1) microinfusion pump
微量泵
1.
In this paper, the authors report their experience in caring 9 patients with diabetic foot were treated with femoral continuance thrombolytic by microinfusion pump at small dosage and in an equal speed for 5~10 days.
报道对9例行糖尿病足经股动脉溶栓治疗的患者应用微量泵,动脉内小剂量、匀速、持续灌注尿激酶,持续5 ̄10d。
2.
Objective:To investigate the effect of furosemide and dopamine by microinfusion pump in elderly severe heart failure.
目的:探讨速尿并多巴胺持续微量泵入对老年危重心力衰竭的疗效。
2) micropump
微量泵
1.
Objective To evaluate the postoperative analgesic effect of continuous infusion of tramadol and droperidol (CTD) by micropump in general thoracic surgery.
目的 应用微量泵持续静脉输注曲马多及氟哌啶 (CTD)进行普胸外科术后镇痛的观察。
2.
Methods:56 poorly controlled patients were studied by 2 methods of intensive insulin delivery:①Continuous intravenous injection of insulin with micropump (CIII) ( n =27);②Multiple subcutaneous injection(MSI)( n =29).
方法 :5 6例脑出血昏迷高血糖病人随机分两组进行 2种胰岛素强化治疗 :1微量泵连续静脉输注胰岛素治疗 ( 2 7例 ) ;2多次皮下注射胰岛素治疗 ( 2 9例 )。
3) micro-pump
微量泵
1.
Sedation effect of small-dosage remifentanil infused by micro-pump
小剂量瑞芬太尼微量泵泵注的镇静作用
2.
Objective:To observe the therapeutic effect in the near future of 5-fluorouracil with low dose infusion by micro-pump continually on advanced stage tumors.
目的:探讨经微量泵持续低剂量输注及经静脉滴注5-Fu治疗晚期肿瘤的临床疗效。
4) syringe pump
微量泵
1.
Objective To study the efficiency of regular low-dose insulin continuous infusion by syringe pump in diabetic acute complication.
目的 探讨糖尿病急性并发症应用微量泵输注胰岛素的效果。
5) minim pump
微量泵
1.
Objective To compare the clinical differences of minim pump infusion and intravenous injection of Ketamine during the children strabismus surgery.
目的比较氯胺酮(Ketamine)微量泵持续静脉给药与氯胺酮分次静脉给药在小儿斜视手术中的麻醉效果。
6) micro pump
微量泵
1.
Objective To study the nursing in the treatment of inferior vena cava filters combined with micro pump artery thrombolysis for acute deep venous thrombosis(DVT)of lower limbs.
目的探讨急性下肢深静脉血栓形成(deep venous thrombosis,DVT)患者采用下腔静脉滤器置入联合微量泵动脉溶栓加抗凝治疗中的护理。
补充资料:隔膜泵与柱塞泵在涂装机械中的比较
高压无气喷涂效率高,表面细腻平整,附着力强,涂料损耗少而得到建筑机械 船舶 家具等行业的广泛使用。
高压无气喷涂机分为气动式无气喷涂机,电动式无气喷涂机(柱塞泵)和电动无气喷涂机(隔膜泵),由于气动式无气喷涂机需要带压缩空气源而限制了气动喷涂机的使用。
现仅将电动柱塞无气喷涂机与电动隔膜无气喷涂机作比较,柱塞泵是将直流电动机带动柱塞复运动将涂料吸入,加压后排出,由于其柱塞裸露,且柱塞在涂料中工作,在涂料研磨作用下柱塞磨损非常快,一旦配备口径较大的喷嘴,其柱塞往复频率提高,加剧柱塞的磨损,机器寿命短。而更换柱塞价格非常昂贵,如果电压不正常也将直接导致工作直流电的不正常。另外,由于大幅来回往复运动,柱塞泵的工作脉动很大,使得喷涂不稳定,涂料喷上的墙面平整度就不够好。但柱塞泵初始吸料较快是其长处。
隔膜式无气喷涂机(隔膜泵),其设计是在柱塞泵基础上得到了更大的改进,原理为用电动机带动活塞往复工作(注意,活塞并不直接接触涂料),再推动隔膜运动,将涂料吸收加压后推出,通过喷嘴喷向涂装物体,由于其活塞在防磨损的油中工作,工作环境大大优化,寿命大大提高,经过掺透硬化处理的活塞更是不易损坏,加上高分子材料制成的高抗绞隔膜更使隔膜泵寿命进一步提高。运行可靠是隔膜泵的又一长处,故障率极底,对电压要求底,对环境要求底,维修容易,维修费用仅为柱塞泵的五分之一左右。
隔膜泵性价比优,其优异的性能价格比将推动隔膜泵的推广。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条