Leica DM1000
Leica DM1000 LED
Operating Manual · Bedienungsanleitung · Mode d’emploi
Published June 2010 by/
Herausgegeben Juni 2010 von/
Publiée en june 2010 par :
Leica Microsystems CMS GmbH
Ernst-Leitz-Strasse 17-37
D-35578 Wetzlar (Germany)
Responsible for contents/ Verantwortlich für den Inhalt/ Responsable du contenu rédactionnel : Peter Schmitt, Manuela Jacobsen (Clinical Imaging, Product Management) Holger Grasse
(Safety Officer according to MPG §30/ Sicherheitsbeauftragter nach MPG §30/ Responsable de la sécurité conformément à la loi relative aux dispositifs médicaux, §30)
In case of questions, please contact the hotline/ Bei Fragen wenden Sie sich bitte an die Hotline/ Pour toute question, contacter notre service d’assistance téléphonique :
Phone/Tel./Tél. |
+49 (0) 64 41-29 4253 |
Fax |
+49 (0) 64 41-29 2255 |
E-Mail/e-mail/courriel |
MQM-Hotline@leica- |
|
microsystems.com |
Leica DM1000
Leica DM1000 LED
Operating Manual
Copyrights
Copyrights
All rights to this documentation are held by Leica Microsystems CMS GmbH. Reproduction of text or illustrations (in whole or in part) by print, photocopy, microfilm or other method (including electronic systems) is not allowed without express written permission from Leica Microsystems CMS GmbH.
The instructions contained in the following documentation reflect state-of-the-art technology. We have compiled the texts and illustrations as accurately as possible. Nevertheless, no liability of any kind may be assumed for the accuracy of this manual’s contents. Still, we are always grateful for comments and suggestions regarding potential mistakes within this documentation.
The information in this manual is subject to modification at any time and without notification.
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Contents |
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Contents |
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1. |
Important Notes about this Manual ...... |
6 |
8.3 |
Focusing ...................................................... |
36 |
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8.4 |
Tubes |
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37 |
2. |
Intended Purpose of the Microscope ... |
7 |
8.5 |
Eyepieces .................................................... |
38 |
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8.6 |
Objectives ................................................... |
39 |
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3. |
Safety Notes ............................................... |
8 |
8.7 |
Light Sources ............................................. |
40 |
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3.1 |
General Safety Notes ............................... |
8 |
8.8 |
Aperture Diaphragm ................................. |
40 |
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3.2 |
Electrical Safety ........................................ |
8 |
8.9 |
Field Diaphragm ......................................... |
41 |
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3.3 |
Disposal ....................................................... |
9 |
9. |
Contrast Methods |
42 |
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4. |
Overview of the Instrument .................... |
10 |
9.1 |
Transmitted Light ....................................... |
42 |
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9.1.1 |
Brightfield ......................................... |
43 |
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5. |
Unpacking the Microscope .................... |
14 |
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9.1.2 |
Phase Contrast ................................ |
44 |
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9.1.3 |
Darkfield ........................................... |
44 |
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6. |
Assembling the Microscope .................. |
16 |
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9.1.4 |
Oblique Illumination ....................... |
45 |
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6.1 |
Stage |
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16 |
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9.1.5 |
Polarization ...................................... |
45 |
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6.2 |
Condenser ................................................... |
18 |
9.2 |
Fluorescence .............................................. |
46 |
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6.3 |
Tube and Eyepieces .................................. |
19 |
10. |
Measurements with the Microscope |
47 |
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6.4 |
Objectives ................................................... |
19 |
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6.5 |
Light Source - Transmitted Light Axis ... |
20 |
10.1 |
Linear Measurements .............................. |
47 |
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6.6 |
Components for |
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10.2 |
Thickness Measurements ....................... |
48 |
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Fluorescence Applications ...................... |
21 |
10.3 |
Differentiation of Gout / Pseudo Gout |
... 49 |
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6.6.1 |
Fluorescence Illuminator .............. |
21 |
11. |
Trouble Shooting |
51 |
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6.6.2 |
106z Lamp Housing ......................... |
21 |
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6.7 |
Analyzer and Polarizer* .......................... |
24 |
12. |
Care of the Microscope |
54 |
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6.8 |
Lambda Plate Compensator .................... |
24 |
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6.9 |
Optional Accessories ............................... |
25 |
12.1 |
Dust Cover .................................................. |
54 |
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6.10 |
Insertion of the batteries ......................... |
27 |
12.2 |
Cleaning ....................................................... |
54 |
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6.11 |
Connection to the Power Supply ............ |
27 |
12.3 |
Handling Acids and Bases ...................... |
55 |
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12.4 |
Changing Fuses .......................................... |
55 |
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7. |
Startup ......................................................... |
28 |
13. |
Essential Wear and Spare Parts |
56 |
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7.1 |
Switching on the Microscope ................. |
28 |
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7.2 |
Köhler Illumination .................................... |
28 |
14. |
Retrofitting Components |
57 |
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7.3 |
Checking Phase Contrast Rings ............. |
29 |
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7.4 |
Adjusting the Light Sources .................... |
31 |
14.1 |
Equipping the Condenser Disk ................ |
57 |
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8. |
Operation .................................................... |
35 |
15. |
Index |
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59 |
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8.1 |
Switching on ............................................... |
35 |
16. |
EC Declaration of Conformity |
60 |
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8.2 |
Stages and Object Displacement ........... |
35 |
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5
1. Important Notes about this Manual
1. Important Notes about this Manual
Caution!
