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参数资料
| 型号: | 615717 |
| 厂商: | Astro Tool Corp |
| 文件页数: | 6/93页 |
| 文件大小: | 0K |
| 描述: | TOOL HAND CRIMP ADJUST 20-28AWG |
| 标准包装: | 1 |
| 工具类型: | 手动压接器 - 无定位器 |
| 适用于相关产品: | 触点,尺寸 20-28 |
| 特点: | 侧面插入式,棘齿,可调 |
| 产品目录页面: | 405 (CN2011-ZH PDF) |
| 配用: | 620100-ND - TOOL POSITIONER FOR 615717 615722-ND - POSITIONER FOR TOOL FRAME 615718-ND - TOOL POSITIONER |
| 其它名称: | M22520/2-01 M22520/2-01-ND Q1143963 |
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�VISUAL� INSPECTION�
�Each� contact� is� inspected� under� a� microscope� to� make� certain� the�
�indenture� does� not� crack� or� tear� the� base� metal,� or� cause� excessive�
�distortion� of� the� contact.�
�CONTROLLING� CRIMP� DEPTH�
�From� the� tensile� curves,� a� known� crimp� depth� range� is� established.�
�It� is� imperative,� therefore,� that� the� crimp� tool� settings� be� within� the�
�established� tolerance.�
�To� insure� full� closure� of� the� tool� handles� and� positive� bottoming,� it� is�
�necessary� that� tools� be� cycle� controlled.� This� is� accomplished� by� the� use�
�of� a� precision� ratchet� device� which� releases� the� handles� at� the� positive�
�bottoming� position� within� specification� tolerances.� This� release� point�
�and� positive� bottoming� are� applicable� to� all� contact� sizes.�
�MEASURING� CRIMP� DEPTH� (GAGING)�
�Too� loose� a� crimp� setting� will� result� in� wire� pullout� and� high� millivolt�
�drop� (high� resistance).� Too� tight� a� setting� will� nick� the� wire� strands�
�causing� low� tensiles� and� wire� breakage� within� the� contact.�
�Positive� bottoming� tools� can� readily� be� gaged� by� selecting� gage� pins�
�dimensioned� to� the� end� limits� of� the� known� crimp� range� of� a� given�
�contact.�
�AXIAL� DEFORMATION�
�During� the� crimping� process� considerable� force� is� applied� and� material�
�displacement� takes� place,� which� may� result� in� axial� deformation� of� the�
�contact.� The� following� factors� contribute� to� axial� deformation� of� contacts:�
�1.� Contact� material� and� contact� hardness.�
�2.� Crimp� barrel� wall� thickness.�
�3.� Concentricity� of� conductor� hole� to� O.D.� of� crimp� barrel.�
�4.� If� an� insulation� support� is� included� on� the� contact,� the� concentricity�
�of� this� support� (I.D.� and� O.D.)� with� respect� to� the� other� diameters� in�
�the� contact.�
�5.� Crimp� depth� -� the� deeper� the� crimp� the� greater� the� possibility� of�
�contact� bending.�
�6.� Conductor� characteristics� -� conductor� hardness,� number� of� strands,�
�size� of� wire,� bunching� of� strands,� the� lay� of� the� conductors,� plating�
�or� the� use� of� solid� conductor.�
�7.� The� condition� of� the� indenters� -� indenters� which� are� not� uniformly�
�dimensioned� or� aligned� or� which� have� extreme� variation� in� surface�
�condition� can� cause� contact� bending.�
�8.� The� condition� of� the� crimping� tool� -� a� worn� crimping� tool� can�
�contribute� to� contact� bending.�
�9.� Method� of� contact� location� and� support� -� improperly� supporting� or�
�positioning� the� contact� in� the� tool� can� result� in� contact� bending.�
�10.� Method� of� measuring� axial� deformation� -� we� have� found� that�
�this� is� one� of� the� least� understood� items� relating� to� the� crimp�
�tool� specification.�
�MIL-DTL-22520� is� specific� in� defining� and� evaluating� the� axial�
�deformation� of� contacts.� This� paragraph� allows� the� following�
�deformation:�
�The� TIR� allowed� includes� a� maximum� of� .005� TIR� assignable� to� the�
�contact� during� its� manufacture.� (TIR� is� an� abbreviation� for� Total�
�Indicator� Reading� and� is� a� measure� of� the� total� deviation� from� a� true�
�center� line� when� the� item� being� measured� is� rotated� through� 360� °.)�
�COMPRESSION� FORCES�
�Crimping� compression� forces� are� directly� related� to:� A.� Indenter�
�Configuration;� B.� The� Amount� of� Leverage� in� a� Crimping� Tool;� C.� Crimp�
