簡介： 全自動(dòng)真空碳?xì)淝逑礄C(jī)過程由PLC自動(dòng)控制，設(shè)備生產(chǎn)主線由2個(gè)真空脫氣超聲波清洗，1個(gè)強(qiáng)力真空超聲波洗， 2

個(gè)蒸汽洗+真空干燥組成，其工作原理是利用超聲波滲透力強(qiáng)的機(jī)械震動(dòng)力沖擊工件表面并結(jié)合碳?xì)淝逑磩┑幕瘜W(xué)去污作

用，在真空狀態(tài)下進(jìn)行清洗，使工件表面和盲孔、狹縫干凈。

工作過程： 由操作者將裝有工件的清洗籃放在進(jìn)料臺(tái)上，然后自動(dòng)送至清洗機(jī)進(jìn)料位，經(jīng)機(jī)械手將清洗籃依次推入清洗機(jī)內(nèi)進(jìn)行

清洗、真空干燥，后經(jīng)出料臺(tái)自動(dòng)將清洗籃送出，（取出工件），完成整個(gè)清洗到烘干的過程。

清洗原理： 碳?xì)淝逑磩┑那逑丛砗唵蔚卣f是依據(jù)溶劑的溶解力進(jìn)行清洗。基于對(duì)油脂或油性污染的溶解性的脫脂機(jī)理：相似相

溶原則。水能與具有與水結(jié)構(gòu)相似OH的化合物如R-COOH（低級(jí)脂肪酸）、R-OH（低級(jí)醇）等互溶也是基于此。

異種液體間的溶解性與表面張力、界面張力有密切關(guān)系。

兩者間的界面張力值近似容易互溶

Brief introduction：

The process of automatic vacuum hydrocarbon cleaning machine is automatically controlled by PLC. The main production line of the equipment consists of 2 vacuum degassing and ultrasonic cleaning, 1 powerful vacuum ultrasonic cleaning, 2 steam cleaning + vacuum drying.Its working principles is that the mechanical vibration force impacts the surface of the workpiece and combines the chemical decontamination effect of the hydrocarbon cleaning agent to perform a comprehensive cleaning under vacuum to make the surface of the workpiece and the blind holes and slits clean.

Working process：

The operator puts the cleaning basket with the workpiece on the feeding table, and then automatically sends it to the feeding position of the washing machine. The washing basket is pushed into the washing machine by the robot in order to clean and vacuum dry. Finally,send the cleaning basket out (take out the workpiece) to complete the whole process from washing to drying.

Clearningprinciple：

The cleaning principle of the hydrocarbon cleaning agent is simply cleaning according to the dissolving power of the solvent. Degreasing mechanism based on solubility to grease or oily contamination: similar miscibility principle. Water energy is also based on the miscibility of compounds with a similar OH structure to water, such as R-COOH (lower fatty acids), R-OH (lower alcohols), and the like.

The solubility between dissimilar liquids is closely related to surface tension and interfacial tension.

The interfacial tension value between the two is easily miscible