service call.

When more extensive service is necessary, we will assist you with direct factory trained technicians or a qualified service organization for on-the- spot repair. If your service need is covered by the warranty, we will arrange for the unit to be repaired at our expense and to your satisfaction.

Regardless of your needs, our professional telephone technicians are available to assist you Monday through Friday from 8:00 a.m. to 6:00 p.m. Eastern Time. Please contact us by telephone or fax. If you wish to write, our mailing address is:
Thermo Fisher Scientific (Asheville) LLC 401 Millcreek Road, Box 649 Marietta, OH 45750
International customers, please contact your local Thermo Scientific distributor.

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Preface
Warranty Notes
Information You Should Know Before Requesting Warranty Service · Locate the model and serial numbers. A serial tag is located on the unit itself. · For equipment service or maintenance, or with technical or special application inquiries, contact Technical
Services at 1-800-438-4851 or 1-740-373-4763 (USA and Canada). Outside the USA, contact your local distributor.
Repairs NOT Covered Under Warranty · Calibration of control parameters. Nominal calibrations are performed at the factory; typically ±1°C for
temperature, ±1% for gases, and ±5% for humidity. Our service personnel can provide precise calibrations as a billable service at your location. Calibration after a warranty repair is covered under the warranty. · Damage resulting from use of improper quality water, chemicals or cleaning agents detrimental to equipment materials. · Service calls for improper installation or operating instructions. Corrections to any of the following are billable services: 1) electrical service connection 2) tubing connections 3) gas regulators 4) gas tanks 5) unit leveling 6) room ventilation 7) adverse ambient temperature fluctuations 8) any repair external to the unit · Damage resulting from accident, alteration, misuse, abuse, fire, flood, acts of God, or improper installation. · Repairs to parts or systems resulting from unauthorized unit modifications. · Any labor costs other than that specified during the parts and labor warranty period, which may include additional warranty on CO2 sensors, blower motors, water jackets, etc.

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Reach-In Incubator v

Preface

vi Reach-In Incubator

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Table of Contents

Section 1

Installation and Start-Up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-1
Control Panel Keys, Displays, & Indicators . . . . . . . . . . . . . . . . . . . .1-2 Keypad Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-3 Unit Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-4
Preliminary Cleaning and Disinfecting . . . . . . . . . . . . . . . . . . . . . .1-4 Installing the Shelves . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-5 Leveling the Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-5 Attaching the Drain Lines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-5 The Water Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-6 Filling the Humidity Reservoir . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-6 Connecting the Unit to Electrical Power . . . . . . . . . . . . . . . . . . . .1-7 Connecting the CO2 Gas Supply . . . . . . . . . . . . . . . . . . . . . . . . . .1-8 Incubator Start-Up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-9 Setting the Operating Temperature . . . . . . . . . . . . . . . . . . . . . . . .1-9 Setting the Overtemp Setpoint . . . . . . . . . . . . . . . . . . . . . . . . . . .1-10 Setting the CO2 Setpoint . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1-10

Section 2

Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-1
Calibrating the Temperature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-1 Calibrating the CO2 System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-2

Section 3

Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-1
Disable the ADD WATER Alarm . . . . . . . . . . . . . . . . . . . . . . . . . . .3-1 Turn All Audible Alarms ON/OFF . . . . . . . . . . . . . . . . . . . . . . . . . .3-1 Set an Access Code . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-2 Set a Low Temp Alarm Limit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-2 Enable Temp Alarms to Trip Relay Contacts . . . . . . . . . . . . . . . . . . .3-3 Set Low CO2 Alarm Limit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-3 Set High CO2 Alarm Limit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-4 Enable CO2 Alarms to Trip Relay Contacts . . . . . . . . . . . . . . . . . . . .3-4 Set New Zero No. for New CO2 Sensors . . . . . . . . . . . . . . . . . . . . . .3-5 Set New Span No. for CO2 Sensors . . . . . . . . . . . . . . . . . . . . . . . . . .3-5 Enable the High Humidity Feature . . . . . . . . . . . . . . . . . . . . . . . . . .3-6 Select a Primary Tank w/ Gas Guard Option . . . . . . . . . . . . . . . . . .3-6 Disable the Gas Guard System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-7 Set RS485 Address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3-7

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Table of Contents

Section 4 Alarms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-1 Sensor Fault Alarms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-2
Preventive Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-3

Section 5

Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5-1
Cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5-1 Cleaning the Glass Doors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5-1 Cleaning the Humidity Reservoir . . . . . . . . . . . . . . . . . . . . . . . . . . . .5-2 Replacing the Power Fuses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5-3 Discarding/Removing Incubator from Service . . . . . . . . . . . . . . . . . .5-3

Section 6

Factory Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6-1
Connect the Remote Alarm Contacts . . . . . . . . . . . . . . . . . . . . . . . . .6-1 Connect the RS485 Interface (P/N 190523) . . . . . . . . . . . . . . . . . . .6-2 Connect Analog Output Boards (P/N 190512, 190543, & 190544) .6-3 CO2 Gas Guard (P/N 1900000) . . . . . . . . . . . . . . . . . . . . . . . . . . . .6-4
Connect CO2 Gas Supplies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6-5 De-activate Gas Guard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6-5 Operation of CO2 Gas Guard . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6-5 Inner Doors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6-6 Shaker Support Shelves . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6-6

Section 7 Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7-1

Section 8

Spare Parts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8-1
Assembly Drawings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8-2 Exploded Parts Drawings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8-3

Section 9 Electrical Schematics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9-1

Section 10 Warranty . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10-1

viii Reach-In Incubator

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Section 1 Installation and Start-Up

Figure 1-1. Front View

Figure 1-2. Side View

Figure 1-4. Top View

Thermo Scientific

Figure 1-3. Back View

Reach-In Incubator 1-1

Section 1 Installation and Start-Up
Control Panel Keys, Displays, & Indicators
Tank Low
Figure 1-4. Control Panel Components
Tank Low Indicator – Used with Gas Guard, lights when gas tank is low, if applicable.
Silence – Mutes the audible alarm. See Section 4 for ringback times. Alarm Indicator – Light pulses on/off during an alarm condition in the
cabinet. Mode Select Switch – Used to select Run, Setpoints, Calibration and
System Configuration Modes. Message Center – Displays system status. Mode Select Indicators –
· Run: Run Menu · Set: Set Points Menu · Cal: Calibrate Menu · Config: Configuration Menu Up and Down Arrows – Increases or decreases the number values, toggles between parameter values of the selected mode. Enter – Stores the changed value into computer memory. Heat Indicator – Lights when power is applied to the heaters. Temp Display ­ Displays temperature continuously Scroll for Parameters Arrows – Moves the operator through the parameters of the selected mode. Right arrow goes to next, left arrow goes to previous parameter. CO2 Inject Indicator – Lights when CO2 is being injected into the incubator. % CO2 Display – Displays CO2 percentage continuously.

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Section 1 Installation and Start-Up

Keypad Operation

The Model 3950 Series Reach-In Incubator has four basic modes that allow incubator setup: Run, Setpoints, Calibration and System Configuration.

· Run is the default mode during normal operation. · Set is used to enter system setpoints. · Calibration is used to calibrate various system parameters. · Configuration allows for custom setup of various options.

The chart below shows the selections under each of the modes.

RUN Default Mode

SETPOINT Temperature Overtemp CO2

Base Unit Displays Option Displays

CALIBRATION Temp Offset CO2 Cal

CONFIGURATION Audible Access Code Temp Lo Alarm Temp Relay CO2 Lo Alarm CO2 Hi Alarm CO2 Relay CO2 Z & S #’s RH High On/Off H20 Alarm On/Off Tank Select Gas Guard RS485 Address

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Reach-In Incubator 1-3

Section 1 Installation and Start-Up

Unit Installation

Caution Units must be installed against a wall or similar structure in an area of minimum ambient temperature fluctuation. A minimum of six (6) inches clearance is required at the top and back of the incubator plus a minimum three (3) inch clearance on each side for electrical, water and gas hook-ups. At least eight (8) inches clearance above the cabinet is required for service access.

Locate the unit on a firm level surface capable of supporting the unit weight of approximately 500 lbs.

Position the incubator away from doors and windows and heating and air conditioning ducts.
Warning This incubator weighs approximately 500 lbs. Have sufficient personnel available when moving.

Preliminary Cleaning and Disinfecting

Disinfect all interior surfaces with a general-use laboratory disinfectant, such as quaternary ammonium, to remove any residue from the production of the incubator. Rinse thoroughly with sterile distilled water, then 70% alcohol. Dry with a sterile cloth as needed. Disinfect the shelf channels and shelves, then rinse with distilled water before installing.

