上银直线导轨EG系列

序号123公司名称HIWIN THKNSK型号LM-LINEAR MOTION HGH15CA HSR15R,SHS15R LY15AN,LAN15AN HGH20CA HSR20R,SHS20V LH20AN HGH20HA HSR20LR,SHS20LV LH20BN HGH25CA HSR25R,SHS25R LH25AN,LY25AN HGH25HA HSR25LR,SHS25LR LH25BN,LY25BNHGH30CA HSR30R,SHS30R LH30AN,LY30AN,LAN30AN HGH30HAHSR30LR,SHS30LR LH30BN,LY30BNHGH35CA HSR35R,SHS35R LH35AN,LY35AN,LAN35AN HGH35HA HSR35LR,SHS35LR LH35BN,LY35BNHGH45CA HSR45R,SHS45R LH45AN,LY45AN,LAN45AN HGH45HA HSR45LR,SHS45LR LH45BN,LY45BNHGH55CA HSR55R,SHS55R LH55AN,LY55AN,LAN55AN HGH55HA HSR55LR,SHS55LR LH55BN,LY55BNHGH65CA HSR65R LH65AN,LY65AN,LAN65AN HGH65HAHSR65LRLH65BN,LY65BN HGW15CA/B/C HSR15A/B，SHS15C LY15EL/FLHGW20CA/B/C HSR20A/B,SHS20C LH20EL/FL,LY20EL/FL HGW20HA/B/C HSR20LA/LB,SHS20LC LH20GL/HL,LY20GL/HLHGW25CA/B/C HSR25A/B,SHS25C LH25EL/FL,LY25EL/FL,LAN25EL/FL HGW25HA/B/C HSR25LA/LB,SHS25LC LH25GL/HL,LY25GL/HLHGW30CA/B/C HSR30A/B,SHS30C LH30EL/FL,LY30EL/FL,LAN30EL/FL HGW30HA/B/CHSR30LA/LB,SHS30LC LH30GL/HL,LY30GL/HLHGW35CA/B/CHSR35A/B,SHS35C LH35EL/FL,LY35EL/FL,LAN35EL/FL HGW35HA/B/C HSR35LA/LB,SHS35LC LH35GL/HL,LY35GL/HLHGW45CA/B/C HSR45A/B,SHS45C LH45EL/FL,LY45EL/FL,LAN45EL/FL HGW45HA/B/C HSR45LA/LB,SHS45LC LH45GL/HL,LY45GL/HLHGW55CA/B/C HSR55A/B,SHS55C LH55EL/FL,LY55EL/FL,LAN55EL/FL HGW55HA/B/C HSR55LA/LB,SHS55LC LH55GL/HL,LY55GL/HLHGW65CA/B/C HSR65A/B,SHS65C LH65EL/FL,LY65EL/FL,LAN65EL/FL HGW65HA/B/CHSR65LA/LB,SHS65LCLH65GL/HL,LY65GL/HLHGH-CA HGH-HAHGW-CA,CB,CC HGW-HA,HB,HC世界知名品牌直线导轨型号对照表AGH15SA SSR15XVY/XVMY，SR15V LS15CL AGH15CA SSR15XWY/XWMY,SHS15V,SR15W LS15AL AGH20SA SSR20XVY/XVMY,SR20V LS20CL AGH20CASSR20XWY/XWMY,SR20W LS20AL AGH25SA SSR25XVY/XVMY,SR25V LS25CL AGH25CA SSR25XWY/XWMY,SR25W LS25AL AGH30SA SR30VLS30CL AGH30CASSR30XWY/XWMY,SHS30V,SR30WLS30ALAGW15SA/B SR15SBLS15KL AGW15CA/B SSR15XTBY,SR15TB LS15FL AGW20SA/BSR20SBLS20KL AGW20CA/B SSR20XTB,SR20TB LS20FL AGW25SA/BSR25SBLS25KL AGW25CA/B SSR25XTBY,SR25TB LS25FL AGW30SA/B SR30SB LS30KL AGW30CA/BSR30TBLS30FL法兰型加长型法兰型加长型HGW15CC MSA15A HGW20CC HGW20HC MSA20A MSA20LA HGW25CC HGW25HC MSA25A MSA25LA HGW30CC HGW30HC MSA30A MSA30LA HGW35CC HGW35HC MSA35A MSA35LA HGW45CC HGW45HC MSA45A MSA45LA HGW55CC HGW55HC MSA55A MSA55LA HGW65CC HGW65HC MSA65A MSA65LA 标准型加长型标准型加长型HGH15CA MSA15S HGH20CA HGH20HA MSA20S MSA20LS HGH25CA HGH25HA MSA25S MSA25LS HGH30CA HGH30HA MSA30S MSA30LS HGH35CA HGH35HA MSA35S MSA35LS HGH45CAHGH45HA MSA45SMSA45LS AGH-SA,CAAGW-SA,CA AGW-SB,CB各厂家常用直线导轨型号对HIWIN PMIHGH55CA HGH55HA MSA55S MSA55LSHGH65CA HGH65HA MSA65S MSA65LS低组装型号-标准型与短型标准型短型标准型短型EGH15CA EGH15SA MSB15S MSB15TSEGH20CA EGH20SA MSB20S MSB20TSEGH25CA EGH25SA MSB25S MSB25TSEGH30CA EGH30SA MSB30S MSB30TS法兰型法兰短型法兰型法兰短型EGW15CA EGW15SA MSB15E MSB15TEEGW20CA EGW20SA MSB20E MSB20TEEGW25CA EGW25SA MSB25E MSB25TEEGW30CA EGW30SA MSB30E MSB30TE各厂家常用直线导轨型号对THK NSK法兰型加长型法兰型加长型HSR15AHSR20A HSR20LA LH20EL(FL)LH20GL(HL)HSR25A HSR25LA LH25EL(FL)LH25GL(HL)HSR30A HSR30LA LH30EL(FL)LH30GL(HL)HSR35A HSR35LA LH35EL(FL)LH35GL(HL)HSR45A