德国目乐显微镜基础介绍

显微镜使用知识点精析显微镜是科学实验室中常用的观察工具，正确使用显微镜对于进行精密观察和研究具有重要的意义。

本文将详细解析显微镜的使用知识点，帮助读者更好地掌握这一技能。

一、显微镜的基本构造显微镜主要由目镜、物镜、载物台、调节旋钮和照明系统等部分组成。

其中，目镜和物镜是核心部件，载物台用于放置观察样本，调节旋钮用于调节焦距和放大倍数，照明系统则提供光源。

二、显微镜的分类根据观察对象和目的的不同，显微镜可分为光学显微镜、电子显微镜和扫描隧道显微镜等。

其中，光学显微镜适用于观察细胞、细菌等微小物体，电子显微镜则能观察更细微的结构，扫描隧道显微镜则用于观察表面形貌。

三、显微镜的使用方法1、打开显微镜：首先打开显微镜的灯光，调整照明系统至适当亮度。

然后转动调节旋钮，将载物台升至适当高度。

2、放置样本：将需要观察的样本放置在载物台上，用吸水纸轻轻吸取多余水分。

3、调节焦距：转动调节旋钮，使物镜逐渐靠近样本。

当看到清晰图像时，停止调节。

4、观察样本：通过目镜观察样本，调整焦距和放大倍数以获取最佳观察效果。

5、记录数据：在观察过程中，可使用笔记本或相机记录观察结果和数据。

6、关闭显微镜：观察完毕后，先将物镜远离样本，再将灯光关闭。

最后用软布擦拭显微镜表面，放置在干燥、通风的地方保存。

四、注意事项1、使用显微镜时请保持安静，避免影响观察效果。

2、不要用手触摸光学部件，以免划伤表面。

3、观察样本时，请使用载物台上的推动器移动样本，避免用力过度导致载物台移动。

练习使用显微镜教案一、实验目的：1、了解显微镜的构造和各部分的功能；2、掌握显微镜的使用方法；3、观察并记录细胞的结构和特征。

二、实验材料：显微镜、载玻片、盖玻片、镊子、吸水纸、擦镜纸、小纱布、甘油三酯、香柏油。

三、实验步骤：1、打开显微镜包装，取出显微镜并放在稳定的平面上。

注意不要让显微镜的镜头直接接触硬物或脏物，以免被污染。

2、调整显微镜的底座，使显微镜稳定，确保不会滑动。

光学显微镜的基础知识详细介绍PDF文档由光行天下论坛()会员制作，欢迎交流一、 光学显微镜的发展历史早在公元前一世纪，人们就已发现通过球形透明物体去观察微小物体时，可以使其放大成像。

后来逐渐对球形玻璃表面能使物体放大成像的规律有了认识。

1590年，荷兰和意大利的眼镜制造者已经造出类似显微镜的放大仪器。

1610年前后，意大利的伽利略和德国的开普勒在研究望远镜的同时，改变物镜和目镜之间的距离，得出合理的显微镜光路结构，当时的光学工匠遂纷纷从事显微镜的制造、推广和改进。

17世纪中叶，英国的胡克和荷兰的列文胡克，都对显微镜的发展作出了卓越的贡献。

1665年前后，胡克在显微镜中加入粗动和微动调焦机构、照明系统和承载标本片的工作台。

这些部件经过不断改进，成为现代显微镜的基本组成部分。

1673～1677年期间，列文胡克制成单组元放大镜式的高倍显微镜，其中九台保存至今。

胡克和列文胡克利用自制的显微镜，在动、植物机体微观结构的研究方面取得了杰出成就。

19世纪，高质量消色差浸液物镜的出现，使显微镜观察微细结构的能力大为提高。

1827年阿米奇第一个采用了浸液物镜。

19世纪70年代，德国人阿贝奠定了显微镜成像的古典理论基础。

这些都促进了显微镜制造和显微观察技术的迅速发展，并为19世纪后半叶包括科赫、巴斯德等在内的生物学家和医学家发现细菌和微生物提供了有力的工具。

在显微镜本身结构发展的同时，显微观察技术也在不断创新：1850年出现了偏光显微术；1893年出现了干涉显微术；1935年荷兰物理学家泽尔尼克创造了相衬显微术，他为此在1953年获得了诺贝尔物理学奖。