Caution Before using any cleaning or decontamination method except those recommended by the manufacturer, users should check with the manufacturer that the proposed method will not damage the equipment. Accidental spills of hazardous materials on or inside this unit are the responsibility of the user.

Installing the Shelves

The shelves may be installed at any level in the incubator. Install a shelf channel on each side. With the tabs pointing up, attach the channel by locating the rivet into a slotted hole, far end first. Pull the channel toward the front and slide the front rivet on the channel into the slotted hole and press down. Make sure that the channels are opposite each other so that the installed shelf will be level.

Leveling the Unit

Figure 1-5. Shelf Channel
Place a bubble-type level on a shelf inside the incubator. Adjust the feet as needed; counterclockwise to lengthen or clockwise to shorten. Level the unit front-to-back and left-to-right.

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Thermo Scientific

Section 1 Installation and Start-Up
Attaching the Drain Lines Note Drain connections on the back of the unit are shipped capped.
If humidity is not required, the caps should be left on the drains.
If manual or gravity feed method is used for humidity in the cabinet, connecting the drains is optional.
If an in-house pure water supply is used to fill the reservoir, it is recommended that the drains be connected to a floor drain.

Condensate Drain 3/8″ fitting
to 3/8″ ID hose

Back of Unit

1/4″ Water Inlet fitting to 1/4″ ID tubing to in-house water supply shut-off valve (30 PSIG max.)

Chamber Drain (Overflow) 3/8″ elbow with 3/8″ hose barb fitting. Install with fitting sloping slightly downward.
Back View
Floor
Figure 1-6. Top View of Fitting Connections

The Water Supply

For best operation of the incubator, sterilized distilled, demineralized or de-ionized water should be used in the humidity reservoir. Water purity should be in the resistance range of 50 K to 1 M Ohm/cm, or a conductivity range of 20.0 to 1.0 uS/cm. Refer to ASTM Standard D5391-93 or D4195-88 for measuring water purity.

Distillation systems, as well as some types of reverse osmosis water purity systems, can produce water in the quality range specified. Tap water is not recommended as it may contain chlorine, which can deteriorate the stainless steel. Tap water may also have a high mineral content, which would produce a build-up of scale in the reservoir. High purity or ultra pure water is not recommended as it is an extremely aggressive solvent and will deteriorate the stainless steel. High purity water has a resistance of above 1 M to 18 M Ohm. Even high purity water can contain bacteria and organic contaminants. Water should always be sterilized or treated with a decontaminant, safe for use with stainless steel as well as safe for the product, prior to being introduced into the humidity reservoir.

Thermo Scientific

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Section 1 Installation and Start-Up

The Water Supply (continued)

Caution Distilled or de-ionized water used in the humidity reservoir must be within a water quality resistance range of 50 K to 1 M Ohm/cm to protect and prolong the life of the stainless steel. Use of water outside the specified range will decrease the operating life of the unit and may void warranty.

The incubator is equipped with a liquid level float switch that detects low water levels in the humidity reservoir and produces an alarm condition. As all applications do not require humidity, this alarm can be disabled. To disable the ADD WATER alarm, see Section 3. If humidity is required in the current application, press the Silence key on the control panel to mute the alarm while the humidity reservoir is being filled.

Filling the Humidity There are three methods for filling the humidity reservoir; an in-house Reservoir pure water supply, the manual and the gravity feed methods.

In-house Pure Water Supply

All incubators provide a connection for using an in-house water supply. Connect a low pressure (not more than 30 PSI) water line, equipped with a manual shut-off valve, to the inlet fitting on the float valve reservoir. The 1/4″ hose connection is located on the rear of the incubator cabinet. With the water turned on, a float valve inside the incubator regulates the water level in the humidity reservoir. When the reservoir is full, a 10-second audible tone is heard and the ADD WATER message no longer displays.

Manual Method

This fill system consists of a funnel attached to the side duct sheet and tubing located inside the incubator. Disinfect the funnel and rinse with sterile water before using. This funnel may be moved to a preferred location by unscrewing the well nuts and disconnecting it from the sidewall. Tighten the nuts after relocation. The holes allotted for funnel use are slightly larger and in a centralized area. See Figure 1-7.

To fill the reservoir, pour sterile distilled water (approximately 2.5 gallons) into the funnel. When the float switch trips, a 10-second audible tone sounds and the ADD WATER message no longer displays. Add 1 gallon after the 10-second tone is heard.

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Thermo Scientific

Manual Method (continued)

Pour in sterile, distilled water

Section 1 Installation and Start-Up

Center Front Unit Sidewall

Figure 1-7. Manual Feed Method with Funnel
Gravity Feed Method An optional carboy water fill system is also available. The carboy option
kit includes an instruction sheet that details the installation of the system.

Connecting the Unit See the serial tag on the side of the unit or the Specifications section for

to Electrical Power

electrical specifications. Refer to the electrical schematics at the end of this manual.

Warning Connect the incubator to a grounded, dedicated circuit. The power cord connector is the mains disconnect device for the incubator. Position the incubator so the unit can be easily disconnected.

Plug the provided power cord into the power inlet connector on the back of the cabinet, then into a grounded, dedicated electrical circuit.
The Model 3950 Series also has an internal outlet located on the right side of the interior back wall. The outlet is to provide power (230 W maximum) to accessory equipment. This outlet is not to be used when the temperature is above 40°C and the RH more than 50%.

Thermo Scientific

Reach-In Incubator 1-7

Section 1 Installation and Start-Up

Connecting the CO2 Gas Supply

Warning High concentrations of CO2 gas can cause asphyxiation. OSHA Standards specify that employee exposure to carbon dioxide in any 8-hour shift of a 40-hour work week shall not exceed the 8-hour time weighted average of 5000 PPM (0.5% CO2). The short-term exposure limit for 15 minutes or less is 30,000 ppm (3% CO2). Carbon dioxide monitors are recommended for confined areas where concentrations of carbon dioxide gas can accumulate.

This incubator is designed for CO2 gas only. Connecting a flammable or toxic gas could result in a hazardous condition.

Gases other than CO2 should not be connected to this equipment. CO2 gas cylinders have a UN1013 label on the cylinder and are equipped with a CGA 320 outlet valve. Check the gas cylinder for the proper identification labels. The CO2 gas supply being connected to the incubator should be industrial grade, 99.5% pure. Do not use CO2 gas cylinders equipped with siphon tubes. A siphon tube is used to extract liquid CO2 from the cylinder, which can damage the pressure regulator. Consult with your gas supplier to ensure that the CO2 cylinder does not contain a siphon tube. Gas cylinders should also be secured to a wall or other stationary object to prevent them from tipping.

A two-stage CO2 pressure regulator is required to be installed on the outlet valve of the gas cylinder. Input pressure to the incubator must be maintained at 15 psig (103.4 kPa) for proper performance of the CO2 control system. A single stage CO2 pressure regulator will not maintain 15 psig (103.4 kPa) to the incubator as the pressure in the CO2 cylinder decreases; therefore, a two- stage regulator is recommended.

If higher purity CO2 is desired inside the incubator (greater than 99.5% pure), the pressure regulator should be constructed with a stainless steel diaphragm, along with specifying the purity of the CO2 from the gas supplier. Follow the manufacturer’s instructions to ensure proper and safe installation of the pressure regulator on the gas cylinder.

Consult your facility safety officer to ensure that the equipment is installed in accordance with the codes and regulations applicable in your area.

The CO2 gas supply being connected should be industrial grade 99.5% pure and should not contain siphon tubes. Install a two-stage pressure regulator at the cylinder outlet. The high pressure gauge at the tank should have 0-2000 psig range. The low pressure gauge, at the incubator inlet, should have a 0-30 psig range. Input pressure to the incubator must be maintained at 15 psig (103.4 kPa), ±5 psig.

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Section 1 Installation and Start-Up

Connecting CO2 Gas Supply (continued)

Caution Each tank should be connected to one incubator only.
The incubator has serrated fittings on the back of the cabinet to connect the gas supply (Figure 1-2). The fitting is labeled CO2 Inlet #1 Tank. Secure connections with clamps. Check all fittings for leaks.

For units having the CO2 Gas Guard option, refer to Section 6.