HSR45LA LH45EL(FL)LH45GL(HL)HSR55A HSR55LA LH55EL(FL)LH55GL(HL)HSR65A HSR65LA LH65EL(FL)LH65GL(HL)标准型加长型标准型加长型HSR15RHSR20R HSR20LR LH20AN LH20BNHSR25R HSR25LR LH25AN LH25BNHSR30R HSR30LR LH30AN LH30BNHSR35R HSR35LR LH35AN LH35BNHSR45R HSR45LR LH45AN LH45BNHSR55R HSR55LR LH55AN LH55BNHSR65R HSR65LR LH65AN LH65BN低组装型号-标准型与短型标准型短型标准型短型SR15W SR15V LS15AL LS15CLSR20W SR20V LS20AL LS20CLSR25W SR25V LS25AL LS25CLSR30W SR30V LS30AL LS30CLSR35W SR35V LS35AL LS35CL法兰型法兰短型法兰型法兰短型SR15TB SR15SB LS15EL LS15JLSR20TB SR20SB LS20EL LS20JLSR25TB SR25SB LS25EL LS25JLSR30TB SR30SB LS30EL LS30JL4IKOLW-LINEAR WAY LWHD15BLWHS20B LWHSG20LWHD25B,LWHS25B LWHDG25,LWHSG25 LWHD30B,LWHS30B LWHDG30,LWHSG30 LWHD35B LWHDG35LWHD45B LWHDG45LWHD55B LWHDG55LWHD65B LWHDG65LWHT(LWH)15B LWHT(LWH)20B LWHTG(LWHG)20B LWHT(LWH)25B LWHTG(LWHG)25B LWHT(LWH)30B LWHTG(LWHG)30B LWHT(LWH)35B LWHTG(LWHG)35B LWHT(LWH)45B LWHTG(LWHG)45B LWHT(LWH)55B LWHTG(LWHG)55B LWHT(LWH)65B LWHTG(LWHG)65BLWESC15LWES15LWESC20LWES20LWESC25LWES25LWES30型号对照表ABBA SBC IKO法兰型加长型法兰型加长型法兰型加长型BRH15A SBG15FL LWH15B LWHG15B BRH20A BRH20AL SBG20FL SBG20FLL LWH20B LWHG20B BRH25A BRH25AL SBG25FL SBG25FLL LWH25B LWHG25B BRH30A BRH30AL SBG30FL SBG30FLL LWH30B LWHG30B BRH35A BRH35AL SBG35FL SBG35FLL LWH35B LWHG35B BRH45A BRH45AL SBG45FL SBG45FLL LWH45B LWHG45BSBG55FL SBG55FLL LWH55B LWHG55BSBG65FL SBG65FLL LWH65B LWHG65B 标准型加长型标准型加长型标准型加长型BRH15B SBG15SL LWHD15B LWHDG15 BRH20B BRH20BL SBG20SL SBG20SLL LWHD20B LWHDG20 BRH25B BRH25BL SBG25SL SBG25SLL LWHD25B LWHDG25 BRH30B BRH30BL SBG30SL SBG30SLL LWHD30B LWHDG30 BRH35B BRH35BL SBG35SL SBG35SLL LWHD35B LWHDG35 BRH45B BRH45BL SBG45SL SBG45SLL LWHD45B LWHDG45SBG55SL SBG55SLL LWHD55B LWHDG55SBG65SL SBG65SLL LWHD65B LWHDG65与短型滑块标准型短型标准型短型标准型短型BRS15B BRS15BS SBS15SL SBS15SV LWES15LWESC15 BRS20B BRS20BS SBS20SL SBS20SV LWES20LWESC20 BRS25B BRS25BS SBS25SL SBS25SV LWES25LWESC25 BRS30B BRS30BS SBS30SL LWES30LWESC30 BRS35B BRS35BS SBS35SL LWES35LWESC35 BRS45B BRS45BS法兰型法兰短型法兰型法兰短型SBS15FL SBS15FV LWE15LWEC15SBS20FL SBS20FV LWE20LWEC20SBS25FL SBS25FV LWE25LWEC25SBS30FL LWE30LWEC30型号对照表TSUBAKI NB STAR法兰型加长型法兰型法兰型加长型H15EA(EB)H15LEA SGL15HTE1651-1SGL20HTE1651-81653-8 H25EA(EB)H25LEA SGL25HTE1651-21653-2 H30EA(EB)H30LEA SGL30HTE1651-71653-7 H35EA(EB)H35LEA SGL35HTE1651-31653-3 H45EA(EB)H45LEA1651-41653-4 H55EA(EB)H55LEA1651-51653-5 H65EA(EB)H65LEA1651-61653-6标准型加长型标准型标准型加长型SGL15HTF1621-1SGL20HTF1621-81624-8 H25ER H25LER SGL25HTF1621-21624-2 H30ER H30LER SGL30HTF1621-71624-7 H35ER H35LER SGL35HTF1621-31624-3 H45ER H45LER1621-41624-4 H55ER H55LER1621-51624-5 H65ER H65LER1621-61624-6与短型滑块标准型短型标准型短型标准型短型U15ER U15SER SGL15TH SGL15F1622-11666-1 U20ER U20SER SGL20TH SGL20F1622-81666-8 U25ER U25SER SGL25TH SGL25F1622-21666-2 U30ER U30SER SGL30TH SGL30F1622-71666-7 U35ER U35SER SGL35TH SGL35F1622-31666-31622-41666-4法兰型法兰短型法兰型法兰短型SGL15TE SGL15ESGL20TE SGL20E1693-81663-8SGL25TE SGL25E1693-21663-2 SGL30TE SGL30E。