This operating manual is an essential component of the microscope, and must be read carefully before the microscope is assembled, put into operation or used.
Text symbols, pictograms and their meanings:
(1.2)
→p. 20
!
This operating manual contains important instructions and information for the operational safety and maintenance of the microscope and accessories. Therefore, it must be kept and taken care of.
Numbers in parentheses, such as "(1.2)", correspond to illustrations (in the example, figure 1, item 2).
Numbers with pointer arrows (for example → p. 20), point to a certain page of this manual.
Caution!
Special safety instructions within this manual are indicated with the triangle symbol shown here, and have a gray background.
Caution! The microscope and accessories can be damaged when operated incorrectly.
Notes on the disposal of the device, accessories and consumable materials.
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Explanatory note |
* |
Item not contained in all configurations |
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2. Intended Purpose of the Microscope
2. Intended Purpose of the Microscope
The Leica DM1000/DM1000 LED microscope, to which this user manual belongs, is designed for biological routine and research applications. This includes the examination of samples taken from the human body with a view to provide information on physiological or pathological states or congenital abnormalities, or to determine the safety and compatibility with potential recipients, or to monitor therapeutic measures.
The above-named microscope complies with the Council Directive 98/79/EEC concerning in vitro diagnostics. (It also conforms to the Council Directives 2006/95/EC concerning electrical apparatus and 2004/108/EC concerning electromagnetic compatibility for use in an industrial environment.)
Caution!
The manufacturer assumes no liability for damage caused by, or any risks arising from using the microscope for other purposes than those for which they are intended or not using them within the specifications of Leica Microsystems CMS GmbH.
In such cases the conformity declaration shall cease to be valid.
Caution!
These (IVD) devices are not intended for use in the patient environment defined by DIN VDE 0100-710. Neither are they intended for combining with medical devices according to EN 60601-1. If a microscope is electrically connected to a medical device according to EN 60601-1, the requirements defined in EN 60601-1-1 shall apply.
Not suitable for examining potentially infectious specimens.
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3. Safety Notes
3. Safety Notes
3.1 General Safety Notes |
3.2 Electrical Safety |
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This safety class 1 (DM1000) or class 2 |
General Specifications |
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(DM1000 LED) device is constructed and tested |
Microscope |
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in accordance with |
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EN |
61010-2-101:2002 (DM1000/DM1000 LED), |
For indoor use only. |
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EN |
61010-1:2001 (DM1000/DM1000 LED), |
Supply voltage: |
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IEC |
61010-1:2001 (DM1000/DM1000 LED), |
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IEC |
60825-1:2007 (DM1000 LED) |
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EN |
60825-1 + A1 + A2:2003 (DM1000 LED), |
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LED Class I (DM1000 LED) |
Power input: |
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safety regulations for electrical measuring, con- |
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trol, and laboratory devices. |
Fuses: |
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Caution!
In order to maintain this condition and to ensure safe operation, the user must follow the instructions and warnings contained in this operating manual.
Caution!
The devices and accessories described in this operating manual have been tested for safety and potential hazards.
