螺柱焊机使用说明书

泰勒螺柱焊接系统有限公司SIK2-H电容放电式全自动螺柱焊枪操作说明书GUIDE VERSION 2L目录页码内容3 总则5 简介6 总体布局7 焊接步骤8 安全11 焊枪分解图及零部件列表 22 设备调节24 焊接速度25 跟换螺柱直径27 更换夹头28 夹头类型30 螺柱进料软管31 更换推杆32 推杆类型32 顶端传感器33 焊接质量34 故障诊断38 EC合格证制造厂家英国泰勒螺柱焊接系统有限公司地址：COMMERCIAL ROADDEWSBURYWEST YORKSHIREWF13 2BDENGLAND电话: +44 (0)1924 452123传真: +44 (0)1924 430059邮箱: ***************************技术支持电话: +44 (0)1924 487703销售电话: +44 (0)1924 487701说明书用途本说明书适用于 :☞焊接系统设备操作用.☞本焊接系统终端客户安装、操作人员用。

本说明书提供以下技术指导 :☞安装及联接☞系统操作☞技术参数☞零部件☞附件更详尽信息如需更详尽资料请直接联系我们（详见第1页）或致电当地技术支持（可致电我司查询分销商及代理商联系方式）本说明书包含一些重要信息，是操作者安全使用本焊接系统的必备品。

系统操作人员必须要完全掌握本说明书的使用方法。

为安全起见，本说明书应放置于操作人员随时可取之处。

系统销售或转让时必须随机配备本说明书，并请立即告知我司购机者地址、姓名以便我司能及时联系确保设备安全。

系统安装前请仔细阅读本说明书。

请严格遵守安全操作指导。

简介设备说明电容放电式螺柱焊接设备结构轻盈、便于携带，特别适合于较小直径的螺柱焊接，可将碳钢及不锈钢螺柱在较薄的金属板、抛光或预涂材料的工件上进行焊接，绝大多数情况下几乎不留焊接痕迹。

该设备由一台控制电源，一把全自动焊枪，以及一些必备的焊接电缆组成。

工艺电容放电式螺柱焊接是一种利用电容放电产生的能量进行焊接的一种焊接工艺。

编制：审核：批准：本文件自二 0XX 年 X 月 XX 日起实施一、范围本指导书规定了耐候钢伸缩装置螺柱焊焊接的要求、方法、工艺参数及检验等。

本指导书合用于耐候钢伸缩装置螺柱焊焊接，其它产品的螺柱焊接可参照执行。

二、目的指导操作工人采用螺柱焊接机焊接无砟轨梁铁路伸缩装置严格按照指导书进行操作，保证各个栓钉与型钢焊接符合设计要求。

三、焊接方法与步骤1)合上电箱上的总开关。

2)按动焊机开机钮，等待一分钟，观察焊机是否正常。

3)焊枪不装栓钉，空枪试一下，观察提升时间等控制是否正常，正常后即可试焊。

4)试焊实验件合格后，即可正式工作。

所用焊钉瓷环应符合国家标准，并烘干等，确保施工质量。

5)将型钢放在焊接工作平台上，清洁焊接表面。

清洁面积应大于焊接用瓷环覆盖面积；6)根据栓钉直径，将电流按钮旋至相应的φ值、时间按钮进行相应调节。

7)将栓钉装到夹头上(要夹紧和插到位)，将瓷环套到栓钉上，并推至压板的下面，栓钉高于瓷环牙口 5~8mm，与工件焊接位置接触。

8)按动焊枪上焊接开关，焊枪自动向上吸起，栓钉缩回瓷环内部6~7mm，焊枪与工件起弧燃烧形成熔池。

9)焊接时间结束后，焊枪将栓钉压入熔池部份，铁水填满瓷环空处形成焊脚。

10)拔出焊枪，焊缝凝固后敲掉瓷环，栓钉焊接完毕。

11)关机：按一下焊机上的关机钮，焊机关机后拉掉电箱里与本设备所接开关。

四、焊接工艺参数以下是低碳钢焊钉的经验参数，可根据实际情况进行调节。

普通焊接规格伸出长度 mm 提伸高度 mm 焊接电流 A 焊接时间 S φ10 4 1.5 570~590 0.70φ12 4~52~3800 0.60φ13 5~64~51000 0.70φ16 5~65~61200 0.90φ19 5~66~81400 1.20φ 22 5~78~91720 1.25φ 25 5~78~92150 1.30五、安全注意事项(1)人身安全①为了焊工及他人人身安全，焊接操作者必须取得《螺柱焊接操作证》后才干进行焊接工作，并严格遵守《焊工安全操作规程》。

