Lifting or Rigging plan

2.起重设备能力校验the verification of the capacity of lifting equipment：吊车的位置position of crane(s)在下方画草图标示吊车位置，被吊物初始和最终的位置，以及吊装过程中吊车工作幅度的变化（注意：在规划吊车位置时，要充分考虑吊装现场的实际空间和被吊物的尺寸大小，以便有足够的工作幅度）make sketch(s) below to illustrate the position of crane(s), and the initial / final positions of the lifted equipment and the change of lifting radius during lifting (note: site space and size of lifted equipment shall be considered to plan the position(s) of crane(s) so as to ensure sufficient lifting radius is available.图1 Figure1吊车受力校验（注意：请使用所选型号吊车的负荷表，并将其附在本吊装方案之后）The verification of the capacity of crane(s) (Note: use the load chart of the crane to be used, and attached the load chart to this lift plan)吊车1 crane No 1规格/ 型号specification / model：QY70K承受的负荷load = 24.33T最大吊装半径时的参数（parameters when at the greatest working radius）工作幅度lifting radius = 6 m（按照最差情况考虑）吊臂长度length of boom = 15.7 m额定负荷rated capacity = 37 T承受的负荷/额定负荷load / rated capacity = 65.76%吊车2 crane No 2规格/ 型号specification / model：QY100K承受的负荷load = 29.74T最大工作幅度时的参数（parameters when at the greatest working radius）工作幅度lifting radius = 6 m吊臂长度length of boom = 17.2 m额定负荷rated capacity = 44 T承受的负荷/额定负荷load / rated capacity = 67.59 %吊索具受力校验The verification of the capacity of lifting accessories在下方画草图以说明吊索具的布置，绑扎方法并计算施加在每个吊索具上的负荷make sketch below to illustrate the arrangement and rigging method of lifting accessories and calculate load applied on each lifting accessory图2 Figure2每台吊车分别用四根直径32mm，8米长，安全载荷9.8吨的钢丝绳与底座两端的指定吊点相连，如图2所示。

Published in July 2011 by the Workplace Safety and Health Council in collaboration with the Ministry of Manpower.All rights reserved. This publication may not be reproduced or transmitted in any form or by any means, in whole or in part, without prior written permission. The information provided in this publication is accurate as at time of printing.All cases shared in this publication are meant for learning purposes only. The learning points for each case are not exhaustive and should not be taken to encapsulate all the responsibilities and obligations of the user of this publication under the law. The Workplace Safety and Health Council does not accept any liability or responsibility to any party for losses or damage arising from following this publication.This publication is available on theWorkplace Safety and Health Council Website: www.wshc.sgEmail: contact@wshc.sgYear of issue: 2011 First revision: 2014Contents1. Introduction and Background 22. Common Systematic Lapses Involving Lifting Activities 33. Roles and Responsibilities of Lifting Supervisors 44. Common Hazards Associated with Unsecured/ Slippage of Loads 55. Common Hazards Associated with Lifting OperationsInvolving Mobile Cranes 66. Lifting Plans 77. Risk Assessment and Permit-to-Work 88. Statutory Inspection of Lifting Equipment 109. Pre-use Inspection of Lifting Equipment 1110. Selection of Lifting Gears for Lifting Operations 1211. Estimation of Weight of Load 1312. Recommended Rigging and Slinging Methods 1513. Recommended Crane Signals 1814. Annex A: Sample Basic Lifting Plan 1915. Useful References 231. Introduction and BackgroundAccident statistics have shown that fatalities and dangerous occurrences 1 at workplace involving lifting equipment such as cranes has been on an uptrend over the last few years (see Chart 1). Such accidents include failures or toppling of heavy lifting equipment such as cranes during lifting activities, as well as workers being struck by falling or swinging objects while being lifted. From these statistics, there is still much to be done to improve our crane and lifting safety practices at our workplaces. The safe execution of lifting activities is a multi-party effort. Every stakeholder in the value chain (i.e., manufacturers, crane contractors, engineers and designers, project managers, lifting supervisors, operators and workers) has a stake in the lifting operation and must do their part to ensure the safe operation of the lifting work at all times.The role of the lifting team, which comprises the lifting supervisor, crane operator, rigger and signalman, is crucial to ensure safe lifting activities at workplaces. Many of these past accidents had shown that proper planning, co-ordination and supervision of the lifting work could have prevented the accidents and the needless loss of lives. In particular, the role of the lifting supervisor is key especially given the collaborative nature of the work and the importance of ensuring that the various parties are trained and competent, and that they carry out their roles safely and effectively. This Guidebook for Lifting Supervisors is developed to provide greater practical guidance for lifting supervisors to ensure safe supervision of lifting work at the workplace. The Guidebook not only provides guidelines on the roles and responsibilities but also information on common hazards associated with lifting, Lifting Plans, Risk Assessment (RA), Permit-to-Work (PTW) System and Safe Work Procedures (SWP), and recommended rigging and crane signals.Chart 1: Crane-related fatalities and dangerous occurences, 2007-2012.1Dangerous occurrences are incidents involving collapse or failure of a crane, derrick, winch, hoist, piling frame or other