HIWIN直线导轨HG系列HIWIN直线导轨系为一种滚动导引，借由钢珠在滑块与导轨之间作无限滚动循环，负载平台能沿着导轨轻易地以高精度作线性运动。

与传统的滑动导引相比较，滚动导引的摩擦系数可降低至原来的1/50，由于启动的摩擦力大大减少，相对的较少无效运动发生，故能轻易达到μm级进给及定位。

再加上滑块与导轨间的束制单元设计，使得直线导轨可同时承受上下左右等各方向的负荷，上述陈列特点并非传统滑动导引所能比拟，因此机台若能派和滚珠螺杆，使用直线导轨作导引，必能大幅提高设备精度与机械效能。

HIWIN直线导轨优点及特点：1.定位精度高使用直线导轨作为线性导引时，由于直线导轨的摩擦方式为滚动摩擦，不仅摩擦系数降低至滑动导引的1/50，动摩擦力与静摩擦力的差距亦变得很小。

因此当床台运行时，不会有打滑的现象发生，可达到μm级的定位精度。

2.磨耗少能长时间维持精度传统的滑动导引，无可避免的会因油腻逆流作用造成平台运动精度不良，且因运动时润滑不充分，导致运行轨道接触面的磨损，严重影响精度。

而滚动导引的磨耗非常小，故机台能长时间维持精度。

3.适用高速运动且大幅降低机台所需驱动马力由于直线导轨移动时摩擦力非常小，只需较小动力便能让床台运行，尤其是在床台的工作方式为经常性往返运行时，更能明显降低机台电力损耗量。

且因其摩擦产生的热较小，可适用于高速运行。

4.可同时承受上下左右方向的负荷由于直线导轨特殊的束制结构设计，可同时承受上下左右方向的负荷，不像滑动导引在平行接触面方向可承受的侧向负荷较轻，易造成机台运行精度不良。

5.组装容易并具互换性组装时只要铣削或研磨床台上导轨之装配面，并依建议之步骤将导轨、滑块分别以特定扭力固定于机台上，即能重现加工时的高精密度。

传统的滑动导引，则须对运行轨道加以铲花，既费事又费时，且一旦机台精度不良，又必须再铲花一次。

直线导轨具有互换性，可分别更换滑块或导轨甚至是直线导轨组，机台即可重新获得高精密度的导引。

上银直线导轨选型手册
为了正确选型上银直线导轨，需要考虑以下因素：
1. 载荷：需要确定导轨对应的最大载荷，以确保导轨能够承受
实际应用中的负载。

2. 行程：确定所需的行程长度，以确定导轨的长度和数量。

3. 精度：确定所需的精度级别，以便选择适当的导轨类型和型号。

4. 刚度：需要考虑应用中所需的刚度水平，以选择适当的导轨
类型和型号。

5. 环境条件：需要考虑应用中的环境条件，如温度、湿度和腐
蚀性，以选择适当的材料和涂层。

6. 运动速度：需要确定应用中所需的最大运动速度，以选择适
当的导轨类型和型号。

7. 导向方式：需要考虑应用中所需要的导向方式，如滑块式和
直线导轨式，以选择适当的导轨类型和型号。

8. 安装方式和尺寸：需要考虑导轨的安装方式和尺寸，以保证
导轨与其他部件的匹配。

基于以上考虑，上银直线导轨一般按照其型号、载荷、行程、
精度等参数进行分类，用户可根据实际应用需求选取合适的型号及
参数。

在选型时建议整体考虑，同时可以参考上银直线导轨选型手册，详细了解不同型号和参数的选择和应用范围。

雕刻机上的上银直线导轨要如何润滑雕刻机上的上银直线导轨要如何润滑上银直线导轨导向技术是由导轨来实现的，导轨的重要作用是支承和引导运动部件沿着肯定的轨迹运动，这是工件台实现直线轨迹运动的基础。

导轨油最重要的特性是的粘附性和耐水冲洗性能以及的抗极压性能。

导轨的负荷一般在10～100KPa，精密机床在30KPa左右，中等负荷在350KPa，的导轨负荷有1KPa以上的。

导轨油的目的在于保护导轨及滑块，套环不被磨损，长时间保护导轨的精度。

上银直线导轨有时会有水接触，如车床、加工中心，常常有水会溅到导轨上，若导轨油的分水性能不佳就会被水分解，油滴到切削液中，会造成切削液污染，所以对上银导轨的分水性能极紧要。