螺柱焊机操作规范简介螺柱焊机是一种金属连接设备，能够将两个金属螺柱或螺母连接起来。

本文档旨在提供给操作者一份螺柱焊机操作规范手册，以确保操作者的安全和设备的正常运行。

操作规范1. 设备检查在使用螺柱焊机前，需要进行以下检查：•确认设备接地可靠；•确认气源是否正常连接；•确认电源线是否连接牢固；•确认设备外表面干净，无损伤。

2. 保护装备在进行操作期间，需要佩戴以下安全防护装备：•绝缘手套；•护目镜；•耳塞。

3. 设备开启在进行操作前，需要先开启设备：•首先开启气源；•接着按下电源开关；•设备指示灯亮起后，即表示设备已开启。

4. 预热在使用设备前，需要先进行预热处理。

将设备加热至适当温度，即可进行操作。

5. 焊接操作以下是螺柱焊机的操作步骤：1.将两个需要连接的螺柱或螺母放在设备上的工作台上;2.调节设备上用于固定螺柱或螺母的装置，并确保其紧固;3.将设备上的挤压杆移至需要连接的螺柱或螺母处;4.当挤压杆与螺柱或螺母接触后，按下启动开关进行焊接;5.等待焊接时间，当设备发出“滴滴滴”声后，即表示焊接完成;6.将焊接好的螺柱或螺母从设备中取出，进行质量检测。