appliance used in raising or lowering persons or goods, or any load bearing part thereof (except breakage of chain or rope slings), or the overturning of a crane.2. Common Systemic Lapses Involving Lifting ActivitiesAccidents involving lifting activities occur due to many reasons. However, investigations into such accidents often reveal that the primary causes could be attributed to poor planning, supervision and co-ordination of the lifting operations. Effective implementation of a comprehensive Lifting Plan which comprises comprehensive RA, clear method statement/ SWP , use of suitable lifting equipment, competent lifting team, and PTW system will ensure safe lifting operations at all workplaces. The following is a list of common systemic lapses that often lead to accidents involving lifting activities.• Absence or lack of RA prior to lifting operation.• Lack of implementation of relevant control measures identified in RA.•Absence or lack of proper Lifting Plan for each lifting operation.• Absence or lack of a PTW system to manage the lifting operation.• Failure to adopt a proper rigging method for the lifting operation.• Poor maintenance of lifting equipment (e.g., safety devices, lifting gears).•Poor site control (e.g., failure to maintain a “safe exclusion zone” with barricades/ barriers so that workers not involved in the lifting operation are prohibited from entering the lifting area).3. Roles and Responsibilities of Lifting SupervisorsLifting supervisors appointed for tower or mobile cranes at the worksites must complete the Lifting Supervisors Safety Course conducted by an accredited training provider. They must also have relevant experience in lifting operations for at least one year.The duties and responsibilities of a lifting supervisor include:•co-ordinating and supervising all lifting activities in accordance with the Lifting Plan;•briefing all lifting team members (i.e., crane operators, riggers and signalmen) on the Lifting Plan, risk control measure and safe lifting procedure before the commencement of any lifting operation;•ensuring that only registered crane operators, appointed riggers and appointed signalmen participate in any lifting operation involving the use of mobile and tower cranes;•ensuring that the ground conditions are safe for any lifting operation to be performed by mobile cranes;•be present during all lifting operations; and•if unsafe conditions are reported to him, to take suitable measures to rectify the conditions so that the lifting operation can be conducted safely.Many accidents occurred due to unsecured loads or loads that slipped off during lifting. The following are some common hazards associated with lifting of loads:•defective or damaged lifting gears such as slings,hooks, inserts, eyes, shackles;•improper rigging of loads;•lack of proper receptacles for loose loads such asbricks; or•under capacity of lifting gears.4. Common Hazards Associated withUnsecured/ Slippage of LoadsFigure 1: Defective or damagedcrane hooks.5. Common Hazards Associated with Lifting Operations InvolvingMobile CranesAccidents involving mobile cranes are one of the more common types of crane-related incidents. Many accidents occurred due to either structural failure of the load bearing part of the crane or toppling or collapsing of cranes when they became unstable. The following are some common hazards associated with lifting operations involving mobile cranes.(a) Structural failure of crane component such as the boom, jib, hydraulic rams or wire ropedue to the crane being loaded beyond its loading capacity.(b) The stability of the cranes can be affected by:•poor ground conditions (e.g., unstable ground);•failure to use or fully extend outriggers or stabilisers;•failure to level the crane;•rapid derricking, slewing or manoeuvring;•overloading of cranes;•bypassing of safety devices; or•high wind conditions.(c) Contact or collision due to insufficient safe clearance space between mobile crane andother buildings or structures (e.g., other cranes, overhead power lines, etc).(d) Falling objects as a result of improper securing of loads during lifting operations, orduring erecting or dismantling activities. Falling objects present a risk of injury to workers and the public.The purpose of a Lifting Plan is to facilitate common understanding amongst the lifting team for a safe lifting operation. A typical basic Lifting Plan incorporated with PTW as shown in Annex A is recommended for use at the workplaces. It addresses some key factors affecting safe lifting operations such as:•details of the load;•details of the lifting equipment/ lifting gears used;•means of communications;•personnel involved in the lifting operation;•physical and environmental considerations;•sequence/ special precautions; and•sketch of the zone of operation.Lifting supervisors must brief the lifting team members, which typically consists of the crane operator, rigger and signalmen, on the Lifting Plan before commencement of any lifting operation. The lifting supervisor must stop the lifting operation immediately if it deviates from the Lifting Plan that has been approved by the project manager.6. Lifting Plans7. Risk Assessment and Permit-to-Work ArrayRisk assessment (RA) is the