古典的光学显微镜只是光学元件和精密机械元件的组合，它以人眼作为接收器来观察放大的像。

后来在显微镜中加入了摄影装置，以感光胶片作为可以记录和存储的接收器。

现代又普遍采用光电元件、电视摄像管和电荷耦合器等作为显微镜的接收器，配以微型电子计算机后构成完整的图像信息采集和处理系统。

初一生物显微镜相关知识点详解显微镜是初中生物学习中的重要工具，通过显微镜，我们可以观察到肉眼无法看到的微小结构。

本文将详细介绍显微镜的构造、使用方法、常见问题及其解决方法等知识点，帮助初一学生更好地掌握显微镜的使用技巧。

一、显微镜的构造显微镜主要由以下几个部分组成：1. 镜座：显微镜的底座，用以支持整个镜体。

镜座通常较重，以确保显微镜在使用过程中稳定不易倾倒。

2. 镜臂：取放显微镜时手握的部位，连接镜座和镜筒。

镜臂的设计通常符合人体工程学，便于握持和操作。

3. 镜筒：连接在镜臂的前上方，上端装有目镜，下端装有物镜转换器。

镜筒的长度和直径会影响显微镜的放大倍数和视野范围。

4. 载物台：位于镜筒下方，用以放置玻片标本，中央有通光孔，两侧有压片夹固定玻片标本。

载物台通常可以上下移动，以便调节焦距。

5. 遮光器：上有大小不等的圆孔，称为光圈，用以调节光线强弱。

遮光器的设计可以帮助用户在不同光照条件下获得最佳的观察效果。

6. 粗准焦螺旋：用于快速调节物镜和标本之间的距离，使物象呈现于视野中，通常在使用低倍镜时使用。

粗准焦螺旋的调节范围较大，适合初步对焦。

7. 细准焦螺旋：用于缓慢调节物镜和标本之间的距离，使物象更加清晰，通常在使用高倍镜时使用。

细准焦螺旋的调节范围较小，但精度较高，适合精细对焦。

8. 反光镜：装在镜座上，可向任意方向转动，有平面镜和凹面镜两种，分别适用于光线较强和较弱的情况。

反光镜的选择和调整对显微镜的成像质量有重要影响。

9. 目镜：用于放大物象，目镜越长，放大倍数越小。

目镜的放大倍数通常在5倍到20倍之间。

10. 物镜：用于放大物象，物镜越长，放大倍数越大。

物镜的放大倍数通常在4倍到100倍之间。

二、显微镜的使用方法显微镜的使用方法包括以下几个步骤：1. 取镜和安放：右手握住镜臂，左手托住镜座，将显微镜放在实验台距边缘约7厘米处，略偏左。

安装好目镜和物镜。

确保显微镜放置稳固，避免在使用过程中发生倾倒。

NZ.1903-SAuxiliary lenses 0.3x, 0.4x, 0.5x, 0.75x, 1.5x and 2.0x arealso available for the standard NexiusZoom and for theNexiusZoom EVO NZ.5313NZ.9505100330450360º360º340º310max1.000 maxFrom 0 to 295 max40NZ.1902-ANZ.1902-APS TA N D• E rgonomic designed pillar or rack & pinion stand with 3W incident and 3W transmitted LED illuminations (-P and -S stands)• E rgonomically designed pillar stand with two 3W goose-neck type incident LED illuminations on each side and a 3W transmitted LED illumination (-PL stand)• E rgonomic pillar stand with rotating mirror and 3W LED transmitted and incident illuminations (-M stand)• E rgonomic designed universal or boom stands, without illumination (-U, -B and BC stands)• A rticulated arm stand for table mounting or with heavy desktop stand, both without head holder, without illumination (-A and -AP stands)All pillar and rack & pinion stands are supplied with two object clamps. Alloy metal cast, hardened coating.S TAG E180 x 155mm X-Y mechanical stage with 76 x 55mm translation stage and transparent glass plate for NexiusZoom, fixed on stage of microscope. Only available with new microscopes (due to fixing), so it has to be ordered with the purchase of a microscope (See picture: NZ.9505)I L L U M I N AT I O N3 W transmitted and incident LED illuminators with internal power supply 100-240 V. Both illuminators can be used simultaneously and the light intensities can be adjusted separately. The universal single or double arm stands and the articulated stands can be equipped with the ring illuminatorsLE.1974 and LE.1973 with respectively 72 or 144 power LEDs controlled in segments, ideal for creating or lifting shades E S D S A F E M I C R O S CO P E SFor inspection and assembly applications. Electrostatic discharge (ESD) is the unwanted sudden flow of electricity between two electrically charged objects. ESD can cause a range of harmful effects as well as permanent damage to solid state electronics componentsEuromex therefore introduces electrostatic protected microscopes in the NexiusZoom range. The body and stand of the microscope are coated with a special static dissipative paint eliminating harmful electrostatic discharges making the microscopes suitable for all static-sensitive environmentsPAC K AG E CO N T E N TSupplied with power cord, dust cover, a spare fuse and user manual. All packed in a polystyrene boxN E X I U S Z O O M E V O 0.65-5.5 (W F 10X /23M M )N E X I U S Z O O M A N D N E X I U S Z O O M E S D 0.67- 4.5 (W F 10X /22M M )M O D E L SBinocularTrinocularPillar standRack & pinionstandUniversal standBoom standArticulated arm standGooseneck dual LEDAnti static ESDMirror LEDWeight (kg)NZ.1902-P•• 5.0NZ.1902-P-ESD•••5.0NZ.1902-PL•••5.1NZ.1902-M•••4.9NZ.1902-S•• 4.9NZ.1902-S-ESD•••4.9NZ.1902-U••15.6NZ.1902-U-ESD•••15.6NZ.1902-B••22.1NZ.1902-B-ESD•••22.1NZ.1902-BC (1)••10.5NZ.1902-A••8.6NZ.1902-AP(2)••20.7NZ.1903-P•• 5.2NZ.1903-P-ESD•••5.2NZ.1903-PL•••5.3NZ.1903-M•••5.1NZ.1903-S•• 5.1NZ.1903-S-ESD•••5.1NZ.1903-U••15.7NZ.1903-U-ESD•••15.7NZ.1903-B••22.2NZ.1903-B-ESD•••22.2NZ.1903-BC (1)••10.6NZ.1903-A••8.7NZ.1903-AP(2)••20.8M O D E L SBinocularTrinocularPillar standRack & pinionstandUniversal standBoom standArticulated arm standGooseneck dualLEDMirror LEDWeight (kg)NZ.1702-P•• 5.0NZ.1702-PL •••5.1NZ.1702-M •••4.9NZ.1702-S ••4.9NZ.1702-U ••15.6NZ.1702-B ••22.1NZ.1702-BC (1)••10.5NZ.1702-A ••8.6NZ.1702-AP (2)••20.7NZ.1703-P •• 5.2NZ.1703-PL •••5.3NZ.1703-M •••5.1NZ.1703-S ••5.1NZ.1703-U ••15.7NZ.1703-B ••22.2NZ.1703-BC (1)••10.6NZ.1703-A ••8.7NZ.1703-AP (2)••20.8(1) Boom stand model with tabletop clamp(2)Articulated stand model with heavy desktop base plateN E X I U S Z O O M E V O 0.65-5.5 (W F 10X /23M M )M AG N I F I C AT I O N SNexiusZoom standard& ESD: Working distance and field of view with standard HWF 10x / 22 High Wide Field eyepiecesZoom indication Auxiliary lens 0.3xWD 287 mmAuxiliary lens 0.4xWD 220 mmAuxiliary lens 0.5xWD 165 mmAuxiliary lens 0.75xWD 120 mmObjective 1x(standard) WD 110 mmAuxiliary lens 1.5xWD 53 mmAuxiliary lens 2xWD 30 mm Totalmag.FoVin mmTotalmag.FoVin mmTotalmag.FoVin mmTotalmag.FoVin mmTotalmag.FoVin mmTotalmag.FoVin mmTotalmag.FoVin mm0.672109,52,782,1 3.3565.7 5.043.8 6.732.810.121.913.416.4 0.72,1104,82,878,6 3.562.9 5.341.97.031.410.521.014.015.70.82,491,73,268,8 4.055.0 6.036.78.027.512.018.316.013.81.0373,3455,0 5.044.07.529.310.022.015.014.720.011.01.54,548,9636,77.529.311.319.615.014.722.59.830.07.32.0636,7827,510.022.015.014.720.011.030.07.340.0 5.53.0924,41218,315.014.722.59.830.07.345.0 4.960.0 3.74.01218,31613,820.011.030.07.340.05.560.0 3.780.0 2.8 4.513,516,31812,222.59.833.86.545.0 4.967.5 3.390.0 2.4Zoom indication Auxiliary lens 0.3xWD 287 mmAuxiliary lens 0.4xWD 220 mmAuxiliary lens 0.5xWD 165 mmAuxiliary lens 0.75xWD 120 mmObjective 1x(standard) WD 110 mmAuxiliary lens 1.5xWD 53 mmAuxiliary lens 2xWD 30 mm Totalmag.FoVin mmTotalmag.FoVin