The responsible Leica affiliate or the main plant in Wetzlar, Germany must be consulted whenever the device is altered, modified or used in conjunction with non-Leica components that are outside of the scope of this manual.
Unauthorized alterations to the device or noncompliant use shall void all rights to any warranty claims and product liability!
ELPAC POWER SYSTEMS power supply, Model: FW1812
Input: |
100-240 V AC |
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0,5 A |
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47-63 Hz |
Output: |
12 V DC |
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1,5 A max. |
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18 W max. |
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Caution! |
Use the original power supply only. Other power supplies must not be used.
8
3. Safety Notes
If the original power supply fails or is damaged, it must be replaced. Repair is not permitted.
Original power supplies are available from your Leica branch office or Leica dealer.
Caution!
The power plug may only be plugged into an outlet equipped with a grounding contact.
Do not interfere with the grounding function by using an extension cord without a ground wire. Any interruption of the ground wire inside or outside of the device, or release of the ground wire connection, can cause the device to become hazardous. Intentional ground interruption is not permitted!
Caution!
DM1000 only: Never use any fuses as replacements other than those of the types and the current ratings listed here. Using patched fuses or bridging the fuse holder is not permitted. The use of incorrect fuses may result in a fire hazard.
Caution!
The microscope's electrical accessory components are not protected against water. Water can cause electric shock.
Caution!
Protect the microscope from excessive temperature fluctuations. Such fluctuations can lead to the accumulation of condensation, which can damage the electrical and optical components.
Ambient temperature: 15-35°C.
Caution!
DM1000 only: Before exchanging the fuses or lamps, be absolutely certain to switch off the main power switch and remove the power cable.
3.3 Disposal
To dispose of the product at the end of its service life, please contact Leica Service or Sales.
Please observe national laws and regulations, such as those implementing and enforcing the WEEE EU directive.
Note:
Like other electronic devices, the microscope and its accessory components must not be disposed of as regular household waste.
9
4. Overview of the Instrument
4. Overview of the Instrument
Specification |
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Leica DM1000/DM1000 LED |
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Contrast Methods |
• |
Transmitted light: |
brightfield, darkfield, |
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phase contrast, polarization |
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Incident light: |
fluorescence |
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Transmitted Light Axis |
Leica DM1000: Integrated halogen illumination |
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Leica DM1000 LED: Integrated LED illumination |
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manual adjustment of |
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Light intensity |
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Aperture diaphragm |
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Field diaphragm (only with Köhler kit) |
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Incident Light Axis |
Incident light fluorescence illuminator for eyepieces with |
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(optional) |
field number up to 20 with |
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Interchangeable slide with mount for 3 filter systems |
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Adjusting lens for lamp |
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• Light trap for the suppression of extraneous light |
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BG38 blue filter and shutter, switchable |
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Tube |
optionally with |
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Fixed or variable viewing angle |
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Up to 3 switching positions |
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one or two camera ports |
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Ergotube with height-adjustable eye level and camera port |
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Magnification Changer |
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Manual |
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(optional) |
• Magnification steps: 1x; 1.5x; 2x |
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Objective Turret |
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Manual |
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5-fold for objectives with M25 thread |
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X/Y Stage |
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With condenser holder |
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Coaxial pinion, optional telescopable |
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Controls mountable left or right |
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4. Overview of the Instrument
Specification |
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Leica DM1000/DM1000 LED |
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Condenser |
optionally with |
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CL/PH 0.90/1.25 OIL condenser with color coding |
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CLP/PH 0.85 condenser for polarization |
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Achr.apl. A 0.9 (P) condenser with swivelable condenser head |
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UCL 0.90/1.25 OIL universal condenser UCLP 0.85 for |
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polarization with 5-position light ring disk) |
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UCL/P pol. universal condenser with interchangeable |
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condenser head and condenser disk with 6 positions |
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Focusing |
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Focus wheel for coarse and fine focusing |
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Height adjustment |
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4. Overview of the Instrument
6
5
4
1 2 3
Fig. 1 Left side of the Leica DM1000 stand
1Coarse and fine focusing
2Condenser height adjustment
3Brightness control
4Field diaphragm
5Aperture diaphragm
6Condenser
12
4. Overview of the Instrument
1
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6 |
7 |
8 |
9 |
10 |
Fig. 2 Right side of the Leica DM1000 stand
1Eyepiece
2Eyepiece tube
3Tube
4Objective turret with objectives
5Specimen stage with specimen holder 6 Integrated illumination
7On/Off switch
8Condenser height adjustment
9Coarse and fine focusing
10Coaxial pinion for x/y stage movement
13
5. Unpacking the Microscope
5. Unpacking the Microscope
First, carefully remove all components from the transportation and packaging materials.