6. 关闭设备当完成操作后，需要关闭设备：•首先按下电源开关；•然后关闭气源。

7. 设备维护在使用设备后，需要进行以下维护：•对设备外表面进行清洁；•对设备内部进行清洁；•检查电线、气源管路的连接是否松动；•定期更换设备内部使用的部件。

注意事项•在操作设备时需要遵循安全操作规范，务必佩戴必要的安全防护装备以确保操作者的安全。

•并非所有的螺柱或螺母都可使用螺柱焊机连接，需要遵循设备规定的螺纹尺寸和材质等要求。

•在清洁设备时，需要先关闭气源和电源。

•在更换设备内部部件时，需要遵循设备规定的更换周期。

结论螺柱焊机是一种较为安全的设备，但需要遵循设备相关的操作规范和安全注意事项。

操作者需要保证在安全的环境下进行操作，以防止意外事故的发生。

对设备的维护和保养，也是确保设备正常运行和延长设备使用寿命的关键。

Operating ManualKÖCO Compact Stud Welding EquipmentELOTOP8021002170220023002KÖCO Stud Welding GunsCLASSICSK 12K 22K 22-DK 24K 26This operating manual has the part-no. 399-0212-000Declaration of Conformity ECProducer:Köster & Co. GmbHSpreeler Weg 32EnnepetalD-58256Designation of Product: Stud welding equipment series ELOTOP 802 to 3002 withstud welding gun series CLASSIC SK 12 to K 26The above mentioned equipment complies with the requirements of the following directives:Directive 98/37/EC relating to machineryDirective 73/23/EEC amended by 93/68 relating to electrical equipment designed for use within certain voltage limitsDirective 89/336/EEC amended by 91/263/EEC, 92/31/EEC and 93/68/EEC relating to electromagnetic com-patibilityThe above mentioned products observes the following European Standards and therefore compliy with the above mentioned directives:EN 60 204-1 “Electrical equipment of machines“EN 60 974-1 “Safety requirements of arc welding equipment“EN 50 199 “Electromagnetic compatibility - Product standard for arc welding equipment“Köster & Co. GmbHSpreeler Weg 32D-58256 EnnepetalEnnepetal, 2002-04-02SignatureTable of ContentsOperating Manual KÖCO Compact Stud Welding Equipment ELOTOP 802 1002 1702 2002 3002 1 KÖCO Stud Welding Guns CLASSIC SK 12 K 22 K 22-D K 24 K 26 1 Declaration of Conformity EC 2 Table of Contents 3 1Introduction 5 1.1Information for the User 5 1.2Safety Instructions 51.2.1Personal Safety 51.2.2Operational Safety of the Equipment 61.2.3Safety When Working 6 2Drawn Arc Stud Welding 8 2.1Technical Data on ELOTOP Power Sources 9 2.2The Power Source 10 2.3The Welding Gun 10 2.4Technical Data on Stud Welding Guns CLASSIC 11 2.5Setting Guidelines for welding with ceramic ferrule or shielding gas 12 2.6Setting guidelines for short cycle stud welding without weld pool protection or with shielding gas 13 2.7Material requirements 13 3Working with the stud welding equipment 14 3.1Requirements before starting-up 14 3.2Starting-up of the welding gun 14 3.3Starting-up of the Power Source 16 3.4Selecting of settings 16 3.5Welding 17 3.6Weld Testing 17 3.7Maintenance of the Welding Power Source 19 3.8Maintenance of the Welding Gun 19 3.9Maintenance of Welding and Control Cables 19 3.10Shutting-Down 19 4Remedies for Malfunctions 20 4.1Error signals of the Power Source 20 4.2Other Malfunctions 21 5Pictures of the Power Sources ELOTOP 23 6Spare Parts for Welding Power Sources ELOTOP 29 7Pictures of Stud Welding Guns CLASSIC 318Spare Parts for Stud Welding Guns CLASSIC 35 8.1Spare parts list gun SK 12 35 8.2Spare parts list guns K 22, K 22-D, K 24, K 26 36 9Pictures of Cables 38 10Cable Spare Part List 39 11Schematic Circuit Diagrams 40 12Accessories 46 12.1Gun accessories for stud welding guns K 22 to K 26 46 12.2Gun accessories for Gun SK 12 59 13Literature 631 IntroductionDear User,With the KÖCO Stud Welding Equipment ELOTOP you have purchased an appliance of superior quality. It has been constructed according to latest technical principles and complies with all technical regulations and re-quirements in force at the time of delivery. To achieve trouble-free operation at all times we recommend that you observe the following instructions:Before starting-up carefully read through the complete manual and make sure that anyone on your staff handling or operating the appliance has also read and understood the instructions.The safety instructions must be followed at all times.Store this manual in a safe place, with easy access for anyone operating the appliance.Secure the machine against use by unauthorized persons.The appliance may only be operated by sufficiently qualified personnel.Have a trained electrician inspect the mains connection for correct fusing and earthing.if any malfunctions occur which you cannot remedy yourself, call our after-sales service.In case of accidents call for proper medical help, and if necessary, notify accident insurers and/or local trade supervision authorities.1.1 Information for the UserThe manual for your KÖCO stud welding equipment ELOTOP and the KÖCO stud welding guns CLASSIC con-tains any necessary instruction to the equipment, for safe carrying-out of stud welding operations and their as-sessment. All information supplied is given to the best of our knowledge, but without accepting any liability on our part. In particular, we cannot accept any responsibility for welding suitability of workpieces, nor for the suit-ability of the stud welding process for certain applications. In all of these cases reponsibility for welding results rests with the user.We shall be glad to assist you with any questions you may have concerning particular applications or remedies for malfunctions. Any suggestions on your part towards improving this operating manual will also be welcome.Instructions1.2 SafetyThe KÖCO stud welding equipment ELOTOP and the KÖCO stud welding gun CLASSIC is designed for use in drawn-arc stud welding only. It must not be used for any other purpose, with the exception of manual electrode welding, and then only if the appliance is equipped for this purpose. In particular, welding under water is strictly prohibited, nor is it permissible under any circumstances to use the appliance for thawing up frozen water pipes.1.2.1 PersonalSafetyKÖCO stud welding equipment ELOTOP and the KÖCO stud welding guns CLASSIC are approved for welding under increased electrically hazardous conditions, according to DIN EN 60974-1. For his own safety, the opera-tor must wear protective clothing during welding, which includes the following:Dry, insulating shoesNon-flammable, close-fitting working clothes (5) (leather apron)Leather glovesSafety goggles with an adequate degree of protectionA special helmet with neck protection while engaged in overhead weldingNo metallic jewellery (rings, chains, etc.) nor watches may be worn during welding.During the welding process, persons wearing heart pace-makers must be kept at a safe distance from the appliance and the welding cables, because the strong magnetic fields could endanger their lives.In addition to the above, all normal accident prevention regulations must be observed.1.2.2 Operational Safety of the EquipmentFor the mains connection only a suitable mains plug or a fixed mains connection may be used. The installation of a fixed mains connection (including fitting of the mains plug) may only be carried out by a trained electrician.All cable insulation must be in perfect condition. Cables with defective insulation must be replaced im-mediately. Welding cables may carry high currents. At points subject to bending, for example where the ca-ble enters the handle of the welding gun, there is always a risk of the cross-section being gradually reduced due to breakage of individual wires. When subjected to a high pulsed current, a cable thus weakened may suddenly arc over and burn out. This means