Incubator Start-Up

With the incubator properly installed, connected to power, the humidity reservoir filled and the unit connected to a gas supply, system setpoints can be entered. The following setpoints can be entered in Set Mode: Temperature, Overtemperature and CO2. To enter Set Mode, press the Mode key until the Set indicator lights. Press the right and/or left arrow keys until the proper parameter appears in the message display center. See Chart 1-1 for more detail.

Setting the Operating Temperature

This incubator has an operating temperature setpoint range of 5.0°C above ambient to 60.0°C. It is shipped from the factory with a temperature setpoint of 10.0°C. At this setting, all heaters are turned off. To change the operating temperature setpoint:

1. Press the Mode key until the Set indicator lights.

2. Press the right arrow until “Temp XX.X” is displayed in the message center.

3. Press up/down until the desired temperature setpoint is displayed.

4. Press Enter to save the setpoint.

5. Press the Mode key until the Run indicator lights for Run mode or press the right/left arrow keys to go to next/previous parameter.

Caution Any equipment placed inside chamber must be rated for unit operating temperature and humidity.

Thermo Scientific

Reach-In Incubator 1-9

Section 1 Installation and Start-Up

Setting the Overtemp Setpoint

Warning The independent overtemp system is designed as a safety to protect the incubator only. It is not intended to protect or limit the maximum temperature of the cell cultures or customer’s equipment inside the incubator if an overtemp condition occurs.

All Model 3950 Series incubators are equipped with a secondary temperature monitoring system to monitor the air temperature inside the cabinet. This system is designed as a safety device to turn off all heaters in the event of a temperature control failure. The temperature control point in the incubator will be approximately ±1°C of the overtemp setpoint.
The overtemp setpoint is set by the factory (default) at 40°C. However, the overtemp can be reset over a range from 0.5°C above the operating temperature setpoint to 65°C.
If the incubator’s operating temperature setpoint is set above the overtemp setpoint, the overtemp setpoint will automatically update to 1°C above the temperature setpoint. It is recommended that the overtemp setpoint be maintained at 1°C over the operating temperature setpoint.
To set the Overtemp setpoint:
1. Press the Mode key until the Set indicator lights.
2. Press the right arrow until Otemp XX.X is displayed in the message center.
3. Press the up or down arrow until the desired Otemp setpoint is displayed.
4. Press Enter to save the setting.
5. Press the Mode key until the Run indicator lights, or press the right or left arrow to go to the next or previous parameter.

Setting the CO2 Setpoint

All CO2 cells are calibrated at the factory at 37°C, medium humidity and 10% CO2. Therefore, if a temperature setpoint of 37°C has been entered, the humidity reservoir has been filled and the CO2 control is set to run between 0-10%, the CO2 setpoint may be entered immediately. Otherwise, it is important to allow the unit 12 hours to stabilize at the temperature setpoint before entering the CO2 setpoint.

1-10 Reach-In Incubator

Thermo Scientific

Section 1 Installation and Start-Up

Setting the CO2 Setpoint (continued)

All models of the incubator have a CO2 setpoint range of 0.0% to 20.0%. The incubator is shipped from the factory with a CO2 setpoint of 0.0%. At this setting, all CO2 control and alarms are turned off.

To change the CO2 setpoint:

1. Press the Mode key until the Set indicator lights.

2. Press the right arrow until “CO2 XX.X” is displayed in the message center.

3. Press the up/down arrow until the desired CO2 setpoint is displayed.

4. Press Enter to save the setpoint.

5. Press the Mode key until the Run indicator lights to go to Run mode, or press the right/left arrow keys to go to next/previous parameter.

Thermo Scientific

Reach-In Incubator 1-11

Section 1 Installation and Start-Up

Chart 1-1

Set Mode
Press MODE to light SET

To Set:
Operating Temperature

Silence

Mode

Run Set

Cal Config

SET POINTS
Scroll for Parameters

Enter

36.9 Heat

Temp

Inject

4.9 % CO2

Press MODE to move

to CALIBRATE

mode

Mode TEMP

XX.X C

Scroll for Parameters

Press to return

to previous parameter

Numbers increase

Press Enter

Enter

to save setting

Numbers decrease

Over Temperature

Numbers increase

Mode OTEMP XX.X C Enter

Press Enter to save setting

Scroll for Parameters

Press to return to previous parameter

Numbers decrease

Percent CO2

Mode

CO2 XX.X%

Scroll for Parameters
Press to return to previous parameter

Numbers increase Press Enter
Enter
to save setting Numbers decrease

1-12 Reach-In Incubator

Thermo Scientific

Section 2 Calibration
After the unit has stabilized, several different systems can be calibrated. In the calibration mode, the air temperature, CO2 and RH levels can be calibrated to reference instruments. To access the calibration mode, press the Mode key until the Cal indicator lights. Press the right and/or left arrow until the proper parameter appears in the message center. See Chart 2-1 at the end of this section for more detail.
Calibration frequency is dependent on use, ambient conditions and accuracy required. A good laboratory practice would require at least an annual calibration check. On new installations, all parameters should be checked after the stabilization period.
Prior to calibration, the user should be aware of the following system functions. While the unit is in the calibration mode, all system control functions are stopped so the unit remains stable. Readout of the system being calibrated will appear on the message center. If no keys are pressed for approximately five minutes while in Calibration mode, the system will reset to Run mode so control functions are reactivated.
Caution Before making any calibration or adjustments to the unit, it is imperative that all reference instruments be properly calibrated.

Calibrating the Before calibration, allow the cabinet temperature to stabilize. Place the

Temperature

calibrated instrument in the center of the chamber. The instrument should be in the airflow, not against the shelf.

Temperature Stabilization Periods

Start-Up – Allow 12 hours for the temperature in the cabinet to stabilize before proceeding.

Presently Operating – Allow at least 2 hours after the display reaches setpoint for temperature to stabilize before proceeding.

Thermo Scientific

Reach-In Incubator 2-1

Section 2 Calibration

Calibrating the Temperature (cont.)

1. Press the Mode key until Cal indicator lights.
2. Press the right arrow until “TEMPCAL XX.X” appears in the message center.

3. Press the up/down arrow to match the display to the calibrated instrument.

4. Press Enter to store calibration.

5. Press the Mode key to return to Run or the right/left arrow to go to next/previous parameter.

Calibrating the CO2 System

Model 3950 Series incubators have a CO2 sensor. The incubator atmosphere is not only effected by the quantity of CO2 present but also by the air temperature and water vapor present in the incubator atmosphere. In monitoring the effects of CO2, air temperature and absolute humidity must be held constant so any change is caused by a change in CO2 concentration.

Changing temperature or changing from elevated humidity to room ambient humidity levels will require re-calibration of the CO2 control.

CO2 Sensor Stabilization Periods
Start-Up – The CO2 sensor has been calibrated at the factory for 37°C and elevated humidity. Allow the temperature, humidity and CO2 levels in the chamber to stabilize at least 12 hours before checking the CO2 concentration with an independent instrument.
Presently Operating – Make sure the chamber doors are closed. Allow at least 2 hours after the temperature and CO2 displays reach their setpoints for chamber atmosphere stabilization.

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Thermo Scientific

Section 2 Calibration

Calibrating the CO2 System (continued)

1. Make sure the stabilization periods outlined above are followed.
2. Sample the chamber atmosphere through the sample port with an independent instrument. Sample the atmosphere at least 3 times to ensure accuracy of the instrument.
3. Press the Mode key until the Cal indicator lights.
4. Press the right arrow until “CO2 CAL XX.X” is displayed in the message center.
5. Press the up /down arrows to change the display to match the independent instrument.
6. Press Enter to store the calibration.

7. Press the Mode key to return to Run or the right or left arrows to go to the next/ previous parameter.

Thermo Scientific

Reach-In Incubator 2-3

Section 2 Calibration

Calibrate Mode

Press MODE to light CAL

Silence

Chart 2-1

Mode

Run Set

Cal Config

CALIBRATE
Scroll for Parameters

Enter

36.9 Heat

Temp

Inject

4.9 % CO2

To Calibrate:

Operating Temperature

Press MODE to move

to SYS CONFIG Mode mode

TEMPCAL XX.X

Scroll for Parameters

Press to return

to previous parameter

Numbers increase

Press Enter

Enter

to save setting

Numbers decrease

CO2

Numbers increase

Mode CO2ZERO XX.X Enter

Press Enter to save setting

Scroll for Parameters

Press to return to previous parameter

Numbers decrease

2-4 Reach-In Incubator

Thermo Scientific

Section 3 Configuration
Several features available in Configuration Mode allow custom setup of the incubator. These features are listed and described below. All features may not be necessary in all applications, but are available if needed. To enter Configuration mode, press the Mode key until the Config indicator lights. Press the right and/or left arrow until the appropriate parameter appears in the message center. See Chart 3-1 at the end of this section for more detail.