process of evaluating the probability and consequences of injuryor illness arising from exposure to an identified hazard, and determining the appropriate riskcontrol measures. The three basic steps of RA are:1) Hazard IdentificationIdentify the hazards associated with each work activity and the type of potential accidents/incidents that can result from the hazards. Some of the examples of hazards associated withlifting operations are poorly maintained wire ropes, defective safety devices of cranes, improperrigging methods, and so on.2) Risk EvaluationThe process of estimating the risk levels of the identified hazards in terms of the severity of anyinjuries/ damage if an accident were to occur and the likelihood of its occurrence. For example,the risk level of workers working underneath a suspended pre-cast component should beassessed as high risks as the consequences of the load dropping could result in killing theworkers underneath it.2) Risk ControlIdentify appropriate risk control measures to reduce the risk level to an acceptable level. Usingthe last example of a suspended pre-cast component, an appropriate risk control measurewould be the establishment of “safe exclusion zones” to prohibit workers from workingdirectly underneath a suspended load. The exclusion zone should also be demarcated toprevent any unauthorised entry.Permit-to-Work (PTW) System is a system to manage and control certain types of hazardouswork including lifting operations. The contractor’s supervisor co-ordinating the liftingoperation is to apply for the PTW to carry out the lifting operation. In the application for PTW,he should state the scope and conditions in which the lifting operation is to be carried out. Anindependent inspection is then conducted on-site to verify that appropriate control measureshave been taken to mitigate any foreseeable risks. After confirming that the measures haveindeed been taken, the application would then be approved by an authorised person (typicallythe project manager).Lifting supervisors must ensure that a permit is issued by the project manager before heinstructs the lifting team to carry out any lifting operation at the worksite. Table 1 illustrates atypical workflow for the application and approval of a PTW for a lifting operation.Table 1: Workflow for the application and approval of a permit for a lifting operation.8. Statutory Inspection ofLifting EquipmentUnder the WSH (General Provisions) Regulations, lifting equipment such as cranes, lifting appliances and lifting gears shall be inspected by an authorised examiner:•at least once every 12 months; or•at least once every six months for lifting equipment carrying persons.An authorised examiner must also be engaged to inspect the lifting equipment:•after modification or repairs of its load bearing components;•when there is a change in equipment configuration, such as alteration of the boom length or tower crane height; or•after an incident or accident involving the lifting equipment.9. Pre-use Inspection of Lifting Equipment Lifting supervisor must ensure that the crane operator conduct pre-use inspection before eachlifting operation to ensure that the equipment is suitable, safe and correctly installed for thelifting operation. The pre-use checks must include:•visual inspection of the lifting equipment;•functional test of the lifting equipment;•functional test of the safety system and devices; and•functional test of the emergency stop device.Lifting gears must also be inspected to ensure that they are free of any faults or defects before any lifting operation can begin.Lifting supervisor must not allow the lifting operation to be carried out if any defects are spotted during the pre-use checks by the crane operator until all the faults of the cranes are fully rectified. Similarly, lifting gears must not be used if defects are spotted and reported by the riggers.Factors affecting the choice of lifting gear for each lifting operation are:• weight and type of load;• available lifting points;•position of the centre of gravity of load;• mode of use (See Table 2 for a sample chart of Mode Factors which lists the appropriatetypes of sling and methods of securing loads to slings.); and •environment factors (e.g., wind speed conditions).10. Selection of Lifting Gears for Lifting OperationsTable 2: A sample Mode Factors chart.11. Estimation of Weight of LoadThe following may be used as a general guidance to estimate the weight of load going to be lifted in the lifting operation.• Check if the weight is marked on the load.• Check if the weight is indicated on any documentation (e.g., shipping documents).• Check if the weight is indicated on the construction drawing of the load.•If the load is still on a trailer or truck, weigh it physically over a bridge.• Estimate the weight using Table 3 or the formulae in Figure 2 (note that factors such assite conditions, water content, decomposition, irregular shapes and residues in vessels can affect the accuracy of load weight to be estimated).1,000 kgs = 1 tonTable 3: Average weight of various materials.Figure 2: Volumes of common shapes.12. Recommended Rigging andSlinging MethodsThe Included Angle of Slings• It is important to be aware of the increased loadings on the slings when lifting at larger included angles or smaller sling angles. For rigging configurations with two-legged slings, the included angle should not exceed 90° as this will reduce the SWL of the slings.