a risk of burns to the operator, and of inflammable objects nearby being ignited.All parts of the housing must be firmly attached. Operation with an open housing is not permissible, because then there is no protection against touching live parts, and effective ventilation is also prevented.The insulating wheels (casters) must be in perfect condition. If these casters are removed in order to install the equipment in a fixed position, alternative insulation must be provided between the workpiece and the housing. If an electric connection between the workpiece and the housing exists during welding, this may, in case of malfunction, destroy the protective earth-line of the equipment.The interior of the appliance must be kept clean. Especially when working in dusty surroundings, dust will collect on parts of the equipment. Therefore, the housing should be opened at regular intervals (only af-ter first disconnecting the mains plug) and the dust blown out. This is vital in the case of metallic dust, be-cause it can lead to short circuits and thus cause damage to the components. Do not aim the jet of air at any pc boards, but remove the dust from these with a vacuum cleaner.Sufficient cooling. The cooling air is taken in at the bottom and blown out at the rear side. Provide suffi-cient facilities of air ventilation. Do not cover the ventilation openings.The welding gun must be in perfect condition. All connections in the welding circuit must be tight. Make sure that the chuck is firmly seated on the adapter screw and that the stud is firmly seated in the chuck.Otherwise contact scorching may result. Do not operate the gun without rear cap. For adequate protection against welding splashes and smoke the bellows protection must always seal perfectly.Electrical safety: Before opening the appliance always disconnect it from power supply by pulling out the mains plug, making sure that it is not possible to switch it on unintentionally. Prevent moisture or foreign substances from entering the power source. If this happens, the appliance must immediately be discon-nected from the mains power supply. The appliance should also be inspected by a qualified specialist at regular intervals, especially following any malfunction. Make sure that all markings remain visible!1.2.3 Safety When WorkingDo not operate the equipment in areas of fire or explosion danger. Remove all inflammable objects from the surroundings!Keep in mind that welding splashes are likely to ignite inflammable objects, for example cleaning rags soaked with oil, grease or solvent, or packing materials, even at several metres’ distance!In case of doubt check with the security officer in charge and obtain his release before commencing work! Make sure that the operating site has sufficient ventilation!Do not weld without air extraction on any workpieces which may release substances dangerous to health, such as coating materials, zinc, nickel, chromium or cadmium!Do not carry out welding on hollow objects which contain, or have contained, inflammable liquids or gases, or which are under pressure, or inside which a dangerous level of pressure can be generated by welding heat!The heat generated by welding may lead to the release of gases or vapours which are dangerous to health or even explosive. Specialized knowledge is required for this kind of work. Do not carry out such operations unless you possess the necessary knowledge!Keep at a safe distance from any equipment which might be affected by magnetic fields, such as EDP in-stallations (computers), cards with magnetic strips, or timepieces (wrist-watches)Do not weld on the same workpiece (welding potential) simultaneously with other types of welding ma-chines, especially those working with different poles or frequency (alternating current), or welding equipment with high voltage ignition, because this can adversely affect or damage the control unit of the stud welding appliance.Ensure that a flawless safe welding circuit is generated. The earthing cables should be firmly clamped onto the workpiece. If this is not possible or not desirable, make sure that there are no parts in contact with the welding circuit which can be damaged or destroyed by the welding current, such as crane hooks, rolling bearings, clamps with layers of partly insulating material, screws or rivets. Especially dangerous is the de-struction of protective conductors in other electric appliances when they come into contact with the welding current.Whenever the appliance must be placed on sloping ground, secure it against tipping over or rolling downhill. For transporting the equipment, use only the parts specially provided for this purpose. When lifting it by crane, this must be done by using the crane lug. Before attaching it, make sure that the nuts are properly tightened. The handles of the appliance are not designed for transporting it by crane.2 Drawn Arc Stud WeldingDrawn-arc stud welding is used for the welding of metallic parts, generally of cylindrical shape, onto metallic workpieces. For this purpose, a DC power source and a mobile device, the welding gun, are required. Depend-ing on the type of welding-pool protection and welding time range used, the appropriate process may be stud welding with a ceramic ferrule, stud welding with with shielding gas, or short-cycle stud welding, either with or without shielding gas.The welding procedure is illustrated below: Figure 1: Drawn-arc stud welding procedure Explanation:A: Stud welding with ceramic ferruleF: Ceramic ferruleP: ProtrusionL: LiftA 1:The stud contacts the workpiece.A 2: The stud is lifted off under current flow and thus the arc ignited.A 3: The drawn arc melts the tip of the stud and the portion of the workpiece di-rectly beneath it. At the end of welding time the stud is pressed (plunged) into the molten part of the workpiece.A 4: The melt solidifies, resulting in a firm cross-sectional weld. The ceramic ferrule is then removed.B: Stud welding with shielding gas. (B 1 equivalent to A 1)S: Shielding gas supplyC: Short-cycle stud welding with or without shielding gas (C 1 equivalent to A 1)T. Supporting tube2.1 Technical Data on ELOTOP Power SourcesTechnical data 802 1002 1702 2002 3002Stud welding with ceramic ferruleWeldable stud range Ø (mm)3 - 12 3 - 14 3 Ð 20 3 - 22 6 - 25 Short-cycle stud weldingWeldable stud range Ø (mm)3 - 8 3 - 10 3 - 12 3 - 12 6 - 12 Stud welding with shielding gas Weld-able stud range Ø (mm)3 - 10 3 - 12 3 - 16 3 - 16 3 - 16 Max. Current (A) 800 1100 1800 2300 3500 Stepless current adjustment range, (A) 50 - 750 150 - 1000150 - 1600 300 - 2000 300 - 2600 Stepless time adjustment range (ms) 20 - 600 20 - 1000 20 - 1500 20 - 1500 20 - 2000Max. weld rate in studs/min. for ... stud Ø (mm) 32/ 33/ 1249/ 34/ 1450/ 32/ 2052/ 34/ 2250/ 66/ 25Input voltage, three-phase 50/60 Hz (V) 230/400 230/400 230/400 230/400 230/400 Alternative input voltages (V) Option Option Option Option OptionMains plug 400 V (A) 32 32 63 63 /125 1) 125 Mains cable 4-pole, 400 V (m/mm²) 5/4 5/4 5/10 5/16 5/16 Max. extension cable permissible tomains connection (400 V mains, cross-section identical to mains extensioncable) 2)50 40 40 30 30 Time-lag fuse for 230/400 V (A) 35/25 50/35 100/63 160/80 200/125Input performance at ...