有部分精密机床由于使用的便利，导轨和液压系统共用一种油，这就需要专用的液压导轨两用油。

否则若只用液压油，会由于抗磨性不佳造成导轨磨损或被水冲走；若只用导轨油又有可能造成液压系统油泥多，压力达不到。

液压导轨油兼备两者之优点，两个部份皆可使用。

但在液压系统中效果始终不及液压油，在上银导轨上也不及专用的导轨油，但对于轻负荷的小型机床亦无大碍。

某些较为粗糙的机械，导轨较大，结构简单，且导轨有坑点，其设计为采纳润滑脂润滑，多数采纳挤压方式给油。

要求全部的油脂为EP极压型，否则被挤出后，上银导轨上残留的油脂无法承受重负荷。

大部分进口机械的导轨润滑采纳集中给油方式，即将导轨油或极压滑脂装在一个透亮容器内，机械将自动补给。

无论用何种油品，上银直线导轨用的润滑油脂都是损耗性的不可循环再用，多数导轨都暴露在外无法回收循环。

上银直线导轨的导向原理从定位原理可知，一个刚体要在空间定位，必需限制其六个自由度，即限制沿Xy,:方向的移动和绕x,y,:方向的转动。

对于直线运动导轨，为使运动件沿给定的方向移动，就必需限制其他五个自由度，即绕三个方向的转动和沿其他两个方向的移动。

在传统的直线传动形式中，直线方型导轨有滚珠直线导轨和滚轮直线导轨两种，由于前者的精度较高，大部分机械加工设备都是采纳滚珠式直线导轨。

Technical InformationTechnical Information IndexPreface (1)1. General Information (1)1-1 Advantages and features of Linear Guideway (1)1-2 The principles of selecting Linear Guideway (2)1-3 Basic Load Rating of Linear Guideways (3)1-4 The service Life of Linear Guideways (4)1-5 Acting Load (5)1-6 friction (9)1-7 Lubrication (10)1-8 The Butt-joint Rail (10)1-9 Mounting Configurations (11)1-10 Mounting procedures (12)2. HIWIN Linear Guideway Product Series (18)2-1 HG series – Heavy Load Ball Type Linear Guideway (20)2-2 EG series – Low profile Ball Type Linear Guideway (42)2-3 WE series – four-Row Wide Rail Linear Guideway (59)2-4 MG series – Miniature Linear Guideway (72)2-5 TM series – Miniature Linear Guideway (82)2-6 QH series – Heavy Load TypeLinear Guideway, with synchMotion TM Technology (90)2-7 QE series – Low profile Linear Guideway, with synchMotion TM Technology (104)2-8 QW series – Wide Rail Linear Guideway, with synchMotion TM Technology (116)2-9 RG series – High Rigidity Roller Type Linear Guideway (129)2-10 QR series – Roller type Linear Guideway, with synchMotion TM Technology (148)2-11 E2 Type – self Lubrication Kit for Linear Guideway (162)2-12 pG Type – positioning Guideway (166)2-13 sE Type – Metallic End Cap Linear Guideway (184)2-14 RC Type – Reinforced Cap (185)2-15 Grease (186)3.HIWIN Linear Guideway Inquiry Form (190)(The specifications in this catalogue are subject to change without notification.)(1) High positional accuracyWhen a load is driven by a linear motion guideway, the frictional contact between the load and the bed desk is rolling contact. The coefficient of friction is only 1/50 of traditional contact, and the difference between the dynamic and the static coefficient of friction is small. Therefore, there would be no slippage while the load is moving.(2) Long life with high motion accuracyWith a traditional slide, errors in accuracy are caused by the counter flow of the oil film. Insufficient lubrication causes wear between the contact surfaces, which become increasingly inaccurate. In contrast, rolling contact has little wear; therefore, machines can achieve a long life with highly accurate motion.(3) High speed motion is possible with a low driving forceBecause linear guideways have little friction resistance, only a small driving force is needed to move a load. This results in greater power savings, especially in the moving parts of a system. This is especially true for the reciprocating parts.(4) Equal loading capacity in all directionsWith this special design, these linear guideways can take loads in either the vertical or horizontal directions. Conventional linear slides can only take small loads in the direction parallel to the contact surface. They are also more likely to become inaccurate when they are subjected to these loads.(5) Easy installationInstalling a linear guideway is fairly easy. Grinding or milling the machine surface, following the recommended installation procedure, and tightening the bolts to their specified torque can achieve highly accurate linear motion.(6) Easy lubricationWith a traditional sliding system, insufficient lubrication causes wear on the contact surfaces. Also, it can be quite difficult to supply sufficient lubrication to the contact surfaces because finding an appropriate lubrication point is not very easy. With a linear motion guideway, grease can be easily supplied through the grease nipple on the linear guideway block. It is also possible to utilize a centralized oil lubrication system by piping the lubrication oil to the piping joint.(7) InterchangeabilityCompared with traditional boxways or v-groove slides, linear guideways can be easily replaced should any damage occur. for high precision grades consider ordering a matched, non-interchangeable, assembly of a block and rail.PrefaceA linear guideway allows a type of linear motion that utilizes rolling elements such as balls or rollers. By using re-circulating rolling elements between the rail and the block, a linear guideway can achieve high precision linear motion. Compared to a traditional slide, the coefficient of friction for a linear guideway is only 1/50. Because of the restraint effect between the rails and the blocks, linear guideways can take up loads in both the up/down and the left/right directions. With these features, linear guideways can greatly enhance moving accuracy, especially, when accompanied with precise ball screws.1-1 Advantages and Features of Linear Guideways1. General InformationG99TE17-13061Linear GuidewaysGeneral Information1-2 Selecting Linear GuidewaysG99TE17-13062(1) Static load rating (C 0)Localized permanent deformation will be caused between the raceway surface and the rolling elements when a linear guideway is subjected to an excessively large load or an impact load while either at rest or in motion. If the amount of this permanent deformation exceeds a certain limit, it becomes an obstacle to the smooth operation of the linear guideway. Generally, the definition of the basic static load rating is a static load of constant magnitude and direction resulting in a total permanent deformation of 0.0001 times the diameter of the rolling element and the raceway at the contact point subjected to the largest stress. The value is described in the dimension tables for each linear guideway. A designer can select a suitable linear guideway by referring to these tables. The maximum static load applied to a linear guideway must not exceed the basic static load rating.(2) Static permissible moment (M 0)The static permissible moment refers to a moment in a given direction and magnitude when the largest stress of the rolling elements in an applied system equals the stress induced by the static Load Rating. The static permissible moment in linear motion systems is defined for three directions: M R , M p and M Y .(1) Dynamic load rating (C)The basic dynamic load rating is an important factor used for calculation of service life of linear guideway. It is defined as the maximum load when the load that does not change in direction or magnitude and results in a nominal life of 50km of operation for a ball type linear guideway and 100km for a roller type linear guideway. The values for the basic dynamic load rating of each guideway are shown in dimension tables. They can be used to predict the service life for a selected linear guideway.