A new internal gear form grinding method was introduced.
介绍了一种新型内齿轮成型磨削方法。
And the technological for the reel internal gear was analyzed.
并对卷筒内齿轮进行了工艺分析。
Hydraulic external gear pumps, internal gear pumps, vane pumps.
液压齿轮泵的外部,内部的齿轮泵,叶片泵。
Versatile internal gear organization will keep your items in order.
通用的内部齿轮组织将保持在您的项目。
Internal gear drives are widely used in mechanical driving devices.
齿轮传动广泛地应用于机械传动装置中。
Large main pocket with internal gear compression straps and mesh divider.
大主袋内部齿轮压缩带和网状分。
The optimum design method of involute internal gear slotting cutter is introduced.
介绍了渐开线直齿内齿轮插齿刀的优化设计方法。
A method for grinding internal gear using spherical worm emery-wheel is presented.
提出用球形蜗杆砂轮连续分度展成磨削内齿轮的概念,阐述了其磨齿原理。
Analyses the internal gear tooth profile by using conjugate outline's meshing theory.
利用共轭齿廓的啮合理论对内齿轮进行了齿形分析。
Straight conjugate internal gear pump is a new kind of hydraulic component with low noise.
直齿共轭内啮合齿轮泵是一种新型低噪声液压元件。
Large main pocket with internal gear compression straps and mesh dividers for added storage.
大主袋内部齿轮压缩带和添加的存储网格的分隔。
This paper introduces the criterion and some noted problems of gear design for internal gear pump.
本文介绍了内啮合齿轮泵齿轮设计的准则及应注意的几个问题。
Internal gear pump has two kinds of tooth profile namely: involute profile and cycloidal tooth profile.
内啮合齿轮泵有两种齿形即:渐开线齿形和摆线齿形。
These two kinds of internal gear pump working principle and external gear pump working principle the same.
这两种内啮合齿轮泵的工作原理和外啮合齿轮泵的工作原理相同。
Gear shape is calculated and interference of planetary gear dedendum and internal gear addendum is avoided.
齿形的几何计算可避免内齿圈齿顶与行星轮齿根发生干涉。
This paper introduces a new type of dressing technique of form grinding wheel used in internal gear form grinding.
本文介绍了一种渐开线内齿轮成型磨削的砂轮修整方法。
A method of calculating and selecting modification coefficient of the internal gear with less teeth difference is presented.
介绍了一种适用于少齿差内啮合行星齿轮变位系数的计算及选取方法。
The utility model relates to a planetary reducer with internal gear, which belongs to a universal mechanical driving device.
本实用新型涉及一种行星内齿差减速器,属于通用的机械传动装置。
Internal gear pump is the small gear wheel, the big gear for driven wheel, in work big gear with small gear cocurrent rotation.
内啮合齿轮泵中的小齿轮是主动轮,大齿轮为从动轮,在工作时大齿轮随小齿轮同向旋转。
The new cycloid cam sliding tooth transmission is a two-teeth difference sliding tooth planetary gearing with cycloid internal gear.
新型摆线凸轮活齿传动是一种内齿轮齿廓为摆线及其等距线的二齿差活齿行星传动。
Based on it, the formulae of contact strength of mesh points between the movable teeth and the surge wheel, the movable teeth and the internal gear are derived.
在此基础上导出了活齿与激波器、活齿与内齿轮啮合处的接触强度的公式;
The equabions on tooth shape of internal gear by means of envelope method is derived and the pressure angle, inflection point, curvature, topcut are analysised in detail.
用包络法导出了内齿轮的齿形方程,对压力角、曲率、拐点、顶切进行了详细分析,并给出了计算公式。
The gear form of internal gearing cycloidal gear pump has important influence on machining and characteristics of pump, such as flow rate, fluctuation rate and noise etc.
内啮合摆线转子齿轮油泵的齿形对泵的加工、性能(如:流量、脉动、噪声)等有很大的影响。
To determine the internal gear pair design parameters of two-stage internal contact involute planet gear reducer all constrained conditions from machining to assembly must be satisfied.
确定双内啮合渐开线行星齿轮减速器内齿轮副的设计参数,从制造到安装有许多限制条件。
Internal gear pump structure and other gear pump structure similar to, mainly by the outer rotor and rotor, pump shaft, pump body, the front cover, bracket, sealing device, bearing, etc.
内啮合齿轮泵的结构和其他齿轮泵结构类似,主要由外转子、转子、泵轴、泵体、前盖、托架、密封装置、轴承等组成。
The three-ring internal gear reducer(TRIGR) in this article is a new type transmission which have been developed on the basis of involute few teeth difference (FTD) planetary transmission.
本文中的新型内三环减速器是在渐开线少齿差行星传动的基础上开发的一种新型传动装置。
Involute profile of internal gear, in the small gear and internal gear intermediate have a crescent shape of the diaphragm, the purpose is the oil absorption cavity and pressure oil cavity off.
渐开线齿形的内啮合齿轮,在小齿轮和内齿轮中间有一块月牙形状的隔板,目的是把吸油腔和压油腔隔开。
By using geometry analysis method, this paper educed calculation formula of normal direction gear side clearance when internal gearing involute gear transmission center distance waned slightly.
通过几何分析的方法,导出了内啮合渐开线齿轮传动中心距略变小时,法向齿侧间隙的计算公式,供齿轮传动设计计算之用。
By using geometry analysis method, this paper educed calculation formula of normal direction gear side clearance when internal gearing involute gear transmission center distance waned slightly.
通过几何分析的方法,导出了内啮合渐开线齿轮传动中心距略变小时,法向齿侧间隙的计算公式,供齿轮传动设计计算之用。
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