% ED (kVA) 1,4/3,2/10055/38/7 2,5/7/10073/43/122,25/9/100121/59/172,5/7/100156/93/258/13/100187/145/52Max. welding cable length under given current (A) with given cross-section 2)600 / 25 mat 70 mm²800 / 30 mat 70 mm²1200 / 40m at 70mm²1600 / 40 mat 95 mm²2000 / 50 mat 120 mm²Input voltage tolerance (%) -15/+6 -15/+6 -15/+6 -15/+6 -15/+6 Class of protection IP 23 IP 23 IP 23 IP 23 IP 23 Cooling F F F F 3) F3)Housing dimensions (L x W x H) mm 530x305x350 600x325x370700x415x460805x430x530960x610x625Weight (app. kg) 50 87 160 185 355 Operating under increased electrical hazard permissible, CE-labelling according to EN 60974-11) According to customer’s choice2) The permissible max. lengths of extensions to mains and welding cables may be extended for welding under lower currents than the current given. For mains voltages below 400 V, the mains cable cross-section must be increased proportionately (i.e. by the factor 1.73 for a 230 V input). In case of low current input it may not be possible to use maximum lengths for both mains and welding cable extensions.3) Noise level: 72 db(A)2.2 The Power SourceThe power source consists of a 3-phase transformer, a fully controlled thyristor bridge with constant current control, a choke connected in series, and an electronic control. The standard setting of the appliance is for an input of 400 V (3-phase). Setting for 230 V (3-phase) input can be effected through adjusting the links on the terminal board of the main transformer. Power sources for alternative voltages are also available. How to adjust the appliance to other input voltages is shown on a sticker attached to the terminal board and illustrated in the wiring diagram. All ELOTOP power source models can be supplied with alternative nominal voltages.Nominal output of the equipment can still be reached with an undervoltage of up to minus 10%. However, de-pending on circumstances, it may become necessary to shorten the extension cables, to prevent exceeding the capacity of the constant current control. If the input voltage drops below minus 15%, the appliance can no longer be operated.Because the load-voltage may be considerably lower than the no-load-voltage, especially in case of a weak power supply, in a case of doubt a voltage measuring should be carried out during the welding procedure. When welding with 400 V input, the primary current is approximately 10% of the welding current.Example: welding current 1600 A = primary current abt. 160 A.The mains must be capable of supplying this primary current with minimum fluctuation to voltage. Since the flow of current is only short (max. 1,5 sec) mains fuses of considerably reduced rating may be used, provided, of course, that they operate with sufficient time-lag. Quick acting fuses (including safety cut-out switches) may prevent operation of the appliance.Fuses with lower ratings than indicated under table 2.1 may be used if less than the full capacity of the power source is required in operation.If a mains plug with a lower rating is chosen, for example 63 A instead of 125 A, only mains fuses with a maxi-mum rating equal to that of the mains plug may be used, in this case 63 A. The mains connection cable must have a cross-section sufficiently large to ensure that undervoltage is kept within the margin of tolerance. All cable cross-sections and mains fuses must comply with technical regulations and requirements of electricity suppliers.An overvoltage of 15% should not be exceeded, since otherwise iron losses in the transformer will cause over-heating.2.3 The Welding GunIn drawn-arc stud welding the welding gun is used to generate the arc between stud and workpiece, and to unite the two welding pools at the end of welding time.There is a choice of two different concepts. The guns K 22 to K 26 have an automatic length adjustment facility, i.e. maintenance of the pre-selected lift is guaranteed independent of protrusion, variation of stud lengths within normal tolerance and minor deviations from the vertical position of studs in relation to the workpiece. However in case of very short welding cycles (below 100 ms) the necessary coupling does not react fast enough. Therefore we recommend the SK 12 gun without length adjustment specially for short-cycle stud welding. It should be used for studs with only very minor variations in length and when constant conditions for the positioning of the welding gun apply.In stud welding, lift and protrusion are important parameters. In most cases they can be selected to fit stud di-ameters, according to figure 2. The position of the weld or the kind of surface on the workpiece may necessitate some adjustments. In such cases, optimal settings should be obtained through test welds.The length of lift is the vital factor in determining the form of metal melting at the tip of the stud. In case of major deviation from optimal values, cavities may form in the welding pool. Moreover, if the lift is too small, an in-crease in the number of droplet short circuits will destabilize the welding process. The protrusion (see figure 4) will determine the form of the welding collar around the welded stud. In some cases, especially when welding onto a vertical wall, settings other than those listed may be selected. If the plunge is too shallow, this will lead topores and undercuts in the weld zone. If it is too deep, the welding pool will splash out to the side or upwards with the risk of blockage to the downward movement of the stud. The setting of protrusion is described in sec-tion 3.2.8.For studs above 14 mm the plunging movement should be damped. This is achieved through adjustable plunge damping. (For settings refer to Section 3.2.11).2.4 Technical Data on Stud Welding Guns CLASSICTechnical Data SK 12 K 22 K 22-D K 24 K 26Stud welding with ceramic ferruleWeldable stud range Ø (mm) 1) 4 - 12 4 - 14 4 – 19 13 - 22 13 - 25Short cycle stud weldingWeldable stud range Ø (mm) 3 - 12 6 - 12 -- -- Stud welding with shielding gasWeldable stud range Ø (mm) 3 - 12 3 - 16 -- -- Adjustable hydraulic damping of piston,for studs from abt. 14 mm Ø -Lifting ring system with length adjustment - Adjustment of stud length variations up to ... (mm) - 8 8 8 8Standard support by ... legs 2 2 2 2 3Lifting range from...to (mm) app. 1 - 3 1 - 4,5 1 - 4,52,5 - 6 2,5 - 6Input voltage of lifting coil (V=) 60 - 90 60 - 9075 - 90 75 -90 75 - 90 Welding cable (m/mm²) 5/35 2/50 2/50 2/95 2/120 Welding cable plug (mm²) 35 50/70 50/70 95 120Control cable plug 4-poleControl cable (m/mm²) 5/4x1,0 2/4x1,02/4x1,0 2/4x1,0 2/4x1,0 Length (excluding chuck) (mm) 200 175 175 250 300Body diam. app. (mm) 50 60 60 60 63Height (including handle) (mm) 150 165 165 220 240Weight (excluding connection cables) app. (kg) 0,8 1,3 1,3 1,4 2,6= Standard = optional − = not available1) For very high performance welding and large stud diameters we recommend a larger type of gun. In case of doubt please consult the maker or a sales representative for details.2.5 Setting Guidelines for welding with ceramic ferrule or shielding gasThe settings given in figure 2 have been tested for welds on clean metallic surfaces and standard type studs in downhand position. The decisive parameter is the actual diameter