(3) Static safety factorThis condition applys when the guideway system is static or under low speed motion. The static safety factor, which depends on environmental and operating conditions, must be taken into consideration. A larger safety factor is especially important for guideways subject to impact loads (see Table 1-1). The static load can be obtained by using Eq. 1.1f sL : static safety factor for simple load f sM : static safety factor for moment C 0 : static load rating (kN)M 0 : static permissible moment (kN •mm)p : Calculated working load (kN)M : Calculated appling moment (kN •mm)1-3 Basic Load Ratings of Linear Guideways1-3-1 Basic Static LoadEq.1.1f SL =P or 0f SM =M0M R M P M Y1-3-2 Basic Dynamic LoadG99TE17-13063Linear GuidewaysGeneral Information1-4 Service Life of Linear Guideways1-4-1 Service LifeWhen the raceway and the rolling elements of a linear guideway are continuously subjected to repeated stresses, the raceway surface shows fatigue. flaking will eventually occur. This is called fatigue flaking. The life of a linear guideway is defined as the total distance traveled until fatigue flaking appears on the surface of the raceway or rolling elements.1-4-2 Nominal Life (L)The service life varies greatly even when the linear motion guideways are manufactured in the same way or operated under the same motion conditions. for this reason, nominal life is used as the criteria for predicting the service life of a linear motion guideway. The nominal life is the total distance that 90% of a group of identical linear motion guideways, operated under identical conditions, can travel without flaking. When the basic dynamic rated load is applied to a linear motion guideway, the nominal life is 50km.1-4-3 Calculation of Nominal LifeThe acting load will affect the nominal life of a linear guideway. Based on the selected basic dynamic rated load and the actual load. The nominal life of ball type and roller type linear guideway can be calculated by Eq.1.2 and Eq. 1.3 respectively.If the environmental factors are taken into consideration, the nominal life is influenced greatly by the motion conditions, the hardness of the raceway, and the temperature of the linear guideway. The relationship between these factors is expressed in Eq.1.4 and Eq. 1.5.P P ( ( )) L=C P • 100km=• 62mileC P (())103103Eq.1.3L : Nominal lifeC : Basic dynamic load rating p : Actual loadL : Nominal life f h : Hardness factorC : Basic dynamic load rating f t : Temperature factor p C : Calculated load f W : Load factorEq.1.4Eq.1.5L= 33f h •f t •C f w • P cf h • f t • C f w • P c• 50km=•31mile(( )) f w P c f w P c (()) L=f h • f t •Cf w•P cf h • f t • C f w • P c• 100km=•62mile(())103103L=33C P• 50km=• 31mile C P( ( ) ) 1010Eq.1.2Ball type:Ball type:Roller type:Roller type:G99TE17-13064Table 1-2 Load factor1-4-5 Calculation of Service Life (L h )Transform the nominal life into the service life time by using speed and frequency.1-5 Applied Loads1-5-1 Calculation of Loadseveral factors affect the calculation of loads acting on a linear guideway (such as the position of the object's center of gravity, the thrust position, and the inertial forces at the time of start and stop). To obtain the correct loadvalue, each load condition should be carefully considered.(2) Temperature factor ( f t )Due to the temperature will affect the material of linear guide, therefore the permissible load will be reduced and the nominal service life will be decreased when over 100o C. Therefore, the basic dynamic and static load rating must be multiplied by the temperature factor. As some accessories are plastic which can’t resist high temperature, the working enviornment is recommended to be lower than 100o C.(3) Load factor ( f w )The loads acting on a linear guideway include the weight of slide, the inertia load at the times of start and stop, and the moment loads caused by overhanging. These load factors are especially difficult to estimate because of mechanical vibrations and impacts. Therefore, the load on a linear guideway should be divided by the empircal factor.TemperatureEq.1.6Eq.1.7L h = 3L •10 V e • 60 V e • 60= hr 3 3C P • 50•10( )V e • 60 V e • 60L h =3L • 10V e • 60V e • 60=hr3CP• 100•10()103L h : service life (hr)L : Nominal life (km)V e : speed (m/min)C/p : Load factorBall type:Roller type:1-4-4 Factors of Normal Life(1) Hardness factor ( f h )In general, the raceway surface in contact with the rolling elements must have the hardness of HRC 58~62 to an appropriate depth. When the specified hardness is not obtained, the permissible load is reduced and the nominal life is decreased. In this situation, the basic dynamic load rating and the basic static load rating must be multiplied by the hardness factor for calculation.G99TE17-13065Linear GuidewaysGeneral Information(1) Load on one blockTable 1-3 Calculation example of loads on blockW: Applied weightp n : Load (radial, reverse radial), n=1~4 a,b,k: Distance from external force to geometric center l: Distance from external force to driver f: External force p tn : Load (lateral), n=1~4c: Rail spacing d: Block spacing h: Distance from center of gravity to driverG99TE17-130661-5-2 Calculation of The Mean Load for Variable LoadingWhen the load on a linear guideway fluctuates greatly, the variable load condition must be considered in the life calculation. The definition of the mean load is the load equal to the bearing fatigue load under the variable loading conditions. It can be calculated by using table 1-5.(2) Loads with inertia forcesG99TE17-13067Linear GuidewaysGeneral Information=P e P +s P l=P e P +s 0.5 P l P s P l when when>•=P e P +l 0.5 P sP l P s>•1-5-3 Calculation for Bidirectional Equivalent LoadsHIWIN linear guideways can accept loads in several directions simultaneously. To calculate the service life of the guideway when the loads appear in multiple directions, calculate the equivalent load (p e ) by using the equationsbelow.lHG/EG/WE/QH/QE/QW/RG/QR SeriesMG Series1-5-4 Calculation Example for Service LifeA suitable linear guideway should be selected based on the acting load. The service life is calculated from the ratio ofthe working load and the basic dynamic load rating.Eq.1.8Eq.1.9Eq.1.10G99TE17-130681-6 FrictionAs mentioned in the preface, a linear guideway allows a type of rolling motion, which is achieved by using balls orrollers. The coefficient of friction for a linear guideway can be as little as 1/50 of a traditional slide. Generally, the coefficient of friction of ball type linear guideway is about 0.004 and roller type is about 0.003 .When a load is 10% or less than the basic static load rate, the most of the resistance comes from the grease viscosity and frictional resistance between balls. In contrast, if the load is more than the basic static load rating, the resistance will mainly come from the load.Eq.1.11=F µW •+S f : friction (kN)s : friction resistance (kN)µ : Coefficient of friction W : Normal loads (kN)G99TE17-13069Linear GuidewaysGeneral Information1-8 Jointed RailJointed rail should be installed by following the arrow sign and ordinal number which is marked on the surface of each rail.for matched pair, jointed rails, the jointed positions should be staggered. This will avoid accuracy problems due to discrepancies between the 2 rails (see figure).T : feeding frequency of oil (hour)V e : speed (m/min)1-7-2 OilThe recommended viscosity of oil is about 32~150cst. The standard grease nipple may be replaced by an