The maintenance and maintenance of experimental instruments is an important part of the laboratory management work. The maintenance and maintenance of the instrument is related to the integrity rate, utilization rate and the opening rate of the experimental teaching, which is related to the experimental success rate. Therefore, as an experimental teacher, you should know the general knowledge of the maintenance and maintenance of teaching instruments, and master the basic skills of maintenance and maintenance. Disposable Face Mask,Disposable Sterile Face Mask,Medical Surgical Mask,Medical Disposable Face Masks Jiangyin Huashi Medical Equipment Co.,Ltd , https://www.medicalwellcare.com
Once the instrument absorbs dust and dirt, it not only affects the performance of the instrument, shortens the service life, directly affects the experimental results, but also affects the aesthetics and the physical and mental health of the experimenter. The instrument will be stained with dust and dirt during use or storage, so it is mainly dust-proof and anti-fouling. Frequent dust-cleaning is an important part of instrument maintenance and maintenance.
(1) Dust removal Dust is mostly tiny dust particles with a small amount of static electricity, often floating in the air, moving with the airflow, and the object will adhere to it, almost no holes. Dust attached to the model specimen will affect its color. Dust on the moving parts will increase wear and tear. There will be dust on the electrical appliance. In severe cases, it will cause short circuit and electric leakage. The dust on the precious precision instrument will cause the instrument to be scrapped.
There are many ways to remove dust, mainly depending on the condition of the dust-attached surface and the degree of dust adhesion. In the dry air, if the dust is less or the dust has not been wetted into a patch, use a dry cloth wipe, a towel brush, a soft brush, etc. to remove dust from the general instrument;唧, ear-washing air pump blowing dust, dust can also be vacuumed; dust in the diagonal, seam can combine the above several methods to remove dust. However, for valuable precision instruments, such as optical instruments, instrument heads, etc., dust removal by the above method will also damage the instrument. In this case, special dust removal tools should be used to remove dust, such as wiping with lens paper and wiping cotton balls with alcohol.
When the air is damp and the dust has formed into a scale, the dust should be wiped with a damp cloth. The gray scale in the diagonal and seam can be removed with a sharpened soft strip, then wiped with a damp cloth, but the surface is faded. Do not wipe with a damp cloth. If the dirt is not easily wiped clean, wipe it with a cotton ball dampened with alcohol or ether, or wash it.
(2) Cleaning The instrument will be stained with greasy, glue, sweat and other dirt during use. It will cause rust and mildew spots when stored and stored inadvertently. These dirt will have extremely bad effects on the life and performance of the instrument. The purpose of cleaning is to remove dirt from the instrument. Generally, there are two types of methods for cleaning the instrument. One is mechanical cleaning, that is, cleaning by shovel, scraping, brushing, etc.; the second is chemical cleaning, that is, cleaning with various chemical decontamination solvents. The specific cleaning method depends on the condition of the dirt adhering surface and the nature of the dirt. The cleaning methods for several common instruments and different material parts are described below.
1. Cleaning of glassware There are two types of dirt on the attached glassware. One type can be cleaned with water, and the other type must be cleaned with a cleaning agent or special detergent. In the experiment, the used utensils should be cleaned immediately, regardless of the type of dirt attached to the glassware.
Glassware filled with sugar, salt, starch, mud, alcohol, etc., can be washed with water to achieve cleaning purposes. It should be noted that if the attached dirt is already dry, the vessel may be soaked in water for a period of time, and then brushed with a brush until it is washed.
Glassware is stained with oil or animal oil, and can be washed with detergent, detergent, detergent, etc. Brush with a brush when cleaning, and use this detergent to clean glassware with organic oil. After the glassware is washed with detergent, it is also rinsed with water.
For glassware with tar, bitumen or other high molecular organics, it should be cleaned with organic solvents such as gasoline and benzene. If it is still difficult to wash, the glassware can be immersed in an alkaline detergent for a period of time, and then washed with a solution of sodium carbonate, sodium hydrogencarbonate, sodium hydroxide or sodium phosphate at a concentration of 5% or more, or even heated. .
In chemical reactions, metals, oxides, acids, alkalis, and the like are often attached to the walls of glassware. When cleaning, according to the characteristics of the dirt, use strong acid, strong alkali to clean or use neutralization chemical reaction to descale, and then rinse with water. When cleaning with acid and alkali, special attention should be paid to safety. The operator should wear a rubber glove goggles. Use tools such as tweezers and clips when handling.