at the welding end of the stud, not the nominal diameter. Under different conditions (other welding position, or oily, scaly or primer-coated surfaces) the optimal settings must be determined by test welds. With difficult surfaces, it may be necessary to considera-bly increase lift and welding time, and to reduce the welding current. When welding in a horizontal position, it is recommended to select higher current, protrusion and plunging speed than the given settings, and at the same time shorter cycles and lift. Please note that at the lower end of the welding range of large appliances it may be necessary to select values higher than those listed in the chart. This is caused by the relatively long phase for building up the current, which means that for a considerable part of the welding cycle the peak current is not yetreached. This must be compensated by lengthening the welding cycle or selecting a highter current.Figure 2: Parameters for current, time, lift, protrusion and dampingThe plunge speed is adjusted by setting the damping of the piston. In case of studs with less than app. 10 mm Ø guns without damper (SK 12 or K 22) should be used, or the damper should be removed (refer to 3.2.11). If the correct damper setting is selected, only very few splashes will occur during plunge, and an even welding collar without undercuts will be formed.Before starting a series of welds, test welds according to DIN EN ISO 14555 should be carried out. For details refer to DVS-leaflet 0902.Explanation: P: protrusion, L: lift, Ø: stud di-ameter, I: current, t: time, v: plunging speed2.6 Setting guidelines for short cycle stud welding without weld poolprotection or with shielding gasShort cycle stud welding is used where it is desirable to keep the penetration on thin workpieces as shallow as possible, normally with studs ranging from M 3 to M 12 (FD type flanged studs according to DIN EN ISO 13918). If the outward appearance of welding collars is not important, protection of the welding pool can be omitted. However, in that case a current of at least app. 100 x the nominal diameter of the stud should be selected, i.e. in case of a M 8 stud the power source should have a minimum output of 800 A. Basically, the current should be as high and the time as short as possible.If the time is extended beyond a certain measure to allow for a weak power source, this will result in uneven, porous welding collars.Welding with shielding gas will result in flawless welding collars and few pores in the welding zone. Acceptable results can also be obtained with longer welding times and lower currents. For welding steel or stainless steel the use of a gas mixture M 21 (82% Ar, 18% CO2) according to EN 439 is recommended.In short cycle stud welding the settings depend not only on the stud diameter, but also on the thickness of the workpiece and the caliber of the gun. In the DVS-leaflet 0904 a table of setting guidelines is given. In principle, one should always start by selecting the highest current and the shortest welding time possible on the power source, and then adjust the settings after some test welds.2.7 MaterialrequirementsIn principle, all materials suitable for fusion welding are also suitable for drawn arc stud welding. However, for some sensitive varieties of steel there is a certain risk that they may harden and become brittle by the quick heating and cooling processes involved. If two different materials are welded together (for example carbon steel with stainless steel) a new alloy will result which may be resistant to further shaping. Because of the short weld-ing time, clean surfaces are essential for good welding results. For further details refer to literature (refer to section 13). So-called “free cutting” steels are generally not suitable for stud welding. In practice, the following combinations have proved satisfactory:Chart 1: Recommended material combinations for drawn arc stud weldingParent metalsStud material Non-alloy steels up to app. 0,24% C,for example S235, S355, 16Mo3 Stainless Austenite steels, such as 1.4301, 1.4401, 1.4541, 1.4571Non-alloy steels up to app. 0,18% C, e.g. S235, 4.8, 16Mo3 Suitable, including for force transfer For stud welding with ceramic ferruleonly limited suitablity for force transferFor short cycle stud welding wellsuitedStainless Austenite steels, such as 1.4301, 1.4401, 1.4541, 1.4571 For stud welding with ceramic ferruleonly limited suitability for force trans-ferwell suited for up to 10 mm Ø withshielding gasFor short cycle stud welding wellsuitedSuitable, including for force transfer 1)1) In fully austenite steels attention should be paid to the relatively high risk of hot cracks.In addition to the material combinations listed above, heat- and scale-resistant studs may also be welded, in special cases also aluminium studs. For material combinations not previously tested, welding suitability must be determined through appropriate test welds. (For further details, refer to section 13, literature).3 Working with the stud welding equipment3.1 Requirements before starting-up1. Ensure adequate power supply, according to instructions under section2.2.2. The power connection must be earthed according to regulations.3. The housing of the welding power source must not have any electrical contact with the workpiece. Makesure that the insulating wheels (casters) are in perfect condition!4. Make sure that the welding power souce is standing firm in a vibration-free, dry area!5. Make sure that there is sufficient cooling! The circulation of air must not be restricted in any way.6. Operating the equipment in a fire or explosion danger area is prohibited. In case of doubt obtain a releasefor the welding operation from the security officer in charge.7. Keep a safe distance from any objects which may be affected by strong magnetic fields, such as EDP instal-lations! Make sure that persons wearing a heart pace-maker do not come close to the welding cables!8. Shielding gas bottles must be secured against falling over.3.2 Starting-up of the welding gun1. Screw the desired chuck on to the adapter screw of the gun, slightly tightening it with a wrench .2. Using the counter-sink screws and washers supplied, attach the two legs to the desired footplate. Initially,do not tighten the screws.3. Insert the desired ceramic ferrule grip (when welding with a ceramic ferrule) or the supporting tube (in caseof short cycle welding or welding with shielding gas) into the footpiece, pushing it to the stop. Secure the ce-ramic ferrule grip or the supporting tube with the screws at the sides of the footplate.4. Insert a suitable stud into the chuck, pushing it up to the stop.5. Slide the footplate with the legs in the damping guides of the gun, so that the tip of the stud reaches ap-proximately the same height as the ceramic ferrule grip or the supporting tube.6. Move the footpiece until the stud is centrally seated in the bore of the ceramic ferrule grip or the supportingtube (see figure 3).Then tighten the counter-sink screws of the footplate. Figure 3: Centering of the footplate Explanation: A: Correct center-ing of the footplateB: Inaccurate cen-tering of the foot-plate will cause blockage of the plunging move-ment of the stud.。