mmTotalmag.FoVin mmTotalmag.FoVin mmTotalmag.FoVin mmTotalmag.FoVin mmTotalmag.FoVin mm0.651,95117,92,688,5 3.2570.8 4.947.2 6.535.49.823.613.017.70.72,1109,52,882,1 3.565.7 5.343.47.032.910.521.914.016.40.82,495,83,271,9 4.057.5 6.038.38.028.812.019.216.014.41.0376,7457,5 5.046.07.530.710.023.015.015.320.011.51.54,551,1638,37.530.711.320.415.015.322.510.230.07.72.0638,3828,810.023.015.015.320.011.530.07.740.0 5.83.0925,61219,215.015.322.510.230.07.745.0 5.160.0 3.84.01219,21614,420.011.530.07.740.05.860.0 3.880.0 2..94.513,517,01812,822.510.233.8 6.845.0 5.167.5 3.490.0 2.65.516,513,92210,527.58.441.3 5.655.0 4.282.5 2.8110 2.1 WD = working distance, FoV = Field of view, Total mag. = total magnificationNexiusZoom EVO: working distance and field of view with standard High Wide Field (HWF) 10x / 23 eyepiecesNZ.1903-BNZ.1902-SNZ.1903-MNZ.1903-PLNZ.1902-PNZ.1902-UNZ.1903-P-ESDNZ.1903-U-ESDNZ.1903-S-ESD E S D S A F E M O D E L SBinocularTrinocularPillar standRack & pinion standUniversal standBoom standArticulated armstandAntistatic ESDWeight (kg)NZ.1902-P-ESD ••• 5.0NZ.1902-S-ESD ••• 4.9NZ.1902-U-ESD •••15.6NZ.1902-B-ESD •••22.1NZ.1903-P-ESD ••• 5.3NZ.1903-S-ESD •••5.1NZ.1903-U-ESD •••15.7NZ.1903-B-ESD•••22.2NexiusZoom ESDNZ.9005NZ.9000ACCE SS O R I E S A N D SPA R E PA R T SNZ.5302 NexiusZoom binocular head without head holder NZ.5303 NexiusZoom trinocular head without head holder NZ.5312 NexiusZoom EVO binocular head without head holder NZ.5313 NexiusZoom EVO trinocular head without head holder NZ.6010 Pair of HWF 10x/22 mm eyepiecesNZ.6010-C HWF 10x/22 mm eyepiece only with crosshairNZ.6010-CM HWF 10x/22 mm eyepiece only with 10/100 micrometer andcross hairNZ.6015 Pair of HWF 15x/16 mm eyepieces NZ.6020 pair of HWF 20x/12 mm eyepieces NZ.6110 HWF 10x/22 mm eyepiece with micrometerNZ.6210 Pair of HWF 10x/23 mm eyepieces for NexiusZoom EVONZ.6210-C H WF 10x/22 mm eyepiece only with crosshair for NexiusZoom EVO NZ.6210-CM HWF 10x/22 mm eyepiece only with 10/100 micrometer andcross hair for NexiusZoom EVONZ.6099 Pair of eyecupsNZ.8903 A dditional 0.3x lens. Working distance 287 mm. Only suitable formodels with universal, boom or articulated standsNZ.8904 A dditional 0,4x lens for NexiusZoom. Only suitable for models withuniversal or boom standsNZ.8905 A dditional 0.5x lens. Working distance 165 mm. Only suitable formodels with pillar or boom standsNZ.8907 A dditional 0.75x lens. Working distance 120 mm. Only suitable formodels with pillar or boom standsNZ.8915 Additional 1.5x lens. Working distance 45 mm NZ.8920 Additional 2.0 lens. Working distance 30 mm NZ.8950 Protection glass window, fits objective NZ.9000 Ergo pillar stand without illuminationNZ.9005 Ergo pillar stand with adjustable transmitted 3W LED illumination NZ.9010 Ergo rack & pinion stand with 3 W LED illuminators NZ.9015 Ergo pillar stand with 3 W LED illuminatorsNZ.9017 E rgonomically designed pillar stand with two 3W goose-neck typeincident LED illuminations on each side and a 3W transmitted LED illuminationNZ.9020 U niversal one-arm stand without NexiusZoom head holder andwithout illuminationNZ.9030 U niversal double-arm stand without head holder and withoutilluminationNZ.9032 U niversal double-arm stand with table clamp without NexiusZoomholderNZ.9042 Stand with rotating mirror and transmitted LED illuminationNZ.9090 NexiusZoom head holder (for NZ.9020, NZ. 9030 and NZ.9032)NZ.9095 N exiusZoom head holder with fine coarse (for NZ.9020, NZ. 9030and NZ.9032)NZ.9095-ADD N exiusZoom head holder with fine coarse ADD-ON forN Z.9020, NZ. 9030 and NZ.9032. Only available with new microscopesNZ.9025 A rticulated arm stand with table clamp (without NexiusZoom headholder). Not suitable for use in combination with auxiliary lensNZ.9027 A rticulated arm stand with heavy stand (without NexiusZoomhead holder)NZ.9081 N exiusZoom head holder (for articulated arm stand NZ.9025 andNZ.9027)NZ.9520 P olarization kit for NexiusZoom: 360° rotatable round stage withbuilt-in polarization filter (NZ.9524) + analyzer in mount to be screwed under head (NZ.9525)NZ.9524 360° rotatable round stage with built-in polarization filter forNexiusZoomNZ.9525 360° rotatable analyser in mount to be screwed under head ofNexiusZoom. Not suitable for use in combination with auxiliary lensesEuromexMicroscopenbv•Papenkamp20•6836BDArnhem•TheNetherlands•T+31(0)263232211•F+31(0)263232833•****************•NZ.9040 Dark Field attachment for NexiusZoom NZ.9950 Standard opaque stage plate NZ.9956 Black/white stage plate NZ.9570 Pair of object clamps for stageNZ.9572 Adjustable GEM object clamp for -P, -PL and -S stands NZ.9833 C -mount adapter with 0.33x lens for 1/3” cameras(suitable for trinocular models)NZ.9850 C -mount adapter with 0.5x lens for 1/2” cameras(suitable for trinocular models)NZ.9958 Standard glass object plate, opaqueNZ.9983 3 W Led replacement unit for NexiusZoom, incident illumination NZ.9983-R 3 W Led replacement unit for NexiusZoom, transmittedilluminationAE.1960 Round positioning tableAE.5168-NZ Heating stage with PID controller up to 50oC.Only with the purchase of a new microscopeAE.5130 U niversal Ø 23.2 mm tube adapter with built-in 2x lens forSLR photo camera with APS-C sensor. Needs T2 adapterAE.5025 T2 adapter for Nikon D digital SLR cameras AE.5040 T 2 adapter for Canon EOS digital SLR cameras Other T2 adapters on requestLE.1974 R ing illuminator with 72 LEDs with adjustable light intensity.External mains adapter 100-240 V. With segment controller. Brightness of 21.000 Lux at height of 100 mm and color temperature of 6.500K. Mounting diameter between 25-61 mmLE.1973 R ing illuminator with 144 LEDs with adjustable light intensity.External mains adapter 100-240 V. With segment controller. Brightness of 23.000 Lux at height of 100 mm and color temperature of 6.500K. Mounting diameter between 25-61 mmAE.1112 O bject micrometer 50 mm (divided in 500 parts on glass slide76 x 26 mm)。