oil piping joint for oil lubrication. since oil evaporates quicker than grease, the recommended oil feed rate is approximate 0.3cm 3/hr.1-7 Lubricationsupplying insufficient lubrication to the guideway will greatly reduce the service life due to an increase in rolling friction. The lubricant provides the following functions;Reduces the rolling friction between the contact surfaces to avoid abrasion and surface burning of the guideway.Generates a lubricant film between the rolling surfaces and decreases fatigue. Anti-corrosion .1-7-1 GreaseLinear guideway must be lubricated with the lithium soap based grease before installation. After the linear guideway is installed, we recommend that the guideway be re-lubricated every 100 km. It is possible to carry out the lubrication through the grease nipple. Generally, grease is applied for speeds that do not exceed 60 m/min faster speeds will require high-viscosity oil as a lubricant.T=100 • 1000V e • 60hrEq.1.12G99TE17-1306101-9 Mounting ConfigurationsLinear guideways have equal load ratings in the radial, reverse radial and lateral directions. The application depends on the machine requirements and load directions.Typical layouts for linear guideways are shown below:use of two rails(block fixed)HGW type block with mounting holes in different directions.total surface fixed installationuse of two rails(block movement)G99TE17-130611Linear GuidewaysGeneral InformationThree installation methods are recommended based on the required running accuracy and the degree of impacts and vibrations.1-10-1 Master and Subsidiary Guidefor non-interchangeable type Linear Guideways, there are some differences between the master guide and subsidiary guide. The accuracy of the master guide’s datum plane is better than the subsidiary’s and it can be a reference side for installation. There is a mark “MA” printed on the rail, as shown in the figure below.1-10-2 Installation to Achieve High Accuracy and Rigidity1-10 Mounting ProceduresHGH35C 10249-1 001 MAspec.Manufacture NoRail NoMasterG99TE17-130612(1) Mounting methodsIt is possible that the rails and the blocks will be displaced when the machine is subjected to vibrations and impacts. To eliminate these difficulties and achieve high running accuracy, the following four methods are recommended for fixing.(2) Procedure of rail installationG99TE17-130613Linear GuidewaysGeneral Information1-10-3 Installation of the Master Guide without Push ScrewsTo ensure parallelism between the subsidiary guide and the master guide without push screws, the following rail installation methods are recommended. The block installation is the same as mentioned previously.using a viceplace the rail into the mounting plane of the bed. Tighten the mounting bolts temporarily; then use a vice to push the rail against the side datum plane of the bed. Tighten the mounting bolts in sequence to the specified torque.(1) Installation of the rail on the subsidiary guide side(3) Procedure of block installationG99TE17-130614Method with use of a jigUse a special jig to ensure the rail position on the subsidiary guide side. Tighten the mounting bolts to the specified torque in sequence.G99TE17-130615Linear GuidewaysGeneral Information1-10-5 Linear Guideway Mounting Instructions1. H IWIN guideways are supplied with a coating of anti-corrosion oil before being shipped. please clean the oil before moving or running the blocks.2. R ecognition of master and subsidiary rails: f or non-interchangeable type linear guideways, there are some differences between the master rail and subsidiary rail. The accuracy of the master rail’s datum plane is better than the subsidiary’s and it can be a reference side for installation. There is a mark “MA” printed on the rail. Check for the correct order before starting the installation. The rail number of master is an odd number and the rail number of subsidiary is an even number. please install the rails according to the indication and carry on the installation according to the order for multi-rails installment (e.g.: 001 pairs 002 ; 003 pairs 004 etc.)1-10-4 When There Is No Side Surface of The Bed On The Master Guide SideTo ensure parallelism between the subsidiary guide and the master guide when there is no side surface, the following rail installation method is recommended. The installation of the blocks is the same as mentioned previously.(2) Installation of the rail on the subsidiary guide sideThe method of installation for the rail on the subsidiary guide side is the same as the case without push screws.(1) Installation of the rail on the master guide sideG99TE17-1306163. Recognition of datum plane: The datum plane (B) of rail is the side indicated by the arrow, which is marked on the top surface of the rail. The datum plane of block is smooth groundsurface which shows as D in figure 2.4.B utt-joint rail: Butt-joint rail should be installed by following the arrow sign and ordinal number which is marked on the surface of each rail as shown in the figure 3. To avoid accuracy problems due to discrepancies between the 2 rails such as for matched pair, butt-joint rails, the jointed positions should be staggered as shown in figure 4.g lease do not randomly mix block units and rails for non interchangeable type to avoid any installation problem. 7. T o ensure the straightness of rail, please tighten the mounting1. s o il or lithium-soap-base grease). please re-lubricate the blocks after assembling the guideways in machines. The same soap-base lubricants should be used.2. T he blocks are composed of various plastic parts; please avoid prolonged exposure of the plastic parts with any organic solvent when cleaning the blocks so that the product damage can be prevented.ne of the causes for breakdown or damage.4. p lease do not disassemble the parts arbitrarily, the incautious actions of disassembly may bring the foreign objects into the block and diminish the precision of guideways. 5. W hen handling the guideways please hold it horizontally. The improper oblique posture of guideways will cause the blocks falling from the rail.6. p lease avoid the inappropriate falling or clash on the blocks, which will damage the function of guideways.7. T he maximum tolerant temperature of E2 type (self lubricant kit) is in the range of -10℃~60℃. and for Quiet type . The maximum service temperature of sE type (MetallicBDG( Figure 2 )( Figure 2 )( Figure 1 )( Figure 5 )Not jointed properlyNot jointed properly G99TE17-130617Linear GuidewaysGeneral Information2. HIWIN Linear Guideway Product SeriesIn an effort to meet customer’s requirement and service needs HIWIN offers several different types of guides. We supply the HG series which is suitable for CNC machineries, the EG series for automation industries, the WE series for single axis equipment, the RG series for high rigidity applications, and the miniature series, MGN/MGW, for medical devices and semiconductor equipment. Also for high technology industries, HIWIN has developed the QH and QE series with high speed and quiet characteristics.(1) Types & seriesTable 2-1Types & SeriesG99TE17-130618Table 2-2 Accuracy Classes(3) Classification of preload(2) Accuracy classesTable 2-3PreloadG99TE17-130619。