Disable the ADD All applications do not require humidity. For this reason, the ADD

WATER Alarm

WATER alarm can be disabled. The factory default for the ADD WATER alarm is ON.

1. Press Mode key until Config indicator lights.

2. Press right arrow until H2O ALM XXX is displayed in message center.

3. Press up/down arrow to toggle H2O ALM ON or OFF.

4. Press Enter to save the setting.

5. Press Mode key to return to Run mode or right/left to go to next/previous parameter.

Note Verify that the RH HIGH feature is set to OFF after disabling the ADD WATER alarm.

Turn All Audible The audible alarms can be turned on or off. The factory setting is ON. Alarms ON/OFF 1. Press Mode key until Config indicator lights.
2. Press right arrow until AUDIBLE XXX is displayed in message center.
3. Press up/down arrow to toggle AUDIBLE ON/OFF.
4. Press Enter to save the setting.
5. Press Mode key to return to Run mode or right/left to go to next/previous parameter.

Thermo Scientific

Reach-In Incubator 3-1

Section 3 Configuration

Set an Access Code

A 3-digit Access Code can be entered to avoid unauthorized personnel from changing the setpoints, calibration, or configuration. A setting of 000 will bypass the access code. The factory setting is 000.

1. Press the Mode key until the Config indicator lights.

2. Press the right arrow until ACC CODE XXX is displayed in the message center.

3. Press up or down arrow to change the access code.

4. Press Enter to save the access code.

5. Press the Mode key to return to the Run mode or right/left to go to next/previous parameter.

Set a Low Temp Alarm Limit

The low temperature alarm limit (tracking alarm) is the deviation from the temperature setpoint, which will cause a low temp alarm. The low temp alarm is variable from 0.5° below setpoint to 5.0° below setpoint. The factory setting is 1.0° below setpoint. A minus sign in the display indicates that the alarm setting is below the setpoint.

1. Press the Mode key until the Config indicator lights.

2. Press the right arrow until TEMP LO -X.X is displayed in the message center.

3. Press up/down arrow to change the low temp alarm limit.

4. Press Enter to save the low temp alarm limit.

5. Press the Mode key to return to Run mode or right/left to go to next/previous parameter.

3-2 Reach-In Incubator

Thermo Scientific

Section 3 Configuration

Enable Temp Alarms to Trip Relay Contacts

The temperature alarms can be programmed to trip the remote alarm contacts. A setting of ON will cause this, a setting of OFF will not allow temperature alarms to trip the contacts. The factory setting is ON.

1. Press the Mode key until the Config indicator lights.

2. Press the right arrow until TMP RLY XXX is displayed.

3. Press the up/down arrow to toggle the setting ON/OFF.

4. Press Enter to save the setting.

5. Press the Mode key to return to Run or the right/left arrow key to go to next/previous parameter.

Set Low CO2 Alarm Limit

The low CO2 alarm limit (trackiing alarm) is the deviation from the CO2 setpoint, which will cause a low CO2 alarm. The setpoint is variable from 0.5% CO2 below setpoint to 5.0% CO2 below setpoint. The factory setting is 1.0 % CO2 below setpoint. A minus in the display indicates that the alarm setting is below the setpoint.

1. Press the Mode key until the Config indicator lights.

2. Press the right arrow until CO2 LO -X.X is displayed in the message center.

3. Press up/down arrow to change the low CO2 alarm limit.

4. Press Enter to save the low CO2 alarm limit.

5. Press the Mode key to return to Run mode or right/left to go to next/previous parameter.

Thermo Scientific

Reach-In Incubator 3-3

Section 3 Configuration

Set High CO2 Alarm Limit

The high CO2 alarm limit (tracking alarm) is the deviation from the CO2 setpoint, which will cause a high CO2 alarm. The setpoint is variable from 0.5% CO2 above setpoint to 5.0% CO2 above setpoint. The factory setting is 1.0 % CO2 above setpoint.

1. Press the Mode key until the Config indicator lights.

2. Press the right arrow until CO2 HI X.X is displayed in the message center.

3. Press up/down arrow to change the high CO2 alarm limit.

4. Press Enter to save the high CO2 alarm limit.

5. Press the Mode key to return to run mode or right/left to go to next/previous parameter.

Enable CO2 Alarms to High and Low CO2 alarms can be programmed to trip the remote alarm Trip Relay Contacts contacts. A setting of ON will cause this, a setting of OFF will not allow
CO2 alarms to trip the contacts. The factory setting is ON.
1. Press the Mode key until the Config indicator lights.
2. Press the right arrow until CO2 RLY XXX is displayed in the message center.
3. Press up/down arrow to toggle the setting ON/OFF.
4. Press Enter to save the setting.
5. Press the Mode key to return to Run Mode or right/left to go to next/previous parameter.

3-4 Reach-In Incubator

Thermo Scientific

Section 3 Configuration

Set New Zero # and If a new T/C CO2 sensor is being installed, the two numbers on the

Span # for CO2 Sensors

factory installed sticker on the cell must be entered to calibrate the CO2 in the unit.

Note For the technician’s convenience, a second label containing the two numbers is supplied with the new T/C cell and should be affixed over the original label, inside the electronics drawer.

1. Press the Mode key until the Config indicator lights.
2. Press the right arrow until T/C ZR# XXXX is displayed in the message center.
3. Press up/down arrow to change the zero number to match the sticker.
4. Press Enter to save the setting.
5. Press the right arrow until T/C SP# XXXX is displayed in the message center.
6. Press up/down arrow to change the span number to match the sticker.
7. Press Enter to save the setting. Pressing Enter will erase any CO2 Cal offset value previously entered into the Calibration menu.
8. Press the Mode key to return to Run mode or right/left to go to next/previous parameter.

Thermo Scientific

Reach-In Incubator 3-5

Section 3 Configuration

Enable the High Humidity Feature

In normal operation, the incubator will maintain the humidity level above 80%. If a higher RH level is required, the RH HIGH feature may be turned ON. This allows the heater attached to the humidity reservoir to be enabled, resulting in RH levels above 90%. The factory default for the RH HIGH feature is OFF.

1. Press the Mode key until the Config indicator lights.

2. Press the right arrow until RH HIGH XXX is displayed in the message center.

3. Press up/down arrow to toggle RH HIGH ON or OFF.

4. Press Enter to save the setting.

5. Press the Mode key to return to Run mode or right/left to go to next/previous parameter.

Note Verify that the ADD WATER alarm is set to ON after enabling the RH HIGH feature.

Select a Primary Tank On units equipped with the Gas Guard option, a primary tank can be

w/Gas Guard Option

selected. The primary tank will be either Tank 1 or 2. The factory setting is Tank 1.

1. Press the Mode key until the Config indicator lights.

2. Press the right arrow until TANK SEL X is displayed in the message center.

3. Press the up/down arrow to toggle the setting between 1 and 2.

4. Press Enter to save the setting.

5. Press the Mode key to return to Run mode or right/left to go to next/previous parameter.

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Thermo Scientific

Section 3 Configuration

Disable the Gas Guard System

On units equipped with the Gas Guard option, the Gas Guard system may be turned ON, or OFF if it is not in use. The factory setting is ON.
1. Press the Mode key until the Config indicator lights.

2. Press the right arrow until GAS GRD XX is displayed in the message center.

3. Press up/down arrow to toggle the setting ON/OFF.

4. Press Enter to save the setting.

5. Press the Mode key to return to Run mode or right/left to go to next/previous parameter.

Set RS485 Address

On units that have the RS485 option, direct communication with the Model 1535 alarm system can be established. Each piece of equipment connected to the 1535 must have a unique address. An address of 0-24 can be entered for the incubator. A setting of 0 is an invalid address that the 1535 will ignore. The factory setting for the RS485 address is 0.