S T E R E O M I C R O S C O P E S F O R M AT E R I A L S A N DL I F E S C I E N C E SNexius ZoomThe new standard in microscopy2 |Unsurpassed imagesDesigned to be superior in accuracy and color reproduction, the highest possible resolution is reached with virtual no aberrations. Multilayer optical coatings ensure minimal light absorption and crisp images in every contrast method. Experience in ergonomics result in long working sessions without fatigue Using additional lenses and objectives, magnifications from 3.3 up to 180 times can be achievedNZ.8907 / NZ.8905NZ.5302 / NZ.53034 |E Y E P I E C E S• Extended Wide Field HWF plan 10x eyepieces with 22 mm field of view and adjustable diopter on both eyepiecesH E A D• Binocular or trinocular heads are with 45° inclined tubes • Both eyepieces have ± 5 diopter adjustments• The interpupillary distance is adjustable between 54 and 75 mmO B JE C T I V E• Zoom 1:6.7 objective for 0.67x to 4.5x magnifications • Field of view from 33 to 4.9 mm • Working distance of 110 mm • Additional lenses 0.5x, 0.75x, 1.5x and 2.0x are availableAll optics are anti-fungus treated and anti-reflection coated for maximumlight throughputGreenough Optical System.The newly optimised Greenough Optical System offers more depth of focus without compromising on low distortion and color aberrationNZ.1903-P-ESDThe body and stand of the microscopeare coated with a special electrostaticdissipative paint eliminating harmfulelectrostatic discharges making themicroscopes suitable for allstatic-sensitive environments 6 |NexiusZoom (ESD)Electrostatic discharge (ESD) is the unwanted sudden flow of electricity between two electrically charged objects. ESD can cause a range of harmful effects as well as permanent damage to solid state electronicscomponentsEuromex therefore now introduces electrostatic protected microscopes in the NexiusZoom range. Special electrostatic dissipative paint eliminating harmful electrostatic discharges makes the microscopes suitable for all static-sensitive environments. Ideal for all kinds of industry, inspection and assembly applications| 7I L LU M I N AT I O NHigh power 3 W transmitted and incident LED illuminators with internal power supply for 100-240 V operation. Both illuminators can be used simultaneously and the light intensities can be adjusted separatelyE S D S AF E M I C R O S CO P E SElectrostatic protected microscopes for all kinds of industry, inspection and assembly applications Order references:For electrostatic discharge (ESD) safe microscope model add -ESD to the reference (see page 10)NZ.1903-P-ESD NZ.1903-U-ESDStands to match each applicationThe NexiusZoom stereo microscopes are supplied with a large choice of objectives and stands.Long working distances enable comfortable working under the microscope.Ideal for education, laboratories and industryThe NexiusZoom comes in several configurations like a pillar stand, rack & pinion stand but also a stable boom stand, which is ideal to handle large samples. Even an articulated stand for table mounting is available for which one can choose one of the Euromex LED ring light or cold light systems8 |S TA N D SThe rack & pinion and pillar stands of the NexiusZoom are equipped with an ergo-nomically designed, wide flat base. Complete with 2 object clamps and Ø 100 mm transparent and black/white stage plates and double LED illuminaton. The coarse adjustment is equipped with friction controlThe ergonomically designed universal (single arm) and boom (double arm) stand are ideal for looking at large samples or working under the microscope. Standard supplied without illuminationArticulated arm stand with table clamp for table mounting. Standard supplied without NexiusZoom head holder and illuminationSuitable for e.g. ring illuminators LE.1972 and LE.1973 with 60 or 144 power LEDs controlled in segments, ideal for creating or lift shades The stands are alloy metal cast, hardened off-white paintedPA C K A G I N GSmart Styrofoam packaging ensures a low environmental footprint while maintai-ning maximum safety during transport. Supplied with power cord, dust cover, eye cups, a spare fuse and user manual.YO U T U B ECheck out the product video on YouTube and learn more about this microscope YouTube channel: Euromex Optics Group B.V.NZ.1903-B double arm boom stand NZ.9020 universal single arm standNZ.9025 / NZ.9081 / NZ.5302Ergonomical rack and pinionstand of the NexiusZoom| 910 |BinocularTrinocularPillar standRack & pinionstandUniversal standBoom standArticulated arm standAntistatic ESDWeight (kg)NZ.1902-P ••5.0NZ.1902-S ••4.9NZ.1902-U ••15.6NZ.1902-B ••22.1NZ.1902-A ••8.6NZ.1903-P ••5.3NZ.1903-S ••5.1NZ.1903-U ••15.7NZ.1903-B ••22.2NZ.1903-A••8.7M O D E L STechnical specificationsBinocularTrinocularPillar standRack & pinionstandUniversal standBoom standArticulated arm standAntistatic ESDWeight (kg)NZ.1902-P-ESD ••• 5.0NZ.1902-S-ESD ••• 4.9NZ.1902-U-ESD •••15.6NZ.1902-B-ESD •••22.1NZ.1903-P-ESD ••• 5.3NZ.1903-S-ESD ••• 5.1NZ.1903-U-ESD •••15.7NZ.1903-B-ESD•••22.2E S D S AF E M O D E L SZoom indicationStandard objective 1x WD 110 mmAuxiliary lens0.3x WD 287 mmAuxiliary lens0.5x WD 165 mmAuxiliary lens0.75x WD 120 mmAuxiliary lens1.5x WD 45 mmAuxiliary lens2x WD 30 mmTotal magnificationField of view in mmTotal magnificationField of view in mmTotal magnificationField of view in mmTotal magnificationField of view in mmTotal magnificationField of view in mmTotal magnificationField of view in mm0.67 6.732.82109.5 3.3565.7 5.044.010.022.013.416.40.77.031.4 2.1104.8 3.562.9 5.341.910.521.014.015.70.88.027.5 2.491.7 4.055.0 6.036.712.018.316.013.81.010.022.0373.3 5.044.07.529.315.014.720.011.01.515.014.7 4.548.97.529.311.319.622.59.830.07.32.020.011.0636.710.022.015.014.730.07.340.0 5.53.030.07.3924.415.014.722.59.845.0 4.960.0 3.74.040.0 5.51218.320.011.030.07.360.0 3.780.0 2.84.545.04.913.516.322.59.833.86.567.53.390.02.4M AG N I F I C ATI O N SWorking distance (WD) and field of view with standard HWF 10x / 22 High Wide Field eyepieces| 11Accessories and spare partsv. 631421The Euromex Quality system is certified according to ISO 9001:2008 and supports our pursuit of continuous improvement and our on-goning commitment to provide our world-wide customersNZ.5302 NexiusZoom binocular head with eyepieces NZ.5303 NexiusZoom trinocular head with eyepieces NZ.6010 Pair of HWF 10x / 22 mm eyepieces NZ.6015 Pair of HWF 15x / 16 mm eyepieces NZ.6020 Pair of HWF 20x / 12 mm eyepieces NZ.6110 HWF 10x / 22 mm eyepiece with micrometer NZ.6099 Pair of eyecupsNZ.8903 Auxiliary lens 0.33x. Working distance 165 mm (not suitable for NZ.1902-S and NZ.1903-S) NZ.8905 Auxiliary lens 0.5x. Working distance 165 mm(not suitable for NZ.1902-S and NZ.1903-S)NZ.8907 Auxiliary lens 0.75x. Working distance 120 mm NZ.8915 Auxiliary lens 1.5x. Working distance 45 mm NZ.8920 Auxiliary lens 2.0x. Working distance 30 mm(not suitable for NZ.1902-S and NZ.1903-S)NZ.8950 Protection glass for NexiusZoom headNZ.9010 Ergonomic rack & pinion stand (with transmitted and incident LED illuminators)NZ.9015 Ergonomic pillar stand (with transmitted and incident LED illuminators)NZ.9020 Universal (single arm) stand (without NexiusZoom head holder)NZ.9030 Boom (double arm) stand (without NexiusZoom head holder)NZ.9090 NexiusZoom head holder(for NZ.9020 and NZ. 9030)NZ.9025 Articulated arm stand with table clamp (without NexiusZoom head holder)NZ.9081 NexiusZoom head holder(for articulated arm stand NZ.9025)AE.5168-NZ Heating stage with PID controller up to 50°C NZ.9505 Mechanical 180 x 155mm X-Y stagewith 76 x 55mm translation stage and transparent glass plate, fixed on stage of microscope.(Only available with new microscopes)NZ.9950 Standard opaque stage plate NZ.9956 Black/white stage plate NZ.9570 Pair of object clamps for stageNZ.9833 C-mount adapter with 0.33x lens for 1/3” cameras (suitable for trinocular models)NZ.9850 C-mount adapter with 0.5x lens for 1/2” cameras(suitable for trinocular models)AE.5130 Universal SLR camera adapterwith 2x projection lens for 23.2 mm tubes.Need T2 adapterAE.5025 T2 adapter for Nikon D digital SLR cameras AE.5040 T2 adapter for Canon EOS digital SLR camerasOther T2 adapters on requestLE.1972 Ring illuminator with 60 LEDs with adjustable light intensity. External mains adapter 100-240 V. With segment controller.Brightness of 8.500 Lux at height of 100 mm and color temperature of 6.400K.Max. internal mounting diameter 60 mm LE.1973 Ring illuminator with 144 LEDs with adjustable lightintensity. External mains adapter 100-240 V. With segment controller.Brightness of 20.000 Lux at height of 100 mm and color temperature of 6.400K. Max. internal mounting diameter 60 mm AE.1112 Object micrometer 50 mm(divided in 500 parts on glass slide 76 x 26 mm)50.876Dark field attachmentPB.5245 Lens cleaning paper, 100 sheets per pack PB.5274 Isopropyl alcohol 99% (200 ml)PB.5275 Cleaning kit: lens cleaning fluid, lint free lens tissue,brush, air blower, cotton swabsH E A D QUAR T E R S Euromex Microscopen bv Papenkamp 206836 BD ArnhemThe NetherlandsTel: +31 (0) 26 323 22 11 ****************SAL ES E X PO R T O F F I C E Euromex Microscopen Spain sl Carretera de Barcelona 88, Entresuelo Edificio Technomar08302 Mataró, SpainTel: +34 (0) 937 415 609****************。