Note:
If at all possible, avoid touching the lens surfaces of the objectives. If fingerprints do appear on the glass surfaces, remove them with a soft leather or linen cloth. Even small traces of finger perspiration can damage the surfaces in a short time. See the chapter "Care of the Microscope" → p. 54, for additional instructions.
Caution!
Do not yet connect the microscope and peripherals to the power supply at this point!
Installation Location
Work with the microscope should be performed in a dust-free room, which is free of vapors (oil, chemicals etc.) and of extreme humidity. At the workplace, large temperature fluctuations, direct sunlight and vibrations should be avoided. These conditions can distort measurements and micrographic images.
Allowable ambient conditions
Temperature |
15-35°C |
Relative humidity |
maximum 80% up to 30°C |
Microscopes in warm and warm-damp climatic zones require special care in order to prevent the build up of fungus.
See the chapter "Care of the Microscope" → p. 54, for additional instructions.
Caution!
Electrical components must be placed at least 10 cm away from the wall and away from flammable substances.
14
5. Unpacking the Microscope
Transport
For shipping or transporting the microscope and its accessory components, the original packaging should be used.
As a precaution to prevent damage from vibrations, the following components should be disassembled and packaged separately:
•Unscrew the objectives
•Remove the condenser
•Remove the coaxial pinion
•Remove the lamp housings
•Disassemble the burner of 106z lamp housing
•Remove all moving or loose parts
15
6. Assembly
6. Assembling the Microscope
The microscope components are logically assembled in this order:
•Stage
•Condenser
•Fluorescence illuminator*
•Intermediate systems*
•Tube
•Eyepieces
•Objectives
•Lamp housings with light sources*
•Polarization equipment*
Only one commonly used screwdriver is necessary for assembly, which is included in the delivery package.
The tool can be stored on a magnetic retainer on the underside of the stage at the right. When using intermediate systems and optical accessories, the sequence may vary.
In this case, read Chapter
"6.9 Optional Accessories" → p. 25.
6.1Stage
!Caution:
Before completing the stage, make sure no objectives are installed!
Remove the srew located under the stage in the front.
Specimen Holder
•Place the specimen holder on the stage and fasten it with the two screws (3.1)
Coaxial Pinion
Note:
The coaxial pinion can be mounted on the leftor right-hand side.
•First, place the flat fine focus wheel on the side to which you intend to mount the coaxial pinion; the wheel is held in place magnetically (4.1); ensure that the button snaps into place. Attach the other focus knob on the opposite side
•Loosen the lock screw (5.1) at the front lefthand side of the stage
•Slide the stage as far back as possible
•Attach the coaxial pinion with the srew (6.1)
•Return the stage to the starting position and retighten the lock screw; after installation of the stage control, move object guide all the way to the left side of the instrument; keep turning when guide has reached the end of travel until a click noise is heard
Fig. 3 Specimen stage with specimen holder 1 Lock screws for specimen holder
1
16
6. Assembly
Adjusting the Focus Stop
The focus stop is preadjusted by the factory to prevent collision with objectives. The focus stop should be set approx. 0.3 mm higher as the focal plane to enable focussing of the samples of different thickness.
If a readjustment is necessary, adjust as following:
•Lower the stage by rotating 1/2 turn of the coarse adjustment knob
•Loosen the focus stop screw on left hand side of microscope
•Move stage to desired focal plane (preferably approx. 0.3 mm higher)
•Tighten focus stop screw
Stage Lock*
The stage lock is mounted in the same hole as the stage drive (in case of ErgoStages, it can be mounted on the opposite position in addition to stage drive).