1. Press the Mode key until the Config indicator lights.

2. Press the right arrow until 485 ADDR XX is displayed in the message center.

3. Press up/down arrow to move the RS485 address.

4. Press Enter to save the RS485 address.

5. Press the Mode key to return to Run mode or right/left to go to next/previous parameter.

Thermo Scientific

Reach-In Incubator 3-7

Section 3 Configuration

Configure Mode
Press MODE to light CONFIG

Page 1 of 2

Chart 3-1

Silence

Mode

Run Set

Cal Config

SYS CONFIG
Scroll for Parameters

Enter

36.9 Heat

Temp

Inject

4.9 % CO2

To Configure:
Water Alarm ON/OFF
Audible ON/OFF

Press MODE to return
to RUN mode
Mode

H2O ALM X.X

Press to return to previous parameter

Scroll for Parameters

Enable water alarm (ON)

Press Enter to

Enter

save the setting

Disable water alarm (OFF)

Mode

AUDIBLE XX

Press to return to previous parameter

Scroll for Parameters

Enter

Turn ON audible alarm
Press Enter to save the setting Turn OFF audible alarm

Access Code Low Temp Alarm Limit Temp Relay ON/OFF CO2% Low Limit

Mode ACC CODE XXX

Press to return to previous parameter

Scroll for Parameters

Enter

Numbers increase Press Enter to save the setting
Numbers decrease

Numbers increase

Mode TEMP LO XX.XC Enter

Press to return to previous parameter

Scroll for Parameters

Press Enter to save the setting
Numbers decrease

Mode TMP RLY XXX
Scroll for Parameters
Press to return to previous parameter

Enable relay contacts (ON) during temp alarms

Enter

Press Enter to

save the setting

Disable relay contacts (OFF)

during temp alarms

Mode CO2 LO X.X%

Press to return to previous parameter

Scroll for Parameters

Numbers increase

Enter

Press Enter to

save the setting

Numbers decrease

CO2% High Limit

Mode CO2 HI X.X%

Press to return to previous parameter

Scroll for Parameters

refer to next page

Numbers increase

Enter

Press Enter to

save the setting

Numbers decrease

3-8 Reach-In Incubator

Thermo Scientific

Section 3 Configuration

Configure Mode (continued) Page 2 of 2

Chart 3-1

refer to previous page
To Configure:

CO2 Relay ON/OFF

Mode CO2 RLY XX

Press to return to previous parameter

Scroll for Parameters

Enter

T/C Zero Number

Mode T/C ZR# -XXXX Enter
Scroll for Parameters
Press to return to previous parameter

T/C Span Number

Mode T/C SP# +XXXX Enter

Press to return to previous parameter

Scroll for Parameters

Enable relay contacts (ON) during CO2 alarms
Press Enter to save the setting Disable relay contacts (OFF) during CO2 alarms
Numbers increase Press Enter to save the setting
Numbers decrease
Numbers increase Press Enter to save the setting
Numbers decrease

CO2 Display ON/OFF RH High ON/OFF

Mode DISP CO2 XX

Press to return to previous parameter

Scroll for Parameters

Mode RH HI XX

Press to return to previous parameter

Scroll for Parameters

Enable CO2 display (ON)

Press Enter to

Enter

save the setting

Disable CO2 display (OFF)

Enable RH High (ON)

Press Enter to

Enter

save the setting

Disable RH High (OFF)

Primary Tank Select

Mode TANK SEL X

Press to return to previous parameter

Scroll for Parameters

Tank 1 prime Press Enter to
Enter
save the setting Tank 2 prime

Gas Guard ON/OFF RS485 Address

Mode GAS GRD XXX

Press to return to previous parameter

Scroll for Parameters

Enter

Mode 485 ADDR XX

Press to return to previous parameter

Scroll for Parameters

Enter

Gas Guard (ON) Press Enter to save the setting
Gas Guard (OFF)
Numbers increase Press Enter to save the setting
Numbers decrease

Thermo Scientific

Reach-In Incubator 3-9

Section 3 Configuration

3-10 Reach-In Incubator

Thermo Scientific

Section 4 Alarms

The Model 3950 Series incubator is equipped with a system that notifies the user of an alarm condition inside the incubator. All alarms display in the control panel message center. The following table contains information on all possible system alarms.
Table 4-1. Alarms

Description No alarm condition exists Temp > Otemp Set point Air Temp Sensor Fault (See Section 4.2) Temperature Controller Failure (See Section 4.2) CO2 Sensor Fault (See Section 4.2) Water Level in Reservoir is Low Inner Door is Open CO2 > CO2 High Tracking Alarm

Message Code SYSTEM OK SYS IN OTEMP AIR SNSR ERR TMP CTRL ERR CO2 SNSR ERR ADD WATER DOOR IS OPEN CO2 IS HIGH

CO2 < CO2 Low Tracking Alarm TEMP < TEMP Low Tracking Alarm Tank 1 is low, switch to Tank 2 (Gas Guard only)

CO2 IS LOW TEMP IS LOW TANK1 LOW

Tank 2 is low, switch to Tank 1 (Gas Guard only) TANK2 LOW

Both tanks are low (Gas Guard only)

TANK 1 and 2 LOW

All alarm delays and ringback times are ±30 seconds.

Delay —-0 min. 0 min. 0 min. 0 min. 0 min. 15 min. 15 min. 15 min. 15 min. 0 min. 0 min. 0 min.

Ringback Relay

—–

—–

15 min. Yes

15 min. No

15 min. YES

15 min. No

15 min. No

15 min. No

15 min. Programmable

15 min. Programmable

15 min. Programmable

—-

No

—-

No

15 min. No

To avoid alarms going off in day-to-day use, some alarms are equipped with a time delay feature. For this to function correctly, the alarm condition must exist for the specified length of time before the message center will display the alarm. This allows for interruptions, such as door openings, to occur without incubator being in a continuous state of alarm.

When an alarm condition exists, press the Silence key to temporarily mute the audible alarm. The message center continues to show the alarm condition. If the alarm condition is not corrected within a specified length of time, the alarm sounds again or “ringback” to remind the user.

When multiple alarm conditions occur, active messages are displayed in the display center one at a time, updating at 5-second intervals. Pressing Silence during multiple alarms causes all active alarms to be muted and to ringback in 15 minutes.

Thermo Scientific

Reach-In Incubator 4-1

Section 4 Alarms

Sensor Fault Alarms

The microprocessor in Model 3950 Series incubators continually scans all available sensors to ensure that they are operating properly. Should an error be detected, the incubator will sound an alarm and display the appropriate message. If such an alarm occurs, contact your local distributor or the Technical Services Department.

4-2 Reach-In Incubator

Thermo Scientific

Section 4 Preventive Maintenance

PREVENTIVE MAINTENANCE Incubators

Your equipment has been thoroughly tested and calibrated before shipment. Regular preventive maintenance is important to keep your unit functioning properly. The operator should perform routine cleaning and maintenance on a regular basis. For maximum performance and efficiency, it is recommended the unit be checked and calibrated periodically by a qualified service technician.

The following is a condensed list of preventive maintenance requirements. See the specified section of the operating manual for further details.

We have qualified service technicians, using NIST traceable instruments, available in many areas. For more information on Preventive Maintenance or Extended Warranties, please contact 5FDIOJDBM4FSWJDFT.

Cleaning and calibration adjustment intervals are dependent upon use, environmental conditions and accuracy required.

Tips for all incubators: · Do NOT use bleach or any disinfectant that has high chlorJOFDPOUFOU · Use sterile, distilled or demineralized water.

· Do not use powdered gloves for tissue cultures.

Preventive Maintenance for.PEFM 3950 Series Incubators

Refer to Action Manual Section

1

Check CO2 tank levels.

Daily Weekly Yearly
9

1

Check CO2 and temperature display versus setpoints, w/ independent

instrument

—

Inspect door latch, hinges and door gasket seal.

9 9

2

Verify and document CO2 and temp calibration, as applicable. See

9

Calibration section.

1 & 5

Perform a complete decontamination procedure. Wipe down interior, shelves and side panels with disinfectant. Drain water reservoir and wipe down with disinfectant. Rinse everything well with sterile distilled water.

Between experiments
More frequent decontamination may be required, depending on use and environmental conditions

Figure 6-5 *Change CO2 filter (under normal conditions)

9

1

Check operation of the float assembly and water level switch

9

• Qualified service personnel

Thermo Scientific

Reach-In Incubator 4-3

Section 4 Alarms

4-4 Reach-In Incubator

Thermo Scientific

Section 5 Maintenance

Warning If the unit has been in service, turn it off and disconnect the power cord connector before proceeding with any maintenance.

Caution Before using any cleaning or decontamination method not recommended by manufacturer, users should check with manufacturer that the proposed method would not damage the equipment.
Cleaning The chamber interior may be cleaned with a general-use laboratory
disinfectant or alcohol.
The cabinet exterior may be cleaned with soap and water or any nonabrasive commercial glass cleaner. The Thermopane glass door may be cleaned with commercial glass cleaner or with a solution of ammonia and water.
Warning Alcohol, even a 70% solution, is volatile and flammable. Use it only in a well ventilated area that is free from open flame. If any component is cleaned with alcohol, do not expose the component to open flame or other possible hazard.