Stereo microscopesfor Materials and Life SciencesNexius ZoomThe new standard in microscopyEuromex NexiusZoom stereomicroscopes enable you toobserve your specimen withthe highest precision in threedimensional imagingThese high quality stereomicroscopes are perfect foranalyzing all kinds of materialsurfaces and for preparingbiological samplesFEATURES1 | Trinocular port for camera (optional)2 | Binocular and trinocular heads with WF 10x/22 mm or -23 mm eyepieces3 | Zoom ratio 1: 6.7x or 1: 8.4x4 | 6.7x to 45x or 6.5x to 55x standard magnification5 | Configurations from 2 to 220x magnificationstandard & EVODesigned to be superior in accuracyand color reproduction. Furthermore,the highest possible resolution is reachedwith virtually no aberrations. Multilayer opticalcoatings ensure minimal light absorptionand crisp images in every contrast method.Experience in ergonomics has resulted inmicroscopes allowing long working sessionsUsing additional lenses and objectives,magnifications from 2 up to 220 timesNexiusZoom EVOThe newly optimized GreenoughOptical System offers more depth offocus without compromising on lowdistortion and color aberrationESD SAFE MICROSCOPESElectrostatic protected microscopesfor all kinds of industry, inspection andassembly applicationsNZ.1903-P-ESDNZ.1903-U-ESDNZ.1903-P-ESD The body and stand of the microscope are coated with a special electrostatic dissipative paint eliminating harmful electrostatic discharges, thus making the microscope suitable for all static-sensitive environmentsNexiusZoomESDElectrostatic discharge (ESD) is the unwanted sudden flow of electricity between two electrically charged objects. ESD can cause a range of harmful effects as well as permanent damage to solid state electronic componentsTo solve this Euromex has introduced electrostatic protected microscopes in the NexiusZoom range. Special electrostatic dissipative paint eliminating harmful electrostatic discharges makes the microscope suitable for all static-sensitive environments. Ideal for all kinds of industry, inspection andassembly applicationshalogenfluorescenceLEDNZ.1702-GEMFNZ.1902-GEMLNZ.1902-GEMLthe adjustable iris enables easy light and contrast controlILLUMINATIONThe gemology models are available with two stands. Both are equipped with intensity adjustable 30 W halogen transmitted illumination towards the specimen at oblique angles. This enables the examination of specimen in perfect darkfield conditions. The incident illuminations are either intensity adjustable 1 W LED or a The ergonomic tilting stand allows easy adjustment between 0 and 45ºNexiusZoom for gemologyThe specialized backwards tilting stand of the NexiusZoom and NexiusZoom EVO stereo microscope for gemology applications offers 30 W halogen transmitted illumination towards the specimen at oblique angles. This enables the examination of your gems in perfectdarkfield conditions41235Ergonomic flat pillar stand, including incident and transmitted 3 W LED illumination, built-in 100-240 V power supply. Both illumination intensities can be adjusted Universal single-arm stand for free observation of (large) objects. Mounted on a heavy base for maximum stability. Supplied without illumination. However, a wide Ergonomic pillar stand with rotating mirror for oblique darkfield illumination. 100-240 V power supply, both illumination intensities can be adjusted separately.106879121311Universal double-arm stand for free observation of (large) objects.Mounted on a heavy base for maximum stability. Guided double arm that allows titling of the head. Supplied without illumination. However, a wide range of illumination systems is available. AP standillumination towards gems and stones at oblique angles in perfect darkfield and brightfield conditions. With stone holding tweezers and built-in Iris. Comes with additional 1 W LED incident illumination. Built-in NZ.903734156NexiusZoom illuminationGood illumination of an object is crucial for stereo microscopy. When the correct illumination is chosen the details of the observed object becomes more distinct. Comfort and desired light intensity are the factors that determine the choice223AE.19601Positioning table allows easy and precise positioning of objects when using high magnifications. The round positioning table AE.1960, ø 20 cm is ideal for moving objects smoothly and precisely around a central point. Suitable for all free hanging standsAE.5168-NZ2Heating stage with X/Y mechanical stage. Temperature range: up to 50°C. LED display for set temperature (1 degree) and measured temperature (0.1 degree). For -S and -P stands*NZ.9505NexiusZoomMechanical stages & positioning tablesStages can be an ideal tool for stereo microscopes when delicate positioning or heating of a specimen is neededNZ.95053Mechanical 180 x 155 mm X-Y stage with 75 x 75 mm translation and transparent glass plate.For –S and –P stands*The stages are designed for -S and -P stands. For other models, send your request* Supplied with new microscopes onlyWD = working distance, OH = object height, FoV = Field of view, Total mag. = total magnificationNZ.8903 NZ.8904 NZ.8905 NZ.8907 NZ.8915 NZ.8920MODELSSensorSensor size Max. frames (p/sec)Signal/Noise(db)Dynamic (db)Sensibility V/lux-secProduct numberCMEX-5 ProCMOS 143968.0 1.76DC.5000-PRO39100CMEX-10 Pro CMOS 835.563.50.31DC. 10000-PRO 25CMEX-18 ProCMOS642651.3DC. 18000-PRO1832Digital Solutions for NexiusZoomDigital Solutions CMEX 5, 10 & 18 PROThe Euromex digital solution products offer quick and accurate solutions for all industrial applications. Systems for computer and/or stand-alone use are available, measurement functions Check product quality, save images or videos, generate reports with great ease, high speed and accuracy This is a selection of the most popular cameras in the fieldDetailed information and all models are available The CMEX-5 Pro, -10 Pro and -18 Pro cameras are equipped with a 5.1, 10 or 18 MP CMOS sensor with 12 bits grayscale conversion and a 24 bits color rendering. These cameras are equipped with a USB-3 data interface enabling fast frame rate and are supplied with ImageFocus Alpha softwareNZ.1903-PGHD-Pro HDMI | VC.3038JEPG 1920 x1080 pixels ASF 1920x1080 pixels16 GB (max. 32 GB)0.036 ~ 8000 msUser defined gridlive and captured imagesThe Euromex HD cameras offer the perfect solution to modern microscopy VC.3038NZ.1903-PWF 10x/22 mm eyepiece only with crosshairs for NZ EVO micrometer anddditional 0.3x lens for NZ. Working distance 287 mm.dditional 0.4x lens for NZ. Working distance 220 mm.Only suitable for models with universal or boom standsdditional 0.5x lens for NZ. Working distance 183 mm.NZ.6210-CM NZ.9095HEADHOLDERSNZ.9520AE.1112A B365 nm6500 K C D395 nm420 nmv. 923281For your own safety it is highly recommended to wear protective orange glasses when using the 365 nm gooseneckEUROMEX MICROSCOPEN BV is a leading manufacturer of microscopes and other optical instruments. Founded in 1966, Euromex has become a world-class supplier of biological and stereo microscopesThe corporate office is based in Arnhem, The Netherlands. A facility with a 2.000 m2 conditioned logistics warehouse, an opto-mechanical workshop, an R&D department and a high-level quality control departmentAround the world, Euromex operates in more than 80 countries through distributors,resellers and agents. A wide variety of customers such as schools and educational institutes, clinical and research laboratories and a broad range of industrial customersare using Euromex microscopesThe Euromex Quality System is certified according to ISO9001:2015 and supports our pursuit of continuous improvement and our on-going commitment to provide our world-wide customers assurance of product qualityManagement SystemISO 9001:2015ID 0000037140G L O B A L H E A D Q UA R T E R SEuromex Microscopen bvPapenkamp 20 6836 BD Arnhem The NetherlandsTel: +31 (0) 26 323 22 11****************E U R O P E A N S A L E S OF F I C EEuromex Microscopen Spain sl Carretera de Barcelona 88, Entresuelo Esc. B - Local 908302 Mataró, Spain Tel: +34 (0) 937 415 609****************DISCLAIMERAll information and materials contained on this website have been prepared solely for the purpose of providing general information about the products offered by Euromex Microscopen bv. The content of and all information published on this website are provided in good faith as a convenience to you and may be used for information purposes only and at all times in accordance with these terms of accessEuromex Microscopen bv does not warrant the completeness or accuracy of information obtained from its website and does not undertake to update or correct its content or the information and/or materials contained on it on a regular basisEuromex Microscopen bv reserves the right to make improvements and/or changes to(including the removal of) the products described or referred to on the website and to delete and/or move any such information at any time and without notice ___Euromex is a registered trademark of Euromex Microscopen bv。