The mounting of stage lock is similar to mounting of the stage drive:
•Loosen the locking screw (5.1) on the left side underside of stage and move the stage all the way back
•Loosen the screw for coaxial pinion (6.1), remove the coaxial pinion, and attach the stage lock with this screw
•Loosen the stage lock screw and pull the stage forward to the desired position
•Retighten the locking screw (5.1) underside of stage
•Press the pinion of the stage lock against the rack and retighten the stage lock screw
Fig. 5 Underside of stage 1 Lock screw
1
Fig. 4 |
Focus wheel |
Fig. 6 |
Coaxial pinion installation |
1 Magnetic retainer for fine focus wheel |
1 Mounting screw for coaxial pinion |
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1 |
1 |
17
6. Assembly
6.2 Condenser
•If present, screw the condenser head into the condenser
•Using the condenser height adjuster (9.3), turn the condenser holder (fig. 8) completely downward
•Unscrew the clamping screw for the condenser (9.2) far enough so that the condenser can be inserted from the front
•From the front, insert the condenser into the condenser holder as far as it will go; on the underside of the condenser, there is an orientation pin (7.1), which must be located in the guiding notch (8.1)
•Pull the condenser's clamping screw (9.2) so that the condenser is locked in place
Note:
The condenser must be centered before using the microscope.
→ Köhler illumination p. 28.
Fig. 8 Condenser holder 1 Guiding notch
1
Fig. 9 Condenser holder
1 Condenser centering bolts
2 Clamping screw for condenser
3 Condenser height adjuster
Fig. 7 Underside of condenser (example CL/PH)
1Orientation pin
2Auxiliary condenser lens LS
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6. Assembly
6.3 Tube and Eyepieces
Note:
For fluorescence applications, install the fluorescence illuminator* first →p. 21.
If available, the analyzer* (10.1) must be inserted into the stand. This requires that the guide key engages in the guide pin (10.2).
To mount the analyzer, the analyzer mount TL* 20 mm or 60 mm can also be placed between stand and tube.
An intermediate tube pole* with a switchable analyzer (on/off) and Bertrand lens is also available as an option.
The tube is mounted to the stand either directly or with the use of intermediate modules*.
•Loosen the clamping screw (11.1) on the stand
•Insert the tube in the circular receptacle (dovetail ring)
•Retighten the clamping screw (11.1)
•The eyepieces are inserted into the eyepiece tubes on the tube
6.4 Objectives
Always only use Leica objectives of tube length ¥ (infinity)! The standard thread is M25. The objectives should be arranged so that the magnification increases when the objective nosepiece is rotated counter-clockwise.
!
Attention:
Lower the specimen stage as far as possible before assembling the objectives. Close vacant threads in the nosepiece with dust protection caps!
Fig. 10 Analyzer mounting |
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Analyzer |
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Orientation pin and guiding notch |
Fig. 11 Fastening the tube |
3 |
Clamping screw |
1 Clamping screw |
1
19
6. Assembly
6.5 Light Source for the Transmitted Light Axis
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Caution! |
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Note: |
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Light sources pose a potential irradiation |
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The Leica DM1000 LED is equipped with |
risk (glare, UV-radiation, IR-radiation). |
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integrated LED illumination. The service life of |
Therefore, lamps have to be operated in |
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the LED is about 100.000 hours. If, despite this, it |
closed housings. |
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should be necessary to change the LED, this |
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task must be carried out by Technical Service |
Replacing the Lamp of the Integrated |
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only. |
Illumination |
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The following instructions in this chapter refer to |
The transmitted light illumination |
with a low- |
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voltage tungsten halogen lamp |
(fig. 12) is |
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the Leica DM1000 with tungsten halogen lamp.
integrated in the base of the microscope and is accessible from the right-hand side.
Caution!
Be sure that the microscope and lamp housing are disconnected from the power supply. Unplug the power plug and the power supply during assembly.
• Remove the insert (12.2)
Caution!
The lamp may still be hot!
• Remove the lamp
Fig. 12 Transmitted-light illumination
in Leica DM1000 microscope base
1Tungsten halogen lamp
2Insert
Caution!
Do not remove the new lamp's dust cover until you have installed the lamp. Avoid fingerprints on the lamp.
•Insert the new lamp with the dust cover straight into the socket until it stops; be sure that the lamp is inserted straight
•Remove the lamp's dust cover
•Replace the insert (12.2)
12
20
6. Assembly
6.6 Components for Fluorescence Applications*
6.6.1 Fluorescence illuminator*
The fluorescence illuminator is mounted before the tube. It is fastened in place with the side clamping screw (13.1).
