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translating follower
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  直动从动件
     Minimum dimension design of disc cam mechanism with upright installed concave arc bottomed <font color=red >translating follower</font> </td></tr> <tr><td class="text11Green">     正置式凹圆弧底<font color=red >直动从动件</font>盘形凸轮机构的最小尺寸设计 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-JXSJ200208011.html" target="_blank" onclick="record('translating follower', '双语例句', 'http://xuewen.cnki.net/CJFD-JXSJ200208011.html')">短句来源</a></td></tr> <tr><td>     In this paper formulas for direct solution of minimum base circle radius r_0 and offsete of plate cam with <font color=red >translating follower</font> are given. </td></tr> <tr><td class="text11Green">     本文给出了<font color=red >直动从动件</font>盘形凸轮最小基圆半径δ_0和偏距e的直接求解式。 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-JXSJ199306004.html" target="_blank" onclick="record('translating follower', '双语例句', 'http://xuewen.cnki.net/CJFD-JXSJ199306004.html')">短句来源</a></td></tr> <tr><td>     To Solve Radius of Curvature on the Cam Profile with <font color=red >Translating Follower</font> by Means of Substitute Equivalent Linkage Instead of Higher Pair </td></tr> <tr><td class="text11Green">     高副低代法求<font color=red >直动从动件</font>盘形凸轮廓线的曲率半径 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-XDJX200401010.html" target="_blank" onclick="record('translating follower', '双语例句', 'http://xuewen.cnki.net/CJFD-XDJX200401010.html')">短句来源</a></td></tr> <tr><td>     <Abstrcat>Starting from the expression of pressure angle,via constructing corresponding analogous velocity chart of mechanism,a clear solving thinking and steps for determining minimum basic dimension of mechanism according firstly to the condition of pressure angle α≤,αr≤r and secondly to the condition of curvature radius ρ≥,thus the theoretical task of minimum dimension design of upright installed concave arc bottomed <font color=red >translating follower</font> disc cam mechanism is solved satisfactorily.  </td></tr> <tr><td class="text11Green">     提出了从压力角表达式出发,通过构造起相应的机构类速度图,先按压力角α≤[α]、αr≤[α]r条件,再按曲率半径ρ≥[ρmin]条件,确定机构最小基本尺寸之清晰的求解思路与步骤,圆满解决了正置式凹圆弧底<font color=red >直动从动件</font>盘形凸轮机构最小尺寸设计的理论课题。 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-JXSJ200208011.html" target="_blank" onclick="record('translating follower', '双语例句', 'http://xuewen.cnki.net/CJFD-JXSJ200208011.html')">短句来源</a></td></tr> <tr><td>     Contour design of plate cam with an offset <font color=red >translating follower</font> of zero degreed pressure angle </td></tr> <tr><td class="text11Green">     推程压力角为零的偏置<font color=red >直动从动件</font>盘形凸轮轮廓设计 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-JXSJ200507017.html" target="_blank" onclick="record('translating follower', '双语例句', 'http://xuewen.cnki.net/CJFD-JXSJ200507017.html')">短句来源</a></td></tr> <tr><td align="right"><a href="dict_more_sen.aspx?scw=translating+follower&c=16&z=&tran=%e7%9b%b4%e5%8a%a8%e4%bb%8e%e5%8a%a8%e4%bb%b6" target="_blank">更多</a>       </td></tr></TABLE> <TABLE width="100%"><tr><td><IMG id="j_1" style="cursor:pointer" onclick="showjds('showjd_1',this)" src="images/jian.gif" border="0">  <font size="3"><b><a href="javascript:showjdsw('showjd_1','j_1')" >移动从动件</a></b></font></td></tr></TABLE> <TABLE width="100%" id="showjd_1"> <tr><td>     Acceleration analysis of the Disk Cam Mechanism with Flat-faced Rectilinear <font color=red >Translating Follower</font> by the Velocity Instantaneous Center Method </td></tr> <tr><td class="text11Green">     求盘形凸轮机构平底<font color=red >移动从动件</font>加速度的同速点法 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-JXZZ200103011.html" target="_blank" onclick="record('translating follower', '双语例句', 'http://xuewen.cnki.net/CJFD-JXZZ200103011.html')">短句来源</a></td></tr> <tr><td>     Because the method of deriving formula of the cam for oscillatingfollower or <font color=red >translating follower</font> is same. so the formula for oscillatingfollower is described in detaill only. </td></tr> <tr><td class="text11Green">     因为摆动从动件和<font color=red >移动从动件</font>的凸轮在公式推导的方法上是一样的,所以仅对摆动从动件的凸轮公式推导作了详细的叙述。 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-DBDX196401001.html" target="_blank" onclick="record('translating follower', '双语例句', 'http://xuewen.cnki.net/CJFD-DBDX196401001.html')">短句来源</a></td></tr> </TABLE> <TABLE width="100%"><tr><td><IMG id="j_2" style="cursor:pointer" onclick="showjds('showjd_2',this)" src="images/jian.gif" border="0">  <font size="3"><b><a href="javascript:showjdsw('showjd_2','j_2')" >从动件</a></b></font></td></tr></TABLE> <TABLE width="100%" id="showjd_2"> <tr><td>     <title>Minimum dimension design of disc cam mechanism with upright installed concave arc bottomed <font color=red >translating follower</font> </td></tr> <tr><td class="text11Green">     正置式凹圆弧底直动<font color=red >从动件</font>盘形凸轮机构的最小尺寸设计 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-JXSJ200208011.html" target="_blank" onclick="record('translating follower', '双语例句', 'http://xuewen.cnki.net/CJFD-JXSJ200208011.html')">短句来源</a></td></tr> <tr><td>     Dynamic Analysis of Disk Cam Mechanism with Multiple Backlash Pares and Rectilinear <font color=red >Translating Follower</font> </td></tr> <tr><td class="text11Green">     多副间隙推杆<font color=red >从动件</font>盘型凸轮机构动态分析 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-DBZX604.007.html" target="_blank" onclick="record('translating follower', '双语例句', 'http://xuewen.cnki.net/CJFD-DBZX604.007.html')">短句来源</a></td></tr> <tr><td>     In this paper formulas for direct solution of minimum base circle radius r_0 and offsete of plate cam with <font color=red >translating follower</font> are given. </td></tr> <tr><td class="text11Green">     本文给出了直动<font color=red >从动件</font>盘形凸轮最小基圆半径δ_0和偏距e的直接求解式。 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-JXSJ199306004.html" target="_blank" onclick="record('translating follower', '双语例句', 'http://xuewen.cnki.net/CJFD-JXSJ199306004.html')">短句来源</a></td></tr> <tr><td>     To Solve Radius of Curvature on the Cam Profile with <font color=red >Translating Follower</font> by Means of Substitute Equivalent Linkage Instead of Higher Pair </td></tr> <tr><td class="text11Green">     高副低代法求直动<font color=red >从动件</font>盘形凸轮廓线的曲率半径 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-XDJX200401010.html" target="_blank" onclick="record('translating follower', '双语例句', 'http://xuewen.cnki.net/CJFD-XDJX200401010.html')">短句来源</a></td></tr> <tr><td>     <Abstrcat>Starting from the expression of pressure angle,via constructing corresponding analogous velocity chart of mechanism,a clear solving thinking and steps for determining minimum basic dimension of mechanism according firstly to the condition of pressure angle α≤,αr≤r and secondly to the condition of curvature radius ρ≥,thus the theoretical task of minimum dimension design of upright installed concave arc bottomed <font color=red >translating follower</font> disc cam mechanism is solved satisfactorily.  </td></tr> <tr><td class="text11Green">     提出了从压力角表达式出发,通过构造起相应的机构类速度图,先按压力角α≤[α]、αr≤[α]r条件,再按曲率半径ρ≥[ρmin]条件,确定机构最小基本尺寸之清晰的求解思路与步骤,圆满解决了正置式凹圆弧底直动<font color=red >从动件</font>盘形凸轮机构最小尺寸设计的理论课题。 