PLEASE READ THIS GUIDE CAREFULLY BEFORE INSTALLING OR OPERATING THE CONTROLLER.PLEASE OBSERVE CAREFULLY ALL SAFETY PROCEDURES/INSTRUCTIONS.DUE TO THE POWER REQUIREMENTS AND ELECTROMAGNETIC EMISSIONS PRODUCED DURING NORMAL USE, THIS MACHINE MUST ONLY BE OPERATED IN AN INDUSTRIAL ENVIRONMENT.THIS MACHINE OPERATES FROM A MAINS SUPPLY OF 380/415V AC @ 50/60 HzNEVER REMOVE ANY PORTION OF THE UNIT HOUSING WITHOUT FIRST ISOLATING THE CONTROLLER FROM THE MAINS ELECTRICAL SUPPLY.NEVER OBSTRUCT THE UNDERSIDE, FRONT OR REAR PANELS AS THIS MAY CAUSE THE UNIT TO OVERHEAT DURING OPERATION.DO NOT USE THIS WELDING POWER SOURCE FOR PIPE THAWING.THIS EQUIPMENT HAS BEEN EMC TESTED AND APPROVED IN ACCORDANCE WITH BS EN 60974‐10 (CATEGORY 2).本设备已按照安装设备前，请仔细阅读本说明书。

