Before understanding the output calculation method of the gas-liquid booster pump, let's first look at the structure of the gas-liquid booster pump. There are two pistons in the structure of the gas-liquid booster pump. When the size of the two pistons and the input air pressure change, the output pressure will also change.

　　，我们先来理解下气液增压泵的增压比,增压比就是气液增压泵的大活塞和小活塞的面积比值。例如大活塞面积为A1，小活塞面积为A2，比值为(A1/A2)，输入的空气压力为p1，输出的液压力为p2，那活塞上的推力F=P1*A1=P2*A2，P2=(A1/A2)*P1从上面能够看出气液增压泵输出的液压力是以A1/A2的倍数进步的，若小大活塞面积比为1:4，输入气压0.4KPa，即输出气压1.6KPa。输出液压与输入气压及增压比之间的关系如下图所示：

　　First of all, let's understand the boost ratio of the gas-liquid booster pump. The boost ratio is the area ratio of the large piston and the small piston of the gas-liquid booster pump. For example, the large piston area is A1, the small piston area is A2, the ratio is (A1 / A2), the input air pressure is P1, the output liquid pressure is P2, then the thrust on the piston is f = P1 * A1 = P2 * A2, P2 = (A1 / A2) * P1. From the above, it can be seen that the output liquid pressure of the gas-liquid booster pump is improved by the multiple of A1 / A2. If the small and large piston area ratio is 1:4, the input air pressure is 0.4kpa, that is, the output air pressure is 1.6kpa. The relationship between output hydraulic pressure and input air pressure and boost ratio is shown in the following figure:

　　以上就是气液增压泵出力计算办法，在气液增压泵设计的时分都有用到，气体增压泵厂家希望大家可以更多的理解气液增压泵的原理，以协助用户改善效率。本文来源：http://www.sdjingtuo.comThe above is the calculation method of the output of the gas-liquid booster pump, which is useful in the design of the gas-liquid booster pump. The gas booster pump manufacturer hopes that you can understand more about the principle of the gas-liquid booster pump to help users improve efficiency.

　　随着工业的不时开展，我们将以合理的价钱、努力于国内液体控制系统元件的进一步进步。

　　With the development of industry from time to time, we will strive to make further progress in domestic liquid control system components at a reasonable price.