Caution Do not use strong alkaline or caustic agents. Stainless steel is corrosion resistant, not corrosion proof. Do not use solutions of sodium hypochlorite (bleach) as they may cause pitting and rust.

Cleaning the Glass Doors

The chamber glass door and the optional independent inner doors may be cleaned using the same disinfectant as used on the incubator interior. It is imperative that they be rinsed with sterile distilled water to remove the disinfectant residue. The doors should then be dried with a sterile soft cloth.

Thermo Scientific

Reach-In Incubator 5-1

Section 5 Maintenance

Cleaning the Glass Doors (continued)

Some precautions in the cleaning and care of the incubator glass doors: Moisture leaches alkaline materials (sodium, Na) from the surface of the glass. Evaporation of the moisture concentrates the alkaline and may produce a white staining or clouding of the glass surface. Cleaning chemicals with a PH above 9 accelerate the corrosion process. Therefore, it is very important to rinse and dry the glass doors after cleaning.

There is no simple method for repairing corroded glass. In most cases, the glass must be replaced.

Cleaning the Humidity Periodic cleaning of the humidity reservoir beneath the incubator floor is

Reservoir

recommended in order to remove bacteria, fungi or any accumulated mineral deposits.

1. Turn off and/or disconnect the water supply to the humidity reservoir.

2. Attach a drain fitting and hose to the drain port on the back of the unit. Run the hose to an appropriate drain.

3. With an adjustable wrench, remove the brass overflow fitting located at the rear of the humidity reservoir. Allow reservoir to drain. Reservoir holds approximately 4 gallons (15.4 L).

4. Disassemble the hose bracket from the incubator floor.

5. Remove the 8 screws securing the floor. Using the circular black plastic grommet, slide the floor outward to expose the humidity reservoir.

6. Remove any remaining water and sediment from the reservoir with a clean sponge.

7. Clean the reservoir with a general-use laboratory disinfectant. Rinse well with sterile distilled water and wipe dry with a clean cloth.

Note On reassembly, brass overflow fitting must be checked for leaks.

Caution Use of chlorinated water, or decontamination products containing chlorine, will deteriorate the stainless steel and cause rust, voiding the warranty.

Caution Do not use strong alkaline or caustic agents. Stainless steel is corrosion resistant, not corrosion proof.

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Thermo Scientific

Section 5 Maintenance
Replacing the Power Warning De-energize all potential sources of energy to this unit and Fuses lockout/tagout their controls. (O.S.H.A. Regulation, Section 1910-147.)
Warning High voltage is present behind control panel. The remote overtemp alarm system should be installed only by qualified electrical service personnel.

There are only two replaceable fuses in the incubator.

1. Turn off the incubator’s power switch and unplug the power cord.

2. Remove the top of the unit to access the fuses.

3. Refer to Figure 6-5 for the location of the two fuses.

4. Install the top cover and return the unit to service. If the fuse(s) blow after restoring power to the incubator, contact the Technical Services Department.

Table 5-1. Fuse Replacement Chart

Fuse Voltage andApplication Manufacturers Part # Amp Rating

115 VAC Accessory Outlet

GMC-1 A

1.0 Amp

230 VAC Accessory Outlet

GMC-500 mA

0.5 Amp

115 VAC Interior Outlet

GMC-2.5 A

2.5 Amp

230 VAC Interior Outlet

GMC-1.5 A

1.5 Amp

Rupture Speed Time-Lag Time-Lag Time-Lag Time-Lag

IEC Letter Code T T T T

Discarding/Removing Caution Federal regulations require that doors be removed from incubators Incubator from Service before units are removed from service or discarded.
Caution When operating this unit under high temperatures and/or relative humidity (RH), caution must be observed when the unit is shut down, unexpectedly or by choice. Condensate can form on the interior of the chamber as it cools. This includes the heating element surfaces. Heavy condensate can bridge the ceramic insulators and cause a temporary electrical short to ground. This electrical circuit is protected by a circuit breaker. However, to avoid this contingency if these conditions occur, open the door of the unit and allow it to stand open until the water vapor disperses.

Thermo Scientific

Reach-In Incubator 5-3

Section 5 Maintenance

5-4 Reach-In Incubator

Thermo Scientific

Section 6 Factory Options

Instructions for connecting the incubator to external equipment follow.

Connect the Remote Alarm Contacts

A set of relay contacts is provided to monitor alarms through a RJ-11 telephone style connector on the back of the unit. Refer to Figure 6-3 for the location of the alarm connector. The 12-foot telephone cord (P/N 190388) and RJ11-to-screw terminal conversion box (190392) are available through the Technical Services Department.

The remote alarm provides a NO (normally open) output, an NC (normally closed) output and COM (common). Refer to Figure 6-1.

The contacts will trip on a power outage or an overtemperature condition. The contacts may also be programmed to trip or not trip on temperature alarms and CO2 alarms. See Section 3, Configuration Mode.

(NO) green wire
(COM) yellow wire

(NC) red wire
(not connected) black wire

Alarm Contacts Junction Box

phone cable to incubator alarm contacts RJ-11 connector
All outputs shown in alarm condition
Figure 6-1. Remote Alarm Outputs

Stored product should be protected by an activated alarm system capable of initiating a timely response 24 hours/day. These alarms provide an interconnect for centralized monitoring.

CAUTION
Contains Parts and Assemblies Susceptible to Damage by
Electrostatic Discharge (ESD)

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Reach-In Incubator 6-1

Section 6 Factory Options

Connect the RS485 Interface (P/N 190523)

All incubator models can be purchased with the RS485 communications option. This option allows the incubator to be directly connected to a Model 1535 alarm system without the use of a communications module. A junction box is provided with each RS485 option. Refer to Figure 6-2 for wiring details. Figure 6-3 shows the location of the RS485 connector on the back of the incubator.

To allow the incubator and the 1535 to communicate, an address must be allocated on the 1535. Refer to Section 5.8 of the 1535 operating manual. The same address number must be assigned to the incubator. Refer to Section 3, Configuration Mode, of this manual.

Figure 6-2. RS485 Interface Wiring

2 CO2 Inject 15 p.s.i. Regulated (103.4 kPa)

1 CO2 Inject 15 p.s.i. Regulated (103.4 kPa)

RS 485 AUXILIARY HOLE FOR CABLES

ALARM CONTACTS 30V MAX / 1A MAX
Figure 6-3. RS485 Connector Location on Unit Back

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Section 6 Factory Options

Connect Analog Output Boards (P/N 190512, 190543, & 190544)

Warning The electronics section contains hazardous voltages. Only qualified electrical service personnel should access this area.
The analog output board is an option that allows the incubator to output analog signals representing the air temperature and CO2 content of the incubator interior. There are three different analog output board options available: 0-1 V, 0-5 V or 4-20 mA signals. Negative display readings will output 0 V. The outputs do not have isolated grounds. See Table 6-1 for output specifications of the three boards.

Table 6-1. Analog Output Board Specifications

190512 4-20 mA Output Scaling 4-20 mA Equals

190544 0-1 V Output Scaling 0-1 V Equals

190543 0-5 V Output Scaling 0-5 V Equals

Temperature 0.0-100.0°C

0.0-100.0°C

0.0-100.0°C

CO2

0.0-100.0% CO2

0-100.0% CO2

0-100.0% CO2

For the 0-1 V and 0-5 V boards, the recording device must supply a load

/=1000 ohm. For the 4-20 mA board, the recorder must supply a load of </=100 ohm.

To wire in the analog output board, the shielded 22 gauge, 3-conductor wire, Part # 73041, is recommended, maximum length 50 ft (15.2 m). This wire is also readily available from other vendors including Alpha, Part #2403, and Deerborn, Part # 972203.

Caution Accuracy of the output at the board terminal strip to the incubator display is ±1 unit. There is no calibration from the incubator. Calibration to the incubator display must be at the instrument connected to the output board.

To access the analog board: 1. Turn off the incubator and disconnect it from the power source. 2. Remove the top of the incubator. 3. Locate the Analog Output board.
(continued)

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Reach-In Incubator 6-3

Section 6 Factory Options

4. Strip the ends of the conductor and wire it to the appropriate terminals of connectors J2 on the analog board. Refer to Figure 6-4.