In addition, the washed glassware is finally wiped dry with a towel applied to it.
2. Cleaning of optical glass Optical glass is used for lenses, lenses, prisms, slides, etc. of the instrument. It is easy to be stained with oil, water and dirt, fingerprints, etc. during manufacture and use, affecting imaging and light transmittance. Cleaning the optical glass should be based on the characteristics of the dirt, different structures, use different cleaning agents, use different cleaning tools, and choose different cleaning methods.
Cleaning the lens coated with anti-reflection film, such as camera, slide projector, microscope lens, can be cleaned with about 20% alcohol and about 80% ether. Apply a soft brush or a cotton ball with a small amount of cleaning agent during cleaning to make a circular motion from the center of the lens. Do not immerse such lenses in the cleaning agent; do not wipe the lens cleanly, otherwise the anti-reflection film will be scratched and the lens will be damaged.
The method of cleaning the prism and the plane mirror can be carried out according to the method of cleaning the lens.
Mildew on the surface of optical glass is a common phenomenon. When the optical glass is moldy, the light scatters on its surface, making the image unclear. In severe cases, the instrument will be scrapped. Most of the causes of optical glass mold are due to the presence of microbial spores on the surface. When the temperature and humidity are appropriate, and there is a desired "nutrient", it will grow rapidly and form mildew. It is especially important to make mold and stain resistant to optical glass. Once mold spots are generated, it should be cleaned immediately.
To eliminate mildew, clean mold can be cleaned with 0.1~0.5% ethylhydrogen dichlorosilane and anhydrous alcohol. It should be mixed with a small amount of ether in wet weather or cleaned with propylene oxide, dilute ammonia or the like. .
The oleaginous mist, the water-wet mist, and the oil-water mixed mist on the optical glass can also be cleaned by using the above cleaning agent, and the cleaning method is similar to the method of cleaning the lens.
3. Cleaning of rubber parts There are many parts made of rubber in the laboratory. Rubber is a kind of high molecular organic substance, which will age after being greasy or organic solvent, causing deformation of parts, softening and sticking; rubber The resulting transmission belt, if it is stained with oil, will reduce the friction coefficient and cause slippage.
To clean the oil on the rubber parts, alcohol, carbon tetrachloride or the like can be used as a cleaning agent, and an organic solvent cannot be used as a cleaning agent. When cleaning, first wipe with a cotton ball or silk cloth cleaning agent, after the cleaning agent is naturally evaporated and cleaned. It should be noted that carbon tetrachloride is toxic and harmful to human body. It should be carried out under good ventilation conditions during cleaning. Pay attention to safety.
4. Cleaning of plastic parts There are many types of plastics, such as polystyrene, polyvinyl chloride, nylon, and plexiglass. Plastic parts are generally sensitive to organic solvents. When cleaning dirt, organic solvents such as gasoline, toluene, acetone, etc. cannot be used as cleaning agents. It is advisable to wash the plastic parts with water, soapy water or washing powder.
5. Descaling of steel parts Steel parts are easily rusted. In order to prevent corrosion, steel parts in teaching instruments are often coated with protective layers such as oil layers and paints, but even so, rust often occurs. To remove the corrosion of steel parts, different methods should be used according to the degree of corrosion and the characteristics of the parts.
For large size, low precision or mechanical rust removal, it is not easy to remove steel parts. Chemical methods can be used to remove rust. For example, immersing parts with phosphating with a concentration of 2 to 25% phosphoric acid. It is suitable to 40~80 °C. After the rust is removed, a protective film will be formed on the surface layer, and then the component will be taken out and immersed in a phosphoric acid solution with a concentration of 0.5 to 2% for about one hour, and finally taken out and dried.
In the laboratory using such chemical methods, if the operation is slightly improper, it will damage the parts, especially the precision parts. Therefore, in the laboratory, it is not advisable to use chemical methods for descaling, but mechanical rust removal method, that is, removing the rust layer on the parts by shovel, picking, scraping, etc., then sanding and polishing with sandpaper, and finally Apply a protective layer.
For parts made of non-ferrous metals and their alloy materials, the descaling method can be carried out by referring to the descaling method of steel parts. However, two points should be noted. First, when chemical rust is used, different chemical rust removers should be prepared and used according to the chemical characteristics of the component materials. Second, the rust of parts made of non-ferrous metals and their alloys should be removed. Generally, a mechanical descaling method is preferred.