自吸旋涡泵的设计学生姓名：指导老师：摘要旋涡泵就是靠旋转叶轮对液体的作用力，在液体运动方向上给液体以冲量来传递动能以实现输送液体。

旋涡泵是一种高压泵，清水泵。

旋涡泵的叶轮为一等厚圆盘，在它外缘的两侧有很多径向小叶片。

在与叶片相应部位的泵壳上有一等截面的环形流道，整个流道被一个隔舌分成为吸、排两方，分别与泵的吸、排管路相联。

泵内液体随叶轮一起回转时产生一定的离心力，向外甩入泵壳中的环形流道，并在流道形状的限制下被迫回流，重新自叶片根部进入后面的另一叶道。

因此，液体在叶片与环形流道之间的运动迹线，对静止的泵壳来说是一种前进的螺旋线；而对于转动的叶轮来说则是一种后退的螺旋线。

旋涡泵即因液体的这种旋涡运动而得名。

液体能连续多次进入叶片之间获取能量，直到最后从排出口排出。

旋涡泵的工作有些像多级离心泵，但旋涡泵没有像离心泵蜗壳或导叶那样的能量转换装置。

旋涡泵主要是通过多次连续作功的方式把能量传递给液体，所以能产生较高的压力。

在能量传递过程中，由于液体的多次撞击，能量损失较大，泵的效率较低，一般为20～50%。

旋涡泵只适用于要求小流量（1～40米3/时）、较高扬程（可达250米）的场合，如消防泵、飞机加油车上的汽油泵、小锅炉给水泵等。

旋涡泵可以输送高挥发性和含有气体的液体，但不应用来输送粘度大于7帕·秒的较稠液体和含有固体颗粒的不洁净液体。

旋涡泵的特点流量小，扬程高，具有自吸功能，可用来输送粘度小于5度E的无固体颗粒及其类似于水的液体。

过流部件还有不锈钢等材质可用来输送酸、碱类有腐蚀性的液体。

输送介质温度为-20~+80度。

从结构可分为;单级、双级、多级；直联形式等。

在此次毕业设计任务及目标中我绘制25WB-30型漩涡泵设计图纸包括总装配图和各种零件图。

撰写设计论文，保质保量完成毕业设计任务, 设计论文内容合理、基本正确。

设计图纸基本符合生产和制造工艺，具有较高的可制造性；本次设计对漩涡泵特性及相似理和效率 以及流道设计对泵性能曲线影响的论的应用进行了学习并探讨。

通过分析转速ns对比试验，阐述泵性能变化规律。

推导出旋涡泵直径D，出口直径d等计算方法公式。

关键字：旋涡泵设计创新vortex pump designStudent: Advisor:AbstractThe vortex pump is by the force of the rotating impeller on the liquid, the impulse to pass kinetic energy to achieve the transport liquid to the liquid in the direction of liquid movement. V ortex pump is a high-pressure pump, water pump. V ortex pump impeller for a first-class thick disk, and a lot of small radial blades in its outer edge on both sides. Flow in first-class section of the ring and leaves the corresponding parts of the pump casing, the entire flow channel is separated from a tongue points to become sucked row the two sides, respectively, and the pump suction and exclusive piping associated. Liquid with pump impeller with rotary centrifugal force, thrown out into the pump casing in the annular flow channel, and under the restrictions of the shape of the flow channel was forced to reflux, and re-enter from the blade root behind the other blade channel. Therefore, the movement traces of the liquid between the blades and annular flow channel for the stationary pump casing is a forward helix; rotating impeller is a backward spiral. V ortex pump that got its name due to this vortex motion of the liquid. The liquid can repeatedly enter the blade between access to energy, until finally discharged from the outlet. V ortex pump, somewhat like a multi-stage centrifugal pump, vortex pump is not like a centrifugal pump volute or guide vanes as energy conversion devices.V ortex pump through multiple consecutive successful energy transfer to the liquid, they are able to produce high pressure. Liquid repeatedly hit in the process of energy transfer, energy loss, low efficiency of the pump, generally 20 to 50 percent. V ortex pump is only applicable to the requirements of the small flow (1 to 40 m³/ h) and higher lift (up to 250 m) of the occasions, such as fire pumps, aircraft refueling vehicle fuel pump, a small boiler feed pump. The vortex pump can transport highly volatile and gas-containing liquid, but should not be used to transport the viscosity of gr eater than 7 Pa • sec a more viscous liquid containing solid particles unclean liquids. The characteristics of the vortex pump flow, head high, with self-priming function can be used for the transmission of less than 5 degrees E no solid particles and water-like liquid viscosity. Flow parts, stainless steel and other materials used for the transmission of acid, alkali, corrosive liquids. The transmission medium temperature -20 to +80 degrees. From the structurecan be divided into; single-stage, dual-stage, multi-level; Direct form.In the graduation project tasks and goals, I draw 25WB-30 whirlpool pump design drawings including the general assembly drawings and parts diagram. Write a design paper, the quality and quantity to complete the graduation design task, design thesis is basically correct. Design drawings in line with production and manufacturing processes, with high manufacturability; the design of the whirlpool pump characteristics and the application of similarity theory to learn and explore. By analyzing the speed ns and efficiency, as well as the flow channel design on the comparative test of the influence of pump performance curves to explain the variation of pump performance. Deduced vortex pump diameter D, the outlet diameter d calculation formula.Keywords: V ortex pump; design; innovation;目录摘要 (i)Abstract (ii)目录 (iiii)第一章绪论 (1)1．1旋涡泵概论 (1)1．2旋涡泵发展趋势 (2)第二章旋涡泵 (4)2．1旋涡泵的结构特征 (4)2．2旋涡泵的基本参数 (4)2．3旋涡泵的分类和结构形式 (5)第三章 25w-30漩涡泵工作设计计算 (7)3．1设计计算条件及公式 (7)3．2 25w-30旋涡泵设计技术指标及设计计算 (10)3．2．1旋涡泵的指标 (10)3．2．2旋涡泵的参数公式 (10)3．3轴的结构设计 (12)3．4电机的选择 (13)3．4．1 Y系列小型单相异步电动机 (13)3．4．2 系列小型单相异步电动机的安装及外形尺寸 (14)3．5载荷计算 (14)3．6键的选择计算 (14)3．7 轴承的选用 (16)3．8轴的校核计算 (18)3．8密封的选择 (18)第四章总结 (20)参考文献 (21)致谢 (22)第一章绪论1．1旋涡泵概论旋涡泵（也称涡流泵）是一种叶片泵。