光学显微镜介绍光学显微镜（简写OM）是利用光学原理，把人眼所不能分辨的微小物体放大成像，以供人们提取微细结构信息的光学仪器。

仪器简介光学显微镜结构显微镜是一种精密的光学仪器，已有300多年的发展史。

自从有了显微镜，人们看到了过去看不到的许多微小生物和构成生物的基本单元——细胞。

不仅有能放大千余倍的光学显微镜，而且有放大几十万倍的电子显微镜，使我们对生物体的生命活动规律有了更进一步的认识。

在普通中学生物教学大纲中规定的实验中，大部分要通过显微镜来完成，因此，显微镜性能的好坏是做好观察实验的关键。

历史发展早在公元前一世纪，人们就已发现通过球形透明物体去观察微小物体时，可以使其放大成像。

后来逐渐对球形玻璃表面能使物体放大成像的规律有了认识。

1590年，荷兰和意大利的眼镜制造者已经造出类似显微镜的放大仪器。

1610年前后，意大利的伽利略和德国的开普勒在研究望远镜的同时，改变物镜和目镜之间的距离，得出合理的显微镜光路结构，当时的光学工匠纷纷从事显微镜的制造、推广和改进。

17世纪中叶，英国的罗伯特·胡克和荷兰的列文虎克，都对显微镜的发展作出了卓越的贡献。

1665年前后，胡克在显微镜中加入粗动和微动调焦机构、照明系统和承载标本片的工作台。

这些部件经过不断改进，成为现代显微镜的基本组成部分。

1673～1677年期间，列文·虎克制成单组元放大镜式的高倍显微镜，其中九台保存至今。

胡克和列文·虎克利用自制的显微镜，在动、植物机体微观结构的研究方面取得了杰出的成就。

19世纪，高质量消色差浸液物镜的出现，使显微镜观察微细结构的能力大为提高。

1827年阿米奇第一个采用了浸液物镜。

19世纪70年代，德国人阿贝奠定了显微镜成像的古典理论基础。

这些都促进了显微镜制造和显微观察技术的迅速发展，并为19世纪后半叶包括科赫、巴斯德等在内的生物学家和医学家发现细菌和微生物提供了有力的工具。

在显微镜本身结构发展的同时，显微观察技术也在不断创新：1850年出现了偏光显微术；1893年出现了干涉显微术；1935年荷兰物理学家泽尔尼克创造了相衬显微术，他为此在1953年获得了诺贝尔物理学奖。

普通光学显微镜基础知识普通光学显微镜是一种精密的光学仪器。

以往最简单的显微镜仅由几块透镜组成，而当前使用的显微镜由一套透镜组成。

普通光学显微镜通常能将物体放大1500~2000倍。

（一）显微镜的构造普通光学显微镜的构造可分为两大部分：一为机械装置，一为光学系统，这两部分很好的配合，才能发挥显微镜的作用。

1、显微镜的机械装置显微镜的机械装置包括镜座、镜筒、物镜转换器、载物台、推动器、粗动螺旋、微动螺旋等部件（1）镜座镜座是显微镜的基本支架，它由底座和镜臂两部分组成。

在它上面连接有载物台和镜筒，它是用来安装光学放大系统部件的基础。

（2）镜筒镜筒上接接目镜，下接转换器，形成接目镜与接物镜（装在转换器下）间的暗室。

从物镜的后缘到镜筒尾端的距离称为机械筒长。

因为物镜的放大率是对一定的镜筒长度而言的。

镜筒长度的变化，不仅放大倍率随之变化，而且成像质量也受到影响。

因此，使用显微镜时，不能任意改变镜筒长度。

国际上将显微镜的标准筒长定为160mm，此数字标在物镜的外壳上。

（3）物镜转换器物镜转换器上可安装3—4个接物镜，一般是三个接物镜（低倍、高倍、油镜）。

Nikon显微镜装有四个物镜。

转动转换器，可以按需要将其中的任何一个接物镜和镜筒接通，与镜筒上面的接目镜构成一个放大系统。

（4）载物台载物台中央有一孔，为光线通路。

在台上装有弹簧标本夹和推动器，其作用为固定或移动标本的位置，使得镜检对象恰好位于视野中心。

（5）推动器是移动标本的机械装置，它是由一横一纵两个推进齿轴的金属架构成的，好的显微镜在纵横架杆上刻有刻度标尺，构成很精密的平面座标系。

如果我们须重复观察已检查标本的某一部分，在第一次检查时，可记下纵横标尺的数值，以后按数值移动推动器，就可以找到原来标本的位置。

（6）粗动螺旋粗动螺旋是移动镜筒调节接物镜和标本间距离的机件，老式显微镜粗螺旋向前扭，镜头下降接近标本。

新近出产的显微镜（如Nikon显微镜）镜检时，右手向前扭载物台上升，让标本接近物镜，反之则下降，标本脱离物镜。

二：机型----德国目乐CORELLA三：设备参数：技术参数德国MOLLER CORELLA手术显微镜，该机型是2013年上市的新机型。

(1)光学部分1．德国眼科专用手术显微镜，复消色差透镜,残余像色差矫正技术技术；2．★主镜翻转角度为0-160°可调整翻转目镜；3．★电动XY移动，60X60mm，具有自动复位功能；4．主镜和助手镜的广角目镜12.5X，立体基线为25mm；5．助手镜目镜倾斜角度180°，目镜旋转角度为360°；6．470nmUV滤光片滤去紫外光保护，蓝，绿，点状光斑；7．★内置2°红光反射；8．★放大倍数五倍放大:5X,7X,10X,14X,20X；9．物镜焦距:200mm；10．电动调焦,变焦范围50mm.（2）机械部分11．平衡臂具有两个调节旋纽,各轴自由度变动范围为330°；12．显微镜臂展1230mm,垂直工作距离为760mm,自重90kg；13．立式支架，四轮移动，两轮自锁装置；14．工作电压：230V/50Hz；（3）光源部分15、★光纤导光，同轴照明；16、★两组独立双150W卤素灯冷光源，可快速切换至另外一个光源；17、多功能脚踏开关,上下调焦，XY轴移动等。

五：设备配置CORELLA标准配置单CORELLAXY/FS 1-12配置单No. Description Qty.1 Stere Operating Microscope CORELLA XY立体手术显微镜 11. Apochromatic with Correction of Residual Aberration2. Magnification changer 5 step.3. Motorized focus +20/-30 mm.4. Stereo base 25 mm.5. Tiltable 160°Eyepiece Head.6. 2 Wide Angle Oculars 10x.7. P D – Adjustment ±7D.8. diopter setting.9. Coaxial illumination.10. Filter disc (white/yellow).11. Red Reflex Enhancer（(permanent)12. Front Lens F= 200 mm 复消色差透镜5步变倍电动变焦范围50 毫米立体基线25毫米160°双目倾斜目镜架2个10×广角目镜PD 瞳距调节屈光度调节同轴冷光源照明装置滤光片（白/黄色）固定红光反射增强物镜f =200mm2 XY-coupling motorized 60X60mm电动XY移动装置3 Beamsplitter 50:50分光器 14 Stereoscopic Observer立体双目助手镜 15 Floor Stand FS1-12立式底座平衡支架 18 Mobile Z-Base Stand.8 Column,Weight Counter Balanced Spring Jiont Arm.可移动Z型底座。