简析上银导轨的摩擦系数及计算公式简析上银导轨的摩擦系数及计算公式上银单滑块理论值一般是0.003左右，受装配、防尘件等影响，实际在0.02~0.05左右，大规格大预压多轨多滑块的整体摩擦系数可能达到0.1~0.2、直线导轨摩擦系数理论上在0.01至0.02之间，但实际应用中由于安装平行度，为消除间隙采取的预紧，回珠器曲线失真(在高速时体现)，内外滚道一致性等因素不可控性太强。

常常大于理论值很多。

建议按照0.15核算。

直线导轨摩擦系数的计算式中：L：额定寿命.km；C：基本额定动负荷，kN；PC：计算负荷，LN；FH：硬度系数；FT：温度系数；FC：接触系数，FW：负荷系数。

定位精度高运用HIWIN直线导轨作为线性扶引时，因为直线导轨的摩擦方法为滚动摩擦，不只摩擦系数降低至滑动扶引的1/50,投影机出租，动摩擦力与静摩擦力的差距亦变得很小。

因而当床台运转时，不会有打滑的景象发作，可到达m级的定位精度。

磨耗少能长工夫维持精度传统的滑动扶引，无可防止的会因油腻逆流效果形成平台活动精度不良，且因活动时光滑不充沛，招致运转轨道接触面的磨损，严峻影响精度。

而滚动扶引的磨耗十分小，故机台能长工夫维持精度。

合用高速活动且大幅降低机台所需驱动马力因为HIWIN直线导轨挪动时摩擦力十分小，只需较小动力便能让床台运转，尤其是在床台的任务方法为常常性往复运转时，更能分明降低机台电力损耗量。

上银导轨又称精密滚动直线导轨副、滑轨、线性导轨、线性滑轨、滚动导轨，用于高进度的平行度的直线往复运动场合，额定负载比直线轴承高，有一定的扭矩，高负载仍能高精度的直线运动。

上银导轨是算是滑动到贵重改良体，直线导轨摩擦阻力与滑动导轨相比可减小到原来的1/20-1/40他利用滚动方式代替了滑动的方式，尤其是静摩擦非常小，与动摩擦几乎没有差异，即使在微量进给时也不会有空转打滑的现象，可实现超微米级的行走精度。

上银导轨的摩擦阻力随着负荷大小、预压力与润滑剂黏度等的不同而变化。

上银直线导轨选型计算一、引言直线导轨作为机械制造中常见的定位和运动控制装置，其选型计算对于保证机械设备的精度和稳定性非常重要。

针对上银直线导轨，本文将从导轨的基本参数、工作条件和选型计算等方面进行详细介绍。

二、直线导轨基本参数1.导轨长度：根据设备的工作行程和使用要求进行确定，一般取决于零件的加工范围；2.导轨宽度和高度：根据设备的载荷和工作条件来确定，同时需要考虑导轨的刚度和耐力等参数；3.导轨滑块类型：上银直线导轨的滑块类型有多种，如固定型、活动型和滚动式等，根据设备的要求和工作条件来选择合适的类型；4.导轨接触方式：根据设备的工作方式和传动要求来选择导轨的接触方式，如滾珠式或滑块式。