6.6.2 106z Lamp Housing*
Caution!
Light sources pose a potential irradiation risk (glare, UV-radiation, IR-radiation). Therefore, lamps have to be operated in closed housings.
During assembly, always unplug the power supply unit of the 106z lamp housing from its socket.
During assembly work on xenon burners, always wear the supplied protective gloves and face protection (fig. 14) (risk of explosion).
Never touch the glass parts of the burner with bare hands.
Never look directly into the beam path (blinding hazard).
The lamp housing 106z is used with various gas discharge lamps.
Caution!
Make sure to follow the instructions and safety notes of the lamp supplier.
Before changing lamps allow at least 30 mins for cooling down!
Inserting the Gas Discharge Lamps* (Hg and Xe) into the 106z Lamp Housing
Hg and Xe lamps are powered by separate supply units.
Read the separate instruction manual provided with these supply units.
Fig. 13 Assembly of fluorescence illuminator 1 Clamping screw
1
Fig. 14
Protective gloves and mask
21
6. Assembly
The following gas discharge lamps may be used and require different supply units and lamp mounts (fig. 16):
Type |
Typical Bulb Life+) |
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50 W high-pressure mercury burner (alternating current) |
100 hours |
100 W high-pressure mercury burner (direct current) |
200 hours |
100 W high-pressure mercury burner, type 103 W/2 (direct current) |
300 hours |
75 W high-pressure xenon burner (direct current) |
400 hours |
+) Please regard the data sheets for the burners. |
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•To open the 106z lamp housing, unscrew the fastening screws (15.8) on the cover
•Remove the transport anchorage (red plastic rod in place of the burner) in the lamp mount; to do so, remove the lower clamp (16.1); pull up the cooling element (16.3) and turn it to the side; detach the lower clamp system (16.2) and remove the transport anchorage
•Install the burner in reverse order
Caution!
Hg 50 Burner:
After installation, the labeling must be upright. If a glass melt nipple is present (16a.4), position it by turning the burner so that the nipple does not come in the way of the beam path later, but instead is positioned sideways.
Xe 75 Burner:
Remove the burner's dust cover (16b.5) after you have installed the burner.
Fig. 15 106z lamp housing (on the side, open)
1Cover (raised)
2Collector
3Gas discharge lamp in mount
4Reflector (mirror)
5, 6, 7 Adjusting screw for x-y reflector
8Fastening screw for lamp mount
9Socket for contact plug
1
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9 |
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22
6. Assembly
•Insert the lamp mount, with the burner installed, into the lamp housing and tighten it with the screws (15.8)
•Close the lamp housing and retighten the screws
•Place the lamp housing in the incident light lamp housing receptacle (17.1) and fasten it with the clamping screw on the side
•Connect the lamp housing to the external power supply
Fig. 16 a-c Lamp mounts for gas discharge lamps
1Upper clamping system
2Lower clamping system
3Cooling element
4Nipple of the mercury 50 burner,
5Dust cover of the mercury 75 burner
Xe 75 b
3
1
5
2
Fig. 17 Mounting the 106z lamp housing 1 Lamp housing receptacle
1
Hg 50 a
3
1
4
2
Hg 100 c
3
1
2
23
6. Assembly
6.7 Analyzer and Polarizer*
Analyzer
If the analyzer was inserted into the tube mount before the tube assembly: (→ p. 19), no additional assembly step is required.
If an intermediate tube pole* or analyzer mount TL* is used:
• Remove the plug cap on the left side
Alternative:
•Attach the polarizer holder to the underside of the condenser holder with the left clamp screw (19.1); remove the flip-out blue filter if required
•Push the polarizer with the labeled side upward into the lower opening
•Insert the analyzer into the receptacle until it latches in place
Polarizer
•Raise the condenser to its upper stop position
•Remove the DLF filter magazine from the base if present
•Press the polarizer holder in place (Fig. 18)
•Push the polarizer with the labeled side upward into the lower opening
6.8 Lambda Plate Compensator*
•Raise the condenser to its upper stop position
•Remove the DLF filter magazine from the base if present
•Attach the lambda plate compensator to the base
Fig. 19 Assembly of polarizer holder* 1 Clamping screw
Fig. 18 Filter holder* with two positions
1
24
6. Assembly
6.9 Optional Accessories
Camera*
A camera can be connected via an adapter.