显微镜的基本结构可分为光学系统和机械装置两大部分。

一、显微镜的光学系统显微镜的光学系统主要包括物镜、目镜、聚光镜和光源系统四个主要部件。

其次还包括滤光片、载玻片和盖玻片。

（一）物镜物镜一般都是在物镜转换器上旋着。

它是显微镜的最主要部件。

显微镜的放大及分辩作用主要由它来担当。

其优劣直接决定了显微镜的主要光学性能。

为了校正象差和色差（所谓象差是指所成的像与原物在形状上的差别；色差是指所成的像与原物在颜色上的差别），物镜都由多块透镜组成，而且放大倍数越高，结构越复杂。

一般的物镜所观察到的像面总是有些弯曲，即靠中间部分清晰，靠边缘部分比较模糊，要想让边缘清楚，需要调节显微镜的微调钮。

但是边缘部分清楚后，中间部分又变的模糊了。

这除了不便观察外，更主要地是无法对其进行摄影。

有鉴于此尼康开发了平场物镜可以较好地校正像面弯曲，使整个视场平坦,但其结构也相应地复杂些。

在有的尼康高倍物镜和油镜内还装有弹簧，在物镜前端受压时，镜头可以退缩回来。

这样一方面可以保护镜头，另一方面也不会把载玻片和盖玻片压碎。

这种物镜称为弹簧物镜。

（1） 1.物镜的分类显微镜的物镜虽然细分起来多达数百种，但是一般可采用下述三种分法：根据象差消正情况可分三类：A.消色差物镜：这是最常见的物镜，虽然能完全校正光谱中的C线（红光）和F线（青光）的色差，但严格地说还不能完全矫正其他色光的色差，消色差物镜通常与惠通斯目镜配合。

B.复消色差的物镜：这种物镜中的透镜一部分用荧石制成，性能很高，能使光谱中的红光、蓝光和黄光在同一焦平面上成象，通常与补偿目镜配合使用。

C.平场物镜：以上两种物镜都存在共有的缺点，即是象面弯曲问题（场曲）。

由于场曲的存在而使视场边缘的象模糊不清，为此科学工作者前后又研制成功了平场消色差物镜和平场复消色差物镜。

所谓平场消色差物镜就是将物镜的场现象消除到最小程度，使视场边缘部分同样得到清晰的象，不过这种物镜的结构较为复杂，从设计到制造到增加了困难，尤其是平场复消色差物镜，它是在光学系统中加入弯月形厚透镜用来矫正物镜的象面弯曲。

显微镜的构造及使用人的眼睛只能识别大小为0.1 ㎜的物体。

显微镜是精密的放大仪器，是生物学研究不可缺少的工具。

我们用它可以观察肉眼看不见的微小生物的结构。

中学最常用的是光学显微镜，为了正确操作、妥善保管和维护显微镜，使之延长使用年限，我们必须首先了解显微镜的结构和功能。

一台显微镜包括机械装置和光学系统两大部分，注意比较和识别。

（一）、显微镜的基本结构：显微镜构造很复杂，种类很多，但基本结构是由机械和光学两大部分构成，现分述如下：１、机械部分：它是为光学部分服务的部件，包括以下九部分：(1)、镜座：显微镜最下面呈马蹄形或园形的部分，起稳定和支持镜身作用。

(2)、镜柱：从镜座向上直立的短柱。

上连镜臂，下连镜座，可以支持镜臂和载物台。

(3)、镜臂：弯曲成马蹄形的部分，便于手持，下端与镜柱相连接的地方有一个倾斜关节，可使镜臂倾斜，便于观察。

(4)、载物台：自镜臂下端向前伸出，放置标本用的平台，其中央有一个圆孔，叫通光孔。

台上有一移动器（老式的左右各有一个压片夹），用以固定和移动标本。

(5)、镜筒：和镜臂上方连接的园筒部分。

有的显微镜镜筒内有一抽管，可适当抽长，一般长度是１６０－１７０毫米。

镜筒上端装有目镜，下端有一个可转动的园盘，叫物镜转换器（或叫物镜旋转盘，固着在镜筒下端，分两层，上层固着不动，下层可自由转动。

转换器上有2～4个圆孔，用来安装不同倍数的低倍或高倍物镜）。

作用是保护成像的光路与亮度。

(6)、调节器（也叫调节螺旋）：为镜壁上两种可转动的螺旋，一大一小，能使镜筒上下移动，调节焦距。

大的叫粗准焦螺旋，位于镜臂的上方，可以转动，以使镜筒能上下移动，从而调节焦距，升降镜筒较快，用于低倍镜对焦；小的叫细准焦螺旋，位于镜臂的下方，它的移动范围较粗准焦螺旋小，升降镜筒较慢，可以细调焦距。

(7)、倾斜关节：镜柱和镜臂交界处有一个能活动的关节。

它可以使显微镜在一定的范围内后倾（一般倾斜不得超过45°）便于观察。

可编辑修改精选全文完整版显微镜的结构及使用方法（1）普通光学显微镜的构造（2）各部分的作用镜座：稳定镜身。

镜柱：支持镜柱以上的部件。

镜臂：握镜的部位。

载物台：放置玻片标本的地方。

中央有通光孔，两旁各有一个压片夹。

镜筒：上端安装目镜，下端有转换器。

转换器：可以转动的圆盘，上面安装物镜。

粗准焦螺旋：转动时可以大幅度升降镜筒。

细准焦螺旋：转动时，镜筒升降幅度较小，可以使物像更清晰。

目镜：接近眼睛的镜头。

物镜：接近物体的镜头。

遮光器：上面有大小不等的圆孔叫做光圈。

不同的光圈可以调节光线的强弱。

（大光圈光线弱时使用）反光镜：一面是平面镜（光线强时使用），一面是凹面镜（光线弱时使用）。

转动反光镜可以使光线经过通光孔反射上来。

（小光圈光线强时使用）（3）注意：在移动标本时，像总是朝相反的方向移动；从目镜内看到的物象是倒像；目镜与物镜放大倍数的乘积就是所成像的放大倍数。

（高倍显微镜下，所见的细胞数目少）（低倍显微镜下，所见的细胞数目多）实验一用显微镜观察永久装片（一）实验操作技能1．安放显微镜取镜：右手握镜臂，左手托镜座（1分）安放：放在靠左手边，离桌边7cm左右（1分）2．显微镜对光遮光器：选用合适的光圈（光线好用小光圈，光线不好用大光圈）（1）物镜、目镜的使用：选用低倍镜观察，转动转换器，不能用手扳动物镜（1）反光镜对光：光线好用平面镜，光线不好用凹面镜。

镜面对着光源（1）3．观察永久装片装片放置：将要观察的目标放在载物台上，并用压片夹压好（1）使用低倍镜，下降镜筒：镜筒用粗准焦螺旋下降至物镜与装片相离2cm左右（1）调焦：用左眼观察，同时慢转粗准焦螺旋，直至看到目标后转用低准焦螺旋（1）4．说出装片的显著特征（1）血细胞涂片：红细胞较多，没有细胞核。

（若看到白细胞，要说明白细胞比红细胞大，有细胞核）叶片结构：叶片属于植物的营养器官。

叶肉属基本组织，看到一层表皮细胞排列整齐紧密，表皮属于保护组织，看到大的叶脉，叶脉属于疏导组织。