The decoration of the laboratory is generally similar to that of ordinary tooling. The main difference lies in the special construction and selection of water, electricity and wind materials, process flow and so on.
The water used in the laboratory is generally: ordinary tap water, distilled water, that is, triple distilled water, ultrapure water, that is, ionic water. The construction of Sheung Shui should consider safety, science and applicability. When you go to the water supply, you should select the materials according to the specific experiment, that is, the water supply pipe and joint. Also consider the separation of water and electricity, the environment around the water pipe, the direction of the waterway, etc.
實驗室的下水一般比較麻煩，因為實驗室的下水規范要求和實際國情，還有具體的實驗室或實驗樓環境有很大的出入。實驗室的下水大體上可分為：污染水和低污染 水，低污染水一般指莫些設備的冷凝循環水和洗滌莫些容器的廢水等。污染水的范圍很多一般，腐蝕性的水，如酸堿腐蝕水，有機物腐蝕水，無機物污染水，還有 重金屬污染水等。
The launching of the laboratory is generally troublesome, because there are great differences between the standard requirements of the laboratory and the actual national conditions, as well as the specific laboratory or laboratory building environment. The water in the laboratory can be generally divided into polluted water and low polluted water. Low polluted water generally refers to the condensed circulating water of moose equipment and the wastewater from washing moose containers. There are many ranges of polluted water, generally corrosive water, such as acid-base corrosive water, organic corrosive water, inorganic polluted water, heavy metal polluted water, etc.
Laboratory power consumption is a very important problem, weak current, lighting power, safety power and experimental equipment power. Among them, the power consumption of laboratory instruments and equipment is the main focus, because most of the instruments and equipment in the laboratory, especially some precision instruments, are based on the action and reaction of the Lorentz force principle, that is, the change is controlled through the micro change of current.
For the power consumption of laboratory instruments and equipment, the problem we want to solve is to control and reduce the change of current, reduce or stabilize the change value of harmonic, reduce or reduce the interference of magnetic field, etc. If the problem of electricity cannot be solved, it will cause disaster in serious cases, damage to the instrument in general, inaccuracy or instability of the experiment, reduction of the service life of the instrument, etc.
Exhaust system problems
實驗室的排風主要是解決實驗人員的安全和實驗室環境的需要。實驗室的排送風主要是考慮什么環境需要正壓和負壓還有恒壓。具體的配置要看，實驗室的具體性 質，來安排正負壓的大小。實驗室的排送風，不像普通的辦公換風。它的風路和引導氣體走向有很嚴格的要求，解決不好就會產生氣體回流及氣體排不出去，或排風 量很大實驗室內氣味仍然存在，達不到換風的效果。
The ventilation of the laboratory is mainly to meet the needs of the safety of laboratory personnel and laboratory environment. The exhaust and supply air of the laboratory mainly considers what environment needs positive pressure, negative pressure and constant pressure. The specific configuration depends on the specific nature of the laboratory to arrange the size of positive and negative pressure. The exhaust and supply air of the laboratory is not like ordinary office air exchange. Its air path and guiding gas direction have very strict requirements. If it is not solved well, it will produce gas backflow and gas cannot be discharged, or the exhaust air volume is large, and the smell still exists in the laboratory, which can not achieve the effect of air change.
The specific nature of the laboratory is different, the required positive and negative pressure is different, and the air volume and air change times are also different. The specific nature of the laboratory is different, and the relative air exchange and air exchange to be achieved are also very different.
Laboratory material selection
Different materials should be selected according to different experimental properties to adapt to the special environment of the laboratory. For example, corrosion also depends on whether it is acidic, alkaline or organic. Of course, the high and low temperature environment of the laboratory should also be considered. Some experimental areas may also consider the deformation, aging, flame retardant and radiation of materials.