Figure 6-4. Terminals on Analog Board

Blower Motor

CO2 Sensor

CO2 Valve

Alarm Contacts RS 485 Connection Fuse 1 amp ( .5 amp 3951)

CO2 Filter
Forma

Fuse 2.5 amp (1.5 amp 3951)

Analog Board Microprocessor Board Power Supply

Figure 6-5. Route Wires

5. Route the wires through the auxiliary hole located on the back of the unit. See Figure 6-3 and Figure 6-5.

6. When wiring is completed, replace the unit top and return the unit to service.

CO2 Gas Guard Warning CO2 can be lethal in high concentrations. Refer to the warnings (P/N 1900000) in Section 1 of this manual.
The 3950 Series incubators can be equipped with a built-in Gas Guard system that will operate with a CO2 gas supply. The Gas Guard uses two pressure switches to continuously monitor the pressures of two independent CO2 supplies and automatically switches from one supply to the other when the supply pressure drops below 10 psig (0. 690 bar). Do not use the Gas Guard with multiple incubators.

6-4 Reach-In Incubator

Thermo Scientific

Section 6 Factory Options

CO2 Gas Guard (continued)

The CO2 gas supplies must be equipped with two-stage pressure regulators with gauges. The high pressure gauge at the tank should have a 0-2000 psig range and the low pressure gauge should have a 0-30 psig range. The gas supply to the incubator must be maintained at 15 psig (1.034 bar). Gas pressures below 15 psig will cause nuisance alarms to occur on incubators equipped with the built-in Gas Guard.

Connect CO2 Gas Supplies

The CO2 inlets for the Gas Guard are located on the back of the unit. Using 1/4″ ID tubing, connect one of the CO2 supply tanks to the fitting labeled CO2 Inlet #1 Tank. Connect the second CO2 supply tank to the fitting labeled CO2 Inlet #2 Tank. Install 3/8″ hose clamps to secure the 1/4″ ID tubing to the fittings. Refer to Figure 6-6.

2 CO2 Inject 15 p.s.i. Regulated (103.4 kPa)

1 CO2 Inject 15 p.s.i. Regulated (103.4 kPa)

RS 485 AUXILIARY HOLE FOR CABLES

ALARM CONTACTS 30V MAX / 1A MAX
Figure 6-6. CO2 Connections on Unit Back

De-activate Gas Guard

The built-in Gas Guard is turned ON when shipped from the factory. The tank selected (Tank Sel) has been specified as Tank 1. Refer to Section 3 Configuration, to de-activate the Gas Guard or change Tank Sel from #1 to #2. If the Gas Guard system is not used, the incubator functions normally by supplying CO2 from the supply tank connected to Inlet #1.

Operation of CO2 Gas Guard

With the Gas Guard in operation, the incubator uses the gas supplied by the tank connected to Inlet #1 until pressure drops below 10 psig (68.95 kPa). At this time, the Gas Guard automatically switches to gas supplied through CO2 Inlet #2.

In addition, the incubator automatically changes Tank Sel in Configuration Mode from 1 to 2 to indicate that the incubator is now using gas supplied through Inlet # 2. If the gas supply to Inlet #1 is replenished, the incubator continues to operate using the gas supplied through Inlet #2 unless the operator changes Tank Sel from #2 to #1 through Configuration Mode. Refer to Section 3, Configuration.

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Reach-In Incubator 6-5

Section 6 Factory Options

Operation of CO2 Gas Guard (continued)

Audible and visual alarms occur on the control panel when the gas guard switches from one supply to the other. The audible alarm sounds until the operator presses the Silence key on the control panel. The visual alarm in the Message Center reads Tank 1 Low’ while the audible alarm is sounding, but the message is removed when the operator presses the Silence key. However, the Tank Low’ indicator on the control panel stays lit until the condition is resolved. The unit operates normally.

Caution Both the audible and visual alarms described above do not ring back once the Silence key is pressed.

If the Gas Guard system does not detect an adequate gas supply at CO2 Inlet #1 or Inlet #2, a visual and audible alarm again occurs on the control panel. The visual alarm in the Message Center reads `Tank 1&2 Low’. The audible alarm continues to ring until the Silence key is pressed. The audible alarm rings back every 15 minutes after the alarm is silenced, if the Gas Guard continues to detect that both gas supply pressures are below 10 psig (68.95 kPa).

Inner Doors

Align the shelves and shelf channels with each of the inner doors to facilitate introduction and removal of trays. Clean these doors with the same care as the single door. See Section 5.

Shaker Support Shelves

Shaker support shelves are reinforced and secured to the walls of the incubator. They have a load limit of (1) shaker or 200 pounds per shelf, one shelf being the floor of the unit. The shaker platform limit is 50 pounds. Shakers must not exceed 250 rpm when used inside this incubator. For shaker power connection, an internal outlet in the upper right corner of the back wall is installed. Casters are installed at the factory for moving the cabinet to the desired location. After the unit is in place and prior to operation, the casters must be removed. The large rubber vibration feet, factory installed, are positioned correctly for operation. Do not adjust.

Caution Any equipment placed inside the chamber must be rated for unit operating temperature and humidity.

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Section 7 Specifications

• Specifications are based on nominal voltages of 115 V or 230 V in ambient temperature of 22°C to 25°C.
  Temperature Control . . . . . . . . . . . .±0.1°C Microprocessor PID Setpoint . . . . . . . . . . . .Digital ­ Touch Pad, 0.1°C Range . . . . . . . . . . . .+5°C above ambient to 60°C Uniformity . . . . . . . . . . . . . . . . . .±0.3°C @ +37°C Tracking Alarm. . .User programmable (low) indicator Overtemp . . .Tracking, user programmable, action and indicator Display . . . . . . . . .Digital, LED, 0.1°C increments
  Temperature Safety Type . . .Extreme temperature safety, action and indicator Sensor . . .Thermostat, independent of temperature control system Indicator . .Message center, audible and visual alarms
  Relative Humidity Selectable Ranges .Medium (>80%), High (>90%)
  CO2 Control: . . . . . . . . . . . .±0.1% microprocessor PID Sensor: . . . . . . . . . . . . . . . . .Thermal conductivity Readability: . . . . . . . . . . . . . . . . . . . . . . . . . .0.1% Range: . . . . . . . . . . . . . . . . . . . . . . . . . . .0 to 20% Inlet Pressure: . . . . . . . . . . . . .15 PSIG (±5 PSIG) Display: . . . . . . . . .Digital LED, 0.1% increments

Thermo Scientific

Reach-In Incubator 7-1

Section 7 Specifications
7-2 Reach-In Incubator

Shelves Dimensions . . .30.62″ W x 25.81″ F-B (77.78 cm x 65.56 cm) Construction: . . . . . .Solid stainless steel, 2B finish Surface Area . . . . . .5.4 sq. ft (0.51 sq. m) per shelf Max per Chamber: . . . . .145.8 sq. ft (13.55 sq. m) Standard: . . . . . . . . . . . . . . . .5 (shipped with unit) Maximum: . . . . . . . . . . . . . . . . . . .27 (maximum) Clearance: . . . . . . .Adjustable on 2″ (5 cm) centers
Construction Interior volume . . . . . . . . . . . .29 cu ft (823 liters) Interior . . . . . . . . . . . .304 stainless steel, 2B finish Exterior . . . . . . . . . . . . . .18-gauge cold rolled steel Exterior Door . .Heated, triple pane tempered glass Outer Door Gasket . . . . . . . . . . . . . .Molded vinyl Insulation . . . . . . . . . . . . . . . . . . . . . . .2″ fiberglass
Fittings Access Port . . .2.4″ (6.1 cm) ID, one port per side CO2 Inlet . . . . . . . . . . . . . . . . . . . . . .1/4″ barbed Sample Port . . . . . . . . . .Front mount, 1/4″ barbed Water Inlet . . . . . . . .1/4″ MPT for automatic fill Overflow Drain . . . . . . . . . . . . . . . . . . .3/8″ MPT Condensate Drain . . . . . . . . . . . . . . . . . .3/8″ FPT
Electrical Model 3950:100-120 VAC, 50/60 Hz, 1 PH, 10.0 FLA Operating Range, including fluctuations – 90-125 V, 50-60 Hz, 15 A Breaker power switch Model 3951:200-230 VAC, 50/60 Hz, 1 PH, 6.0 FLA Operating Range, including fluctuations – 180-250 V, 50-60 Hz, 8 A Breaker power switch Power Switch . . . . . . . . . . . . .2-pole circuit breaker Accessory Outlet . . . Voltage equal to the cabinet input, 75 W max., 0.5 mA leakage current Interior Outlet . . . . Voltage equal to cabinet input, 230 W max, 0.5 mA leakage current Remote Alarm Contacts . . . Deviation of temperature, CO2 & power. N.O. & N.C.
Thermo Scientific

