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淺談液壓系統蓄能器的結構形式及其分類
由蓄能器工作原理可知,活塞上部的氣體實際上是為了給蓄能器加載用的,這種液壓缸蓄能器叫氣體加載式。按加載方法的不同蓄能器還有重錘式和彈簧式。
蓄能器的結構形式如圖5所示。
1.重錘式蓄能器
圖5(a)為重錘式液壓缸蓄能器的工作原理圖。其結構類似于柱塞缸,重物的重力作用在柱塞上。當蓄能器充油時,壓力油通過柱塞將重物頂起,當蓄能器與液動機接通時,液壓油在重物的作用下排出蓄能器,去液動機做功。這種蓄能器結構簡單、壓力穩定,但體積大、笨重、運動慣性大,有摩擦損失,一般在大型固定設備中采用。
2.彈簧式蓄能器
圖5(b)為彈簧式液壓缸蓄能器。彈簧力作用在活塞上,蓄能器充油時,彈簧被壓縮,彈力增大,油壓升高。當蓄能器與液動機相連時,活塞在彈簧的作用下下移,將油液排出蓄能器,去液動機做功。這種蓄能器結構簡單、反應靈敏,但容積小,且不易用于高壓。另外,因彈簧易振動,故此種蓄能器也不適用于工作循環頻率高的場合。
3.氣體加載式蓄能器
圖5(c)、(d)都是氣體加載液壓缸蓄能器,加載用氣體一般都為氮氣。圖5- 32(c)為活塞式,其中的氣體和油液由活塞隔開,a為液壓油口。其特點是工作可靠、壽命長,但動作不夠靈敏、容積小、缸體與活塞的配合面加工要求高。圖5 - 32(d)為氣囊式,氣體儲存在氣囊里,其特點是結構緊湊、反應靈敏,但氣囊及殼體制造都較困難。
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