�Depth� Required� for� Satisfactory� Results;� D.� Contact� Hardness� and�
�Contact-Conductor� Combinations.�
�A.� Indenter� Configuration�
�MS� drawings� are� specific� as� to� indenter� configuration� of� the� Class� I�
�crimping� tool.� It� is� possible� to� change� the� shape� of� the� indenters� to�
�reduce� frontal� area� and� thus� reduce� crimping� forces.� If� the� reduction�
�of� compression� forces� was� the� only� factor� involved,� a� knife� blade�
�edge� on� an� indenter,� or� a� conical� tip� shape� would� be� the� most�
�desirable� configuration.� But� this� would� result� in� cracked� contacts,�
�damage� to� plating,� high� wire� embrittlement� because� of� the�
�concentrated� stress� of� a� small� crimp� area,� and� would� also� result�
�in� marginal� tensile� values.�
�B.� The� Amount� of� Leverage� in� a� Crimping� Tool�
�Leverage� or� linkage� systems� could� be� devised� to� minimize� the� amount�
�of� crimp� compression� forces.� Archimedes’� old� adage� could� apply� here�
�wherein� he� says,� “Give� me� a� place� to� stand� and� to� rest� my� lever� on�
�and� I� can� move� the� Earth.”� From� a� practical� viewpoint,� however,� the�
�geometry� of� Class� I� tools� under� MIL-T-22520� are� specific� in� tool� length�
�and� width.�
�C.� Crimp� Depth� Required� for� Satisfactory� Results�
�Another� way� to� reduce� compression� forces� is� to� vary� crimp� depth.�
�MS� drawings� are� specific� in� designating� crimp� depths.� It� is�
�understandable� that� the� less� the� indenters� indent� the� lower� the�
�compression� forces� involved.� On� the� other� hand,� if� the� tool� does� not�
�indent� as� deeply� as� specified,� the� possibility� exists� that� sub-marginal�
�or� marginal� tensile� values� will� result.�
�D.� Contact� Hardness� and� Contact-Conductor� Combinations�
�Contact� material� is� definitely� a� factor� contributing� to� high�
�compression� forces.� Some� contacts� are� made� of� hard� material;� some�
�contacts� have� thick� walls� and� some� contacts� are� required� to� cover� a�
�range� of� conductors,� all� of� which� could� involve� high� crimping� forces.�
�It� is� felt� that� an� analysis� of� these� conditions� and� an� attempt� to� make�
�them� compatible� with� the� crimping� tool� could� facilitate� the� reduction�
�of� compression� forces.�
�As� can� be� seen� from� this� brief� review� of� crimping,� many� factors�
�influence� the� effectiveness� of� a� crimped� joint.� However,� a� good� crimping�
�tool� compensates� for� many� of� these� factors� by� providing� proper� crimp�
�depths,� resulting� in� termination� having� high� tensile� strength,� low�
�millivolt� drop,� and� minimum� contact� deformation.� With� the� use� of�
�a� well-engineered� tool,� crimping� becomes� one� of� the� most� reliable�
�methods� of� wire� termination.�
�FIG.� 3�
�Contact� Size�
�20� &� smaller�
�16�
�12�
�Contact� Deformation�
�.011� TIR�
�.012� TIR�
�.012� TIR�
�A� glossary� of� connector� terms� is� available� at� www.astrotool.com.�
�5�
�?� Copyright� 2008� Astro� Tool� Corp.� ,� 21615� SW� Tualatin� Valley� Highway,� Beaverton,� OR� 97006� ?� Tel:� (503)� 642-9853� ?� www.astrotool.com�
�相关PDF资料 |
PDF描述 |
|---|---|
| 615718 | TOOL POSITIONER |
| 615722 | POSITIONER FOR TOOL FRAME |
| 615724 | POSITIONER |
| 615725 | TOOL POSITIONER |
| 616336 | TOOL HAND CRIMP ADJUST 16-28AWG |
相关代理商/技术参数 |
参数描述 |
|---|---|
| 615717-3 | 功能描述:TOOL 制造商:astro tool corp 系列:- 零件状态:有效 工具类型:- 配套使用产品/相关产品:- 特性:- 标准包装:1 |
| 615717-4 | 功能描述:Hand Crimper Tool Side Entry, Ratchet 制造商:astro tool corp 系列:- 零件状态:有效 工具类型:手动压接器 配套使用产品/相关产品:- 特性:侧面插入,棘齿 标准包装:1 |
| 615718 | 功能描述:TOOL POSITIONER RoHS:否 类别:工具 >> 模具組 系列:- 标准包装:1 系列:* 其它名称:CRIMPFOX-RCI 6-1/DIECRIMPFOX-RCI6-1/DIE |
| 615719 | 制造商:Astro Tool Corp 功能描述:TOOL POSITIONER M22520/2-03 |
| 615719-000 | 制造商:TE Connectivity 功能描述:44A0311-24-09 - Cable Rools/Shrink Tubing |
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