•Attach the adapter to the top port of the tube and fasten it tightly with the side clamping screw
•Screw on the camera
Note:
The size of the camera chip and the mounting system (B-mount, C-mount, etc.) must be considered when choosing an adapter (see table).
Calculation of the magnification on the monitor The magnification MTV on the monitor can be calculated with the following formula or measured with a stage micrometer and a cm scale:
MTV = Objective magnification x
factor of magnification changer* x TV adapter magnification* x monitor diameter
chip diameter of camera
|
Recorded picture diagonal in mm for |
|||
|
1 inch |
2/3 inch |
1/2 inch |
1/3 inch |
|
camera |
camera |
camera |
camera |
|
|
|
|
|
Without Zoom Magnification, only for 1-Chip-Cameras: |
|
|
|
|
C-mount adapter 1 x HC |
16 |
11 |
8 |
6 |
C-mount adapter 0.70 x HC |
- |
15.7 |
11.4 |
7.8 |
C-mount adapter 0.55 x HC |
- |
- |
14.5 |
10.9 |
C-mount adapter 0.35 x HC |
- |
- |
- |
17.1 |
With Zoom Magnification (Vario TV Adapter) for 1-3 Chip-Cameras:
C-mount, 0.32-1.6 x HC |
- |
- |
19+)-5 |
18-3.8 |
B-mount (ENG), 0.5-2.4 x HC (1/2-inch) |
- |
- |
16-3.3 |
- |
+) from zoom factor 0.42 x only! |
|
|
|
|
Without Zoom Magnification, for 1-3 Chip-Cameras: |
|
|
|
|
C-mount adapter 1 x |
- |
- |
16 |
12 |
B-mount adapter 1 x |
- |
- |
16 |
12 |
B-mount adapter 1.25 x |
- |
17.5 |
- |
- |
F-mount adapter 1 x |
- |
- |
16 |
12 |
F-mount adapter 1.25 x |
- |
17.5 |
- |
- |
Plus (essential requirement): TV optics 0.5 x HC |
|
|
|
|
25
6. Assembly
Ergomodule*
For raising the eye level of the tube opening, the 30 mm or 60 mm ergomodule may be used.
It is fastened in place with the side clamping screw.
Installation of the tube on the 60 mm ergomodule: The tube has to be rotated 90° degree (eyetubes going to the right) and rotated back into the viewing position and tightened with the screw.
Ergolift*
A base for the stand featuring adjuster wheels for the base’s height and angle is available to ensure an optimal working position.
Magnification Changer*
Optionally, a magnification changer (fig. 20) can be used, which is manually operated. On the knurled ring, the following magnification factors can be set:
Viewing Attachments*
Viewing attachments featuring illuminated pointers are available for groups of 2, 3, 4, 5 and 10 viewers respectively (other configurations on request).
The support (21.3) must be aligned precisely. The fade-in arrow can be moved in x and y direction.
Fig. 21 Viewing attachment
1Movement of light pointer in x and y direction
2Brightness control
3Adjustment of arm support
The external power supply (illuminated arrow) is not illustrated.
1
2
3
1x; 1.5x; 2x
Tracing Device*
The tracing device L3/20 (fig. 22) allows an optical overlay of large objects (next to the microscope) on the microscope image. This makes it easy to draw specimens by tracing
their outlines or superimposing scales.
Fig. 20 Magnification changer
Fig. 22 Tracing device 1 Shutter
1
26
6. Assembly
6.10 Inserting the batteries (DM1000 LED only)*
The microscope can be powered by batteries if you prefer. The batteries are automatically charged when the microscope is connected to the mains supply.
The microscope can be used for about 6-8 hours in battery-operated mode.
•The battery compartment is accessed from underneath the stand (23a.1); remove the lid of the compartment
•Insert the batteries (order no. p. 56) as shown on the bottom of the compartment (fig. 23b) and close the lid
6.11 Connection to the Power Supply
•After completing the assembly work, connect the stand to the power supply using the power cable supplied (fig. 23c)
•When using the lamp housing or the external power supply unit, connect them to the power supply, too
Fig. 23a Bottom of stand (DM1000 LED) 1 Lid of the battery compartment
Fig. 23c Back of the stand (DM1000)/Type label 1 Power supply connection
1
1
Fig. 23b Bottom of stand (DM1000 LED) 1 Battery compartment open
Fig. 23d Back of the stand (DM1000 LED)/Type label 1 External power supply connection
1
1
27
7. Start-up
7. Start-up
7.1 Switching on the Microscope
•Switch on the microscope with the on/off switch (24.1)
Caution!