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-JXSJ200208011.html" target="_blank" onclick="record('translating follower', '双语例句', 'http://xuewen.cnki.net/CJFD-JXSJ200208011.html')">短句来源</a></td></tr> <tr><td align="right"><a href="dict_more_sen.aspx?scw=translating+follower&c=21&z=&tran=%e4%bb%8e%e5%8a%a8%e4%bb%b6" target="_blank">更多</a>       </td></tr></TABLE> <TABLE width="100%"><tr><td><IMG id="j_3" style="cursor:pointer" onclick="showjds('showjd_3',this)" src="images/jian.gif" border="0">  <font size="3"><b><a href="javascript:showjdsw('showjd_3','j_3')" >“translating follower”译为未确定词的双语例句</a></b></font></td></tr></TABLE> <TABLE width="100%" id="showjd_3"> <tr><td>     Optimum moving angles of push travel and return travel optimum{Φ_0,Φ′_0}and its solving method for conical cam mechanism with <font color=red >translating follower</font> </td></tr> <tr><td class="text11Green">     直动从动杆圆锥凸轮机构的最佳推程、回程运动角Optimum{Φ_0,Φ′_0}及其求解方法 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-JXSJ200205007.html" target="_blank" onclick="record('translating follower', '双语例句', 'http://xuewen.cnki.net/CJFD-JXSJ200205007.html')">短句来源</a></td></tr> <tr><td>     On the basis of discovering and revealing the above stated fact,this paper studied and settled the analytical method of solving the minimum value of base circle radius of conical cam with <font color=red >translating follower</font> r 0min according to the condition of allowable pressure angle when the optimum distribution optimum { Φ 0, Φ ′ 0} is being selected. </td></tr> <tr><td class="text11Green">     在发现、揭示出上述事实的基础上 ,研究解决了当选取最佳分配Optimum{Φ0 ,Φ′0 }时 ,按许用压力角条件求解直动从动杆圆锥凸轮基圆半径最小值r0min 的解析方法。 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-JXSJ200205007.html" target="_blank" onclick="record('translating follower', '双语例句', 'http://xuewen.cnki.net/CJFD-JXSJ200205007.html')">短句来源</a></td></tr> <tr><td>     Design of Cam Mechanism with <font color=red >Translating Follower</font> upon its Efficiency </td></tr> <tr><td class="text11Green">     按机构效率设计直动从动杆的凸轮机构 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-WXQG198301002.html" target="_blank" onclick="record('translating follower', '双语例句', 'http://xuewen.cnki.net/CJFD-WXQG198301002.html')">短句来源</a></td></tr> <tr><td>     When this optimum distribution is being selected,the radius of base circle r 0 of conical cam with <font color=red >translating follower</font> will gain its minimum value r 0min . </td></tr> <tr><td class="text11Green">     当选用该最佳分配时 ,直动从动杆圆锥凸轮基圆半径r0 取得其最小值r0min。 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-JXSJ200205007.html" target="_blank" onclick="record('translating follower', '双语例句', 'http://xuewen.cnki.net/CJFD-JXSJ200205007.html')">短句来源</a></td></tr> <tr><td>     Via considering two earn mechanisms in its entirety-the type F and type P,this paper researches and solves the minimum spanning distance problem of <font color=red >translating follower</font> plane conjugate earn mechanisms. </td></tr> <tr><td class="text11Green">     全面考虑了共有的F型和P型两种结构型式,研究解决了直动从动杯共轭平面凸轮机构两滚子中心间的最小跨距问题。 </td></tr> <tr><td class="text11" align="right"> <a href="http://xuewen.cnki.net/CJFD-HEBX403.023.html" target="_blank" onclick="record('translating follower', '双语例句', 'http://xuewen.cnki.net/CJFD-HEBX403.023.html')">短句来源</a></td></tr> <tr><td align="right"><a href="dict_more_sen.aspx?scw=translating+follower&c=19&z=&unvsm=1" target="_blank">更多</a>       </td></tr></TABLE> </td></tr><tr><td> <IMG src="images/userdefine.png" border="0"> <font color="blue" size="3"><b>查询“translating follower”译词为用户自定义的双语例句<br><br></b></font>    我想查看译文中含有:<input type="text" id="custom" name="custom" onkeydown="if(event.keyCode=='13'){tjCustom('translating+follower');return false;}">的双语例句 <input style="cursor:pointer;" type="button" name="Submit" value="提交" onclick="tjCustom('translating+follower');"></td></tr></TABLE></TD></TR> </TABLE><TABLE class=main-table cellPadding=0 cellSpacing=6 align=center><TR><TD><IMG src="images/dian_ywlj.gif" alt="例句" name=word></TD></TR><TR><TD><font class="text6Green">没有找到相关例句</font></TD></TR></TABLE><TABLE class=main-table cellPadding=0 cellSpacing=6 align=center><TBODY><TR><TD><IMG src="images/04.gif"><BR><BR></TD></TR><TR><TD class="text6"><p class="wz wz-en"> When we design or manufacture a cam more accurately, the ana-lytical method of calculation is desired. For example, by fabricationa cam the coordinate of pitch curve or centure of cutter must be de-termined; by calculation for strength and wear, the radius of curvatureof the pith curv sould be investigated. This problem has been solvedby different method, wich may be found in some literares. In thispaper the author suggest a way to establisb the systematic fotmulaswith parameters α and β. (α is pressure angle,... </p><p class="wz wz-en-all">When we design or manufacture a cam more accurately, the ana-lytical method of calculation is desired. For example, by fabricationa cam the coordinate of pitch curve or centure of cutter must be de-termined; by calculation for strength and wear, the radius of curvatureof the pith curv sould be investigated. This problem has been solvedby different method, wich may be found in some literares. In thispaper the author suggest a way to establisb the systematic fotmulaswith parameters α and β. (α is pressure angle, and β is the anglebetween radius R and normal to pith curve). For conveience to calcu-lation, several nomograms are discussed. The construction procedureof a cam is as follows: (a) Select the type of follower motion. (b)According to maximal pressure angle and nomogram 4 or 5 determinethe minimum cam size.(c) Calculate the coordinates of pitch curve byformulas(1)(2)(3)or (8)(9). If the size of roller is different from thecutter, the calculation must be continued with the formulas (6′)(7′).(d) If considering with Strength、wear or radius of roller the, radiusof curvature of the pitch curve must be calculated with formula(13).Because the method of deriving formula of the cam for oscillatingfollower or <font color=red >translating follower</font> is same. so the formula for oscillatingfollower is described in detaill only.</p></TD></TR><TR><TD class="text6"><p class="wz wz-zh">在精确制造或设计凸轮时,都要求用分析法。例如加工时需要知道凸轮轮廓坐标或刀具的中心坐标;强度计算或磨损计算时需要知道凸轮轮廓的曲率半径等。解决这个问题有些文献已经提出一些不同的方法。这里所提出的就是以凸轮压力角α和升角β为参数,推导系统设计公式的方法。为了计算方便还讨论了几根计算图线的设计问题。凸轮的设计步骤如下:(a)选定从动件的运动规律。(b)按最大压力角和图线(4)或(5)决定凸轮最小尺寸。(c)用公式(1)(2)(3)或(8)(9)计算凸轮理论轮廓坐标。如果滚子尺寸和刀具尺寸不同,还需用公式(6′)和(7′)继续计算。(d)如果需要考虑强度磨损或滚子半径用公式(13)计算凸轮轮廓的曲率半径。因为摆动从动件和移动从动件的凸轮在公式推导的方法上是一样的,所以仅对摆动从动件的凸轮公式推导作了详细的叙述。</p></TD></TR><TR><TD class="text6"><p class="wz wz-en"> From the actual constructions of <font color=red >translating followers</font>, it is pointed out in this paper that there are faults in design of this kind of cam mechanisms based on the allowable pressure angle value and a new mcthod is presented taking the efficiency of the mechanisms as the design base. The method is developed by full considerations of their efficiency, self-lock and the ratio of thrust to load along the <font color=red >follower</font>, it can be, therefore, used to solve the problem of choosing and calculating all