爆破試驗臺控制系統性能決定因素

爆破試驗臺所有承壓零件都采用國際知名品牌的標準零件，無任何焊接連接，方便拆卸，安全系數高，壽命長，便于維護。

Blasting test-bed all pressure parts are standard parts of international famous brand, without any welding connection, convenient disassembly, high safety factor, long service life, easy maintenance.

驅動氣體的壓力和流量:氣體增壓泵和動力單元在連續工作時使用的驅動氣壓不超過0.69Mpa,在間歇工作時可達到1.03Mpa.在最佳性能狀態時氣動泵的耗氣量,請參照所需驅動氣體流量表.

Pressure and flow driven gas: driving pressure gas booster pump and a power unit used in continuous operation shall not exceed 0.69Mpa, the intermittent work can reach 1.03Mpa. in the best performance state aerodynamic consumption of air pump, please refer to the driving gas flow meter.

輸送液體介質:氣體增壓泵泵輸送的液體介質是氣動增壓泵的選型中著重考慮的部分.液壓部分的材質和液壓密封圈是由輸送的液體介質所決定的.泵可用油、水和大多數液體介質.

The delivery of liquid medium: liquid gas booster pump delivery pump is considered in the selection of pneumatic booster pump parts. Material and hydraulic parts of the sealing ring is determined by the liquid medium conveying the. Pump available oil, water and most liquid medium.

爆破試驗臺標準泵的主要液壓密封圈是丁橡膠和聚氨酯,單向閥座采用特氟龍密封.其它密封材料包括碳氟化合物和亞乙基丙烯,這些密封材料主要用于輸送的特殊介質.請向工廠或當地的分銷商咨詢密封材料選型.

The main hydraulic blasting test standard pump seal ring is chloroprene rubber and polyurethane, one-way valve seat with Teflon seals. Other sealing materials including fluorocarbon and ethylene propylene, the sealing material is mainly used for special media delivery. Please refer to the factory or a local distributor for sealing material selection.

控制系統由上位機和下位機上下兩級控制系統組成,上位機主要完成圖形處理、數據處理、數據管理,用獨立的控制單元,真正實現了模塊化控制.下位機根據上位機的指令控制水壓系統實現目標壓力,能夠精確控制壓力的精度,保壓效果好,實時自動補壓,并具有斷電自動保存、通電后繼續試驗的功能,確保試驗的連續性.手動控制及計算機控制方式可以任意選擇.

相關文章：爆破試驗臺雙級系統運行原理

---

當前位置： 首頁 >> 公司動態 >> 行業資訊 發布時間： 2014-09-16
上一篇： 爆破試驗臺計算機控制試驗的操作 下一篇： 氣密性檢測裝置氣體互換工作流程