After turning on the gas discharge lamp*, the burner must be immediately adjusted. Therefore, do not turn on the power supply* unit yet. First, work in transmitted light in order to familiarize yourself with the microscope’s controls.
7.2 Köhler Illumination*
The condenser is also pre-adjusted in the factory.
However, it may be necessary to re-adjust the condenser in some cases. Therefore, check the condenser centering.
The following procedure is provided for the transmitted light brightfield illumination.
•If present click the condenser disk* into the BF position
•If present pull the light ring slide* out of the condenser
Fig. 24
1On/Off switch
2Focus wheel
3Stage positioning
•Select an objective with moderate magnification (10x-20x);
for condensers with movable condenser heads:
Swing in the condenser top
(The condenser top is swung out for objective magnifications < 10x.)
•Insert the specimen into the stage’s specimen holder
•Focus on the specimen using the focus wheel (24.2)
•Set the light intensity using the brightness control (25.2)
•Close the field diaphragm (25.3) until the edge of the diaphragm appears in the specimen plane (26a)
1 2 3
28
7. Start-up
•Using the condenser height adjuster (25.1), adjust the condenser until the edge of the field diaphragm appears in sharp relief (26b)
•If the image does not appear in the middle of the field of view (26c), the condenser must be moved into the middle of the field of view with the help of the two centering bolts (25.4); the tool required for this purpose is magnetically attached to the underside of the stage
•Open the field diaphragm just enough for it to disappear from the field of view (26d)
Note:
The condenser height adjustment depends on the thickness of the specimen. It may be adjusted for different specimens.
Fig. 25
1Condenser height adjuster
2Brightness control
3Field diaphragm
4Condenser centering
7.3 Checking Phase Contrast Rings
If your microscope is equipped for the use of phase contrast, the light rings that fit the objectives are built into the condenser disk*.
The light rings are already centered in the factory. However, the centering should be rechecked.
Note:
A light ring slide which is inserted into the side of the condenser is used for condensers without condenser disks. Centering is not required in this case.
Note:
When swivelling in a suitable objective for phase contrast, the corresponding light ring must be chosen.
The objective engraving (e.g. PH 1) indicates the corresponding light ring (e.g. 1).
Fig. 26 Köhler illumination
aField diaphragm not focused, not centered
bField diaphragm focused, but not centered
cField diaphragm focused and centered, diameter is too small, however
dField diameter (light) = Field diameter (view) (Köhler illumination)
4
a |
b |
|
c |
d |
1 |
2 |
3 |
29
7. Start-up
•In the place of an eyepiece, insert the focusing telescope (fig. 27) into the observation tube
•Swivel in the phase contrast objective with the lowest magnification
•Focus on the specimen with the focus wheel
•Focus the ring structure (29.a) by slightly loosening the clamping ring (27.2) and moving the eye lens (27.1)
•Turn the centering screws until the dark ring (phase ring in the objective) is congruent with the slightly narrower bright ring (light ring in condenser) (29 c)
•Repeat the process for all other light rings and objectives
•Optionally remove the centering keys after the centering procedure
Fig. 28 Light ring centering (i.e.: condenser UCL/P) 1 Centering keys
• Retighten the clamping ring
1 |
1 |
• Select the corresponding ring diaphragm (light ring) in the condenser.
•If the light ring and the phase ring are not shown as arranged in fig. 29.c, the light ring must be centered
•Insert the centering screws into the openings provided at the rear of the condenser (28.1)
|
|
Fig. 29 Phase contrast centering procedure |
|
|
PH=phase contrast ring, LR=light ring |
|
|
a Condenser in bright field (BF) position |
Fig. 27 Focusing telescope |
b Condenser in phase contrast (PH) position |
|
1 |
Adjustable eye lens |
Light ring (LR) not centered |
2 |
Clamping ring for fixing the focus position |
c Light ring and phase ring centered |
a |
b |
c |
1 |
|
|
2 |
|
|
PH |
LR |
30
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