• The slings must sit in the base of the hook and be clear of the latch to prevent fouling of the latch.Rig to the Centre of Gravity (C.G.)Figure 4: Good load control starts with rigging the load to the centre of gravity directly below the load hook.Figure 3: The working load limit is valid for a single leg or multiple legs.Hinge Points Chain SlingsFigure 5: Use a single master link for a single and two-legged chain slings.Figure 6: Use a master link with sub-links forthree- or four-legged chain slings. Hinge Points Wire Rope and Synthetic SlingsFigure 7: Use a single master link instead of placing wire rope slings directly on the load hook.Figure 8: Use a master link with sub-links forall three- or four-legged wire rope slings.Figure 9: Prevent fouling of safety latchon load. Sling in base of hook.Fouling of LatchFigure 10:Sling fouled on latch. Connection of Slings to ShacklesFigure 12: Use a shackle that is large enoughto prevent pinching of the synthetic slings. Figure 11: Use a shackle with diametergreater than wire rope diameter if there is nothimble in the eye.161713. Recommended Crane SignalsFigure 13: Recommended crane signals.14. Annex A: Sample Basic Lifting Plan Sample Basic Lifting Plan181920212223• Code of Practice on Safe Lifting Operation in the Workplace, First revision 2013.• SS536: 2008 Code of Practice for the Safe Use of Mobile Cranes.• SS559: 2010 Code of Practice for the Safe Use of Tower Cranes.• SS343 – Part 1: 2001 Specification for Lifting Gear – Wire Rope Slings.• SS343 – Part 2: 1989 Specification for Lifting Gear – Hooks.•SS343 – Part 3: 1990 Specification for Lifting Gear – Shackles.• SS497: 2002 Specification for Design, Safe Use and Maintenance of Overhead Travelling Cranes.• Lifting Equipment - A User’s Pocket Guide published by LEEA, UK.• The Lifting Engineers Handbook published by LEEA, UK.• Best Rigging Practices by Crosby Group Inc.• Worker’s Safety Handbook for Crane Operator, 2011.• Worker’s Safety Handbook for Rigger and Signalman, 2011.•Worker’s Safety Handbook for Lorry Crane Operator, 2012.15. Useful ReferencesNote:1. This is only a sample Lifting Plan, the content is by no means comprehensive. Users would have toinclude key critical document and information such as load capacity chart, range diagram, rigging method, sling angle, etc to ensure safe lifting operations. 2. Further guidance can be obtained from the following collaterals:• Guidebook for Lifting Supervisors • Worker’s Handbook for Crane Operator •Worker’s Handbook for Rigger and SignalmanThis page is meant to be blank This page is meant to be blank2425This page is meant to be blank26。

1-877-MAX-LIFTGTC-20001-877-MAX-LIFTMarch 2022. Unless otherwise specified, all information in this brochure refers to a standard crane equipment, and it is intended as general information only. No liability is assumed. Errors reserved. Product specifications and prices are subject to changes without notice. The p hotographs and/or drawings in this brochure are for illustrative purposes only. For correct and safe crane operation, the original operating manual and lifting capacity charts are essential. Failure to follow the corresponding Operator’s Manual when using our equipment or f ailure to otherwise act responsibly may result in property damage, serious injury or death. The sole warranty applicable with respect to oure quipment is the standard warranty as per general terms and conditions of sales and service (ask your local Tadano dealer for details), and Tadano makes no other warranty, express or implied. All rights reserved. Any use of the trademarks, logos, brand names and model names used herein is prohibited.© Tadano Ltd. 20222 | GTC-2000Contents7 Specifications (8)9 Transportation...............................................................................................................................10-12 Transport variants .. (13)15 Speeds and gradeability (16)Main boom (17)Slewing (17)Hoist (17)Hook Blocks (17)HA: Main boom .............................................................................................................................18-53 HAV: Folding swing-away jib ..............................................................................................................54-121 HAV-HY: Hydraulic swing-away jib .......................................................................................................122-188 Notes to Lifting Capacity . (189)191 Basic machine ..............................................................................................................................192-193 Optional Equipment (non-exhaustive) . (194)GTC-2000| 34 | GTC-2000 CounterweightT rackR adiusM ain boomF olding swing-away jibH ydraulic swing-away jibR oll/list angleW ind speed in ft /s (feet per second)T rack shoeH ook blockH oist 1H oist 2T ravel speedG radeabilityS lewingB oom telescoping B oom elevationW orking speedsM ax. line pull R ope diameter R ope length H ook block (capacity-sheaves-rope diameter) N umber of lines P ossible