三、工作条件的考虑1.载荷和速度：根据设备的工作要求和使用环境来确定导轨的额定负荷和额定速度；2.温度和湿度：导轨材料的选择和防护措施需要根据设备的工作环境来确定，确保导轨在不同温度和湿度下的工作稳定性和寿命；3.环境污染：如果设备工作环境存在较高的灰尘、油污或腐蚀气体等，则需选择具有防护功能的导轨材料和密封结构。

四、选型计算1.载荷计算：根据设备工作过程中导轨所承受的力矩、推力和振动等参数，结合导轨的载荷能力进行计算，确保导轨在工作过程中不会超载；2.刚度计算：根据设备需要的刚度和精度要求，确定导轨的刚度，并结合导轨悬臂长度和滑块支承情况进行计算；3.寿命计算：根据设备的使用寿命要求和工作条件，选择合适的导轨材料和型号，计算导轨的设计寿命，并与设备寿命要求进行对比；4.运动平稳性计算：根据设备的运动速度、加速度和减速度等参数，计算导轨的运动平稳性指标，确保设备的运动稳定性和准确性；5.经济性计算：根据设备的成本和效益要求，结合导轨的选型参数进行综合评估，选择性价比较高的导轨产品。

五、选型注意事项1.导轨的选型计算需要首先根据设备的使用要求和工作条件来确定导轨的基本参数；2.选型计算需要考虑导轨的负荷能力、刚度和寿命等因素，并结合设备的运动速度和稳定性要求来综合考虑；3.在进行选型计算时，还需要考虑导轨的安装和调整方便性、维护保养工作的便捷性和地方配套件等因素；4.最终选型结果需要与设备的实际情况和使用要求相匹配，以保证设备的性能和稳定性。

直线导轨是机械行业最重要的负载元件，负载平台沿着导轨无限循环做高精度直线运动，上银导轨高精度，耐磨，高速运动摩擦少，润滑结构简单，那么上银直线导轨规格型号选型计算规则是什么呢？使用条件设定应用设备类型内部空间限定尺寸应用设备的精度要求应用设备刚性要求负荷方式有效行程运行速度、加速度使用频率使用环境要求的寿命年限选用上银导轨系列类型HG系列滚珠导轨:磨床、铣床、车床、钻床、综合加工机、放电加工机、镗床、线切割机、精密量测仪器、木工机械、搬运机器、运送装置。

EG系列低组导轨:产业自动化机器、半导体机械、镭射雕刻机、包装机器。

MG系列微型导轨:印表机、机器手臂、电子仪器设备、半导体设备。

RG系列重型导轨:CNC加工机、重切屑加工机、CNC磨床、射出成型机、放电加工机、线切割机、大型龙门机床QH系列静音导轨:高速、宁静、低发尘需求产业。

WE/QW系列是单轴设备专用。

选用直线导轨精度等级C:普通H:高P:精密SP：超精密UP:超高精密假定滑块尺寸和数量依据经验选用负荷状态若与滚珠丝杆配合使用，则直线导轨规格与丝杠外径相似，例如：若滚珠丝杠为35mm则选用HG35规格的。

计算滑块最大负荷参照负荷计算例计算出单个滑块最大等效负荷确认选用的直线导轨静安全系数应超过静安全系数使用表所列之值。

选择预压力依据刚性要求及其安装精度选用确认刚性参照刚性表计算变形量(提高预压力，加大选用尺寸或滑块数量以提供刚性)计算使用寿命依据使用速度、频率计算寿命距离要求（依据寿命公式计算选定直线导轨的寿命距离）润滑选用润滑剂选用，应设备要求可选择润滑脂、润滑油、特殊润滑剂，润滑定期注入润滑脂或自动供油。

上银导轨厂家？上银导轨代理经销商台湾上银导轨好在哪？购买上银导轨去哪里找厂家和经销商？谁家的上银导轨更好呢？上银导轨与普通相比具备以下几点：1、定位精度高使用线性滑轨作为线性导引时，由于线性滑轨的摩擦方式为滚动摩擦，不仅摩擦系数降低，动摩擦力与静摩擦力的差距亦变得很小。

因此当床台运行时，不会有打滑的现象发生，定位精度较高。

2、磨耗少能长时间维持精度传统的滑动导引，无可避免的会因油膜逆流作用造成平台运动精度不良，且因运动时润滑不充份，导致运行轨道接触面的磨损，严重影响精度。

而滚动导引的磨耗非常小，故机台能长时间维持精度。

3、适用高速运动且大幅降低机台所需驱动马力由于线性滑轨移动时摩擦力非常小，只需较小动力便能让床台运行，尤其是在床台的工作方式为经常性往返运行时，更能明显降低机台电力损耗量。

且因其摩擦产生的热较小，可适用于高速运行。

4、可同时承受上下左右方向的负荷由于线性滑轨特殊的束制结构设计，可同时承受上、下、左、右方向的负荷，不像滑动导引在平行接触面方向可承受的侧向负荷较轻，易造成机台运行精度不良。

因为在上银直线导轨切割的时候，会有汗水进入到导轨表面，形成腐蚀层，放置时间过久，上银直线导轨就会锈蚀，所以要上防锈油。

如何组合滑块呢？轨道可以根据长度，配置滑块，我们要注意的是在装滑块的时候，滑块内部的假轨(黑色塑料轨)一定不能拿出，直接顺着铁轨把滑块滑进去，假轨也会顺着滑块的另一端滑出，这样就能有效的避免上银滑块内部钢珠因为轨道挤压掉出。

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