kinematic... </p><p class="wz wz-en-all">From the actual constructions of <font color=red >translating followers</font>, it is pointed out in this paper that there are faults in design of this kind of cam mechanisms based on the allowable pressure angle value and a new mcthod is presented taking the efficiency of the mechanisms as the design base. The method is developed by full considerations of their efficiency, self-lock and the ratio of thrust to load along the <font color=red >follower</font>, it can be, therefore, used to solve the problem of choosing and calculating all kinematic parameters. This design base, besides to <font color=red >translating</font> knife edge and roller <font color=red >follower</font>, is also applicable to <font color=red >translating</font> flat-faced <font color=red >follower</font>. Not only is the new design criterion presented in the paper, but a set of calculation formula and the diagrams and data needed are provided, and with demonstrations of some design examples.</p></TD></TR><TR><TD class="text6"><p class="wz wz-zh">本文从直动从动杆的实际结构出发,指出了目前按压力角设计这类凸轮机构的弊病,提出了按机构效率作为设计依据的方法。这种新方法全面考虑了机构的效率、自锁和推力系数并能解决全部运动参数的选择和设计计算问題。这种设计依据除可用于尖端和滚子直动从动杆凸轮机构外,还可用于平底直动从动杆。本文不仅提出了新的设计准绳,而且提供了设计计算公式和必要的图表与数据并附有设计举例。</p></TD></TR><TR><TD class="text6"><p class="wz wz-en"> The disk cam mechanisms with roller oscillating followers are widely used in industry. For a long time this type of the cam mechanisms has been considered to have the same rule as the one with a roller <font color=red >translating follower</font> that the pressure angle reduces with the increase of the radius of the base circle and thus the design method is developed on the basis of this rule, i. e. increase the radius of the base circle when the pressure angle is greater than [α], This paper proves the limitation of the above... </p><p class="wz wz-en-all">The disk cam mechanisms with roller oscillating followers are widely used in industry. For a long time this type of the cam mechanisms has been considered to have the same rule as the one with a roller <font color=red >translating follower</font> that the pressure angle reduces with the increase of the radius of the base circle and thus the design method is developed on the basis of this rule, i. e. increase the radius of the base circle when the pressure angle is greater than [α], This paper proves the limitation of the above conclusion with concrete data and related formulas.Both the correct view-point and the correct design method are presented to judge the minimal size of the cam mechanisms. And the corresponding design programme becomes practicable.</p></TD></TR><TR><TD class="text6"><p class="wz wz-zh">滚子摆动从动杆盘状凸轮机构在工业中应用很广,长期以来都认为这种凸轮机构也与直动从动杆盘状凸轮机构一样,其压力角必随基园半径增大而减小,并由此得出设计方法。本文用具体数据和有关公式证明了上述结论的局限性,提出了衡量该种凸轮机构最小尺寸的正确观点,并由此得出正确的设计方法和编制出可行的设计程序。</p></TD></TR><TR><TD> <script type="text/javascript">getWzSwitch();</script></TD></TR><TR><TD align=right><a href="dict_result.aspx?m=m&style=&scw=translating+follower&tjType=article" class="textlink9" )"><< 更多相关文摘</a>    </TD></TR></TBODY></TABLE><TABLE class=main-table cellPadding=0 cellSpacing=6 align=center><tr><td align=left class=text><img src="images/dot.gif" alt="图标索引" name=dot><strong> 相关查询</strong></td></tr><tr><td><div class="zztj"><ul><li><a href="h_54037856000.html">offset translating follower</a></li><li><a href="h_50086081000.html">follower</a></li><li><a href="h_52468960000.html">translating</a></li><li><a href="h_50333620000.html">translating flat-bottomed follower</a></li><li><a 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