请严格遵守本安全操作说明书。

由于电力要求及电磁辐射的缘故，本设备必须在工业环境中使用。

本设备电压为未切断电源前，不得拆解外壳任一部件。

RSR －1200、1600、2500电容放电螺柱焊机使用说明书(请在安装、使用、维护前认真阅读此说明书)成都华远电器设备有限公司四川华远焊接系统有限公司认证取得 华 远 焊 机用户安全提示：华远焊机的所有焊接和切割设备在设计上已充分顾及用户的安全和舒适，尽管如此，如果您能正确地安装和使用该设备对您的安全仍将大有助益，在没有认真阅读说明书之前，请不要随意安装、使用或对设备进行维修。

购买日期：序列编号：焊机型号：购买地点：保护自己和他人免受电弧辐射和灼伤，避免小孩进入危险区，施焊人员应有权威机构出具的健康证明自动焊机；直流焊机。

在自动和半自动焊机上，焊丝盘、送丝轮、导电嘴、焊接机头等都是带电部件。

工作之前提醒他人，以免他人在未戴防护工具之前被弧光意外伤害。

体产生化学反应而产生光气，这是一种剧毒性物质。

有些焊接用的保护气体可能会置换空气中的氧气，从而危害健康或导致死亡仔细阅读供货商的使用说明，验证其消耗材料的材质健康证明，以确保无毒、无害。

当焊接工作区内使用了高压气体时，应采取特殊措施防止其爆炸发生。

当停止焊接时，应防止带电部分接触工件或工作平台，以免意外打火造成火灾不要试图焊接未经证实无害的容器和管道。

在容器，大型箱体的人孔处进行焊接、加热、切割是危险的，应在作业之前确保焊接处没有有毒性气体或可燃性气体。

飞溅有可能灼伤皮肤，佩戴皮质手套，帆布服装，高帮皮鞋，无翻边工作裤，防飞溅工作帽等确保气瓶的安装是在靠墙并用锁链铐紧。

气瓶应放置在免受撞击和无震动的工作区，并远离焊接工作区。

严禁焊把钳或焊接电缆触及气瓶。

在安装减压流量计或汽气表时，应避免面向气瓶。

在不工作时，气阀应关紧。

士认真安装。

机壳有明显的：（适用于引擎驱动的焊接和切割设备）在通风良好的场合或户外使用勿在明火附近加油，勿在焊接时或引擎发动时加油，熄火时应使引擎冷却以后在加不要将手放置在风扇附近，不要在设备运行时拨动刹车柄。

⏹为了避免设备在维护时被意外启动，维护前应除去引擎与焊接设备的连线。

泰勒螺柱焊接系统有限公司CD-M8,M9,M10电容放电式螺柱焊机 使用说明书目录页码内容3 总则5 简介7 外部特征9 安全12 设置 & 焊接16 焊接设设定23 螺柱定位方法24 焊接评估/测试25 控制器零件列表 & 部件分解图26 - 部件装配分解图27 - 前面板28 - 电容器组合32 - 底板35 线路图 - 标准接触式型号36 - 提升间隙式型号37 - CNC 型号38 符合标准声明制造厂家详细资料泰勒螺柱焊接系统有限公司Taylor Studwelding Systems LtdCommercial RoadDewsbury, West Yorkshire, WF13 2BD, England.电话： +44（0）1924 452123 请把我们添加到您的联系人传真： +44（0）1924 430059电子邮件： ***************************技术部电话： +44（0）1924 487703销售部电话： +44（0）1924 487701英国泰勒螺柱焊机大中华区客户服务中心:泰勒螺柱焊接系统（上海）有限公司电话: 800 820 8499 或138****6865邮箱: ****************************.cn泰勒中文网址:泰勒服务微信二维码 泰勒微信公众号本说明书的用途与内容本说明书用于：☞焊机操作工操作之用。

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本说明书内容包括：☞安装与连接☞操作使用☞技术数据☞备品备件☞配件详细信息如果你需要更多的技术信息，请与我们（详见第3页）或我们当地的代理商/经销商联系。

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操作人员必须能够查阅本说明书。

出于安全考虑，操作人员应能随时查看本说明书。

如果本设备被售出或转让，请将本说明书一道转至新用户。

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