Section 7 Specifications
Unit BTU Output 115V / 230V: . . . . . . . . . . . . . . . . . . . . .510 BTUH (150 W)
Dimensions Exterior . . . . . . . . . . . . . . . . .38.0″ W x 80.0″ H x 33.0″ F-B . . . . . . . . . . . . . . . . . . . . . .(96.5 cm x 203.2 cm x 83.8 cm) Interior . . . . . . . . . . . . . . . . . .31.0″ W x 60.0″ H x 27.0″ F-B . . . . . . . . . . . . . . . . . . . . . .(78.7 cm x 152.4 cm x 68.6 cm)
Weight . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .500 lbs. (226.8 kg)
Safety Specifications Altitude: . . . . . . . . . . . . . . . . . . . . . . . . . . .Up to 2,000 meters Temperature: . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5°C to 40°C Humidity . . .Maximum 80% RH for temperatures up to 31°C, decreasing linearly to 50% RH at 40°C non-condensing. Mains Supply Fluctuations . . .not to exceed ±10% of nominal voltage Installation Category II Pollution Degree 2 Class of Equipment I
1 Installation category (overvoltage category) defines the level of transient overvoltage which the instrument is designed to withstand safely. It depends on the nature of the electricity supply and its overvoltage protection means. For example, in CAT II which is the category used for instruments in installations supplied from a supply comparable to public mains such as hospital and research laboratories and most industrial laboratories, the expected transient overvoltage is 2500 V for a 230 V supply and 1500 V for a 120 V supply.
2 Pollution degree describes the amount of conductive pollution present in the operating environment. Pollution degree 2 assumes that normally only non- conductive pollution such as dust occurs with the exception of occasional conductivity caused by condensation.

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Reach-In Incubator 7-3

Section 7 Specifications

7-4 Reach-In Incubator

Thermo Scientific

Thermo Scientific

Section 8 Spare Parts

Part Number 230135 230158 230120 230106 1900621 170164 600210 250118 360157 1900471 290138 191563 290090 400119 190641 980055 515080 227083 770001 600034 950013 505071 190012 180006 197075 190467 380177

Description 1 amp fuse (3950 accessory outlet) 2.5 amp fuse (3950 interior outlet) 0.5 amp fuse (3951 accessory outlet) 1.5 amp fuse (3951 interior outlet) Blower motor service kit Motor capacitor 3 MFD, 370 VAC 300 watt wire- wound heater CO2 solenoid 12 V DC Door switch Add Water float switch with pins Temperature control sensor Microprocessor board CO2 sensor Power supply Gas guard manifold with pressure switches & valve Float valve assembly, 100 PSI Leveler, 2″ diameter Door latch assembly Inline CO2 filter 0.375″ hose clamp 1/4″ vinyl tubing for CO2 connection Stainless steel shelf Stainless steel shelf channel 0 – 60°C chart paper, 1 pen recorder 0 – 100°C chart paper, 2 pen recorder 3/8″ MPT x 3/8″ tube P-trap 3/8″ FPT brass elbow

Reach-In Incubator 8-1

Section 8 Spare Parts

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Section 8 Spare Parts

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Reach-In Incubator 8-3

Section 8 Spare Parts

8-4 Reach-In Incubator

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Section 8 Spare Parts

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Reach-In Incubator 8-5

Section 8 Spare Parts

8-6 Reach-In Incubator

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Section 8 Spare Parts

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Reach-In Incubator 8-7

Section 8 Spare Parts

8-8 Reach-In Incubator

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Section 8 Spare Parts

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Reach-In Incubator 8-9

Section 8 Spare Parts

8-10 Reach-In Incubator

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Section 8 Spare Parts

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Section 8 Spare Parts

8-12 Reach-In Incubator

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Section 9 Electrical Schematics

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Reach-In Incubator 9-1

Section 9 Electrical Schematics

9-2 Reach-In Incubator

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Section 9 Electrical Schematics

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Reach-In Incubator 9-3

Section 9 Electrical Schematics

9-4 Reach-In Incubator

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Thermo Scientific

THERMO FISHER SCIENTIFIC STANDARD PRODUCT WARRANTY
The Warranty Period starts two weeks from the date your equipment is shipped from our facility. This allows for shipping time so the warranty will go into effect at approximately the same time your equipment is delivered. The warranty protection extends to any subsequent owner during the first year warranty period.

During the first year, component parts proven to be non-conforming in materials or workmanship will be repaired or replaced at Thermo’s expense, labor included. The Watlow EZ-ZONE PM controller is covered for one additional year for repair or replacement (parts only), provided the unit has not been misapplied. Installation and calibration are not covered by this warranty agreement. The Technical Services Department must be contacted for warranty determination and direction prior to performance of any repairs. Expendable items, glass, filters and gaskets are excluded from this warranty.

Replacement or repair of components parts or equipment under this warranty shall not extend the warranty to either the equipment or to the component part beyond the original warranty period. The Technical Services Department must give prior approval for return of any components or equipment. At Thermo’s option, all non-conforming parts must be returned to Thermo Fisher Scientific postage paid and replacement parts are shipped FOB destination.

THIS WARRANTY IS EXCLUSIVE AND IN LIEU OF ALL OTHER WARRANTIES, WHETHER WRITTEN, ORAL OR IMPLIED. NO WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE SHALL APPLY. Thermo shall not be liable for any indirect or consequential damages including, without limitation, damages relating to lost profits or loss of products.

Your local Thermo Sales Office is ready to help with comprehensive site preparation information before your equipment arrives. Printed instruction manuals carefully detail equipment installation, operation and preventive maintenance.

Section 10 Warranty Information

Reach-In Incubator 10-1

If equipment service is required, please call your Technical Services Department at 1-800-438-4851 (USA and Canada) or 1-740-373-4763. We’re ready to answer your questions on equipment warranty, operation, maintenance, service and special application. Outside the USA, contact your local distributor for warranty information.

ISO 9001

Rev. 5 8/13

REGISTERED

Section 10 Warranty Information

10-2 Reach-In Incubator

THERMO FISHER SCIENTIFIC INTERNATIONAL DEALER WARRANTY
The Warranty Period starts two months from the date your equipment is shipped from our facility. This allows for shipping time so the warranty will go into effect at approximately the same time your equipment is delivered. The warranty protection extends to any subsequent owner during the first year warranty period. Dealers who stock our equipment are allowed an additional six months for delivery and installation, provided the warranty card is completed and returned to the Technical Services Department.

During the first year, component parts proven to be non-conforming in materials or workmanship will be repaired or replaced at Thermo’s expense, labor excluded. The Watlow EZ-ZONE PM controller is covered for one additional year for repair or replacement (parts only), provided the unit has not been misapplied. Installation and calibration are not covered by this warranty agreement. The Technical Services Department must be contacted for warranty determination and direction prior to performance of any repairs. Expendable items, glass, filters, reagents, tubing, and gaskets are excluded from this warranty.

Replacement or repair of components parts or equipment under this warranty shall not extend the warranty to either the equipment or to the component part beyond the original warranty period. The Technical Services Department must give prior approval for return of any components or equipment. At Thermo’s option, all non-conforming parts must be returned to Thermo postage paid and replacement parts are shipped FOB destination.
THIS WARRANTY IS EXCLUSIVE AND IN LIEU OF ALL OTHER WARRANTIES, WHETHER WRITTEN, ORAL OR IMPLIED. NO WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE SHALL APPLY. Thermo shall not be liable for any indirect or consequential damages including, without limitation, damages relating to lost profits or loss of products.

Your local Thermo Sales Office is ready to help with comprehensive site preparation information before your equipment arrives. Printed instruction manuals carefully detail equipment installation, operation and preventive maintenance.

Contact your local distributor for warranty information. We’re ready to answer your questions on equipment warranty, operation, mainte-

nance, service and special application.

ISO

9001

Rev. 5 8/13

REGISTERED

Thermo Scientific

thermoscientific.com
© 2021 Thermo Fisher Scientific Inc. All rights reserved. All trademarks are the property of Thermo Fisher Scientific and its subsidiaries. Specifications, terms and pricing are subject to change. Not all products are available in all countries. Please consult your local sales representative for details.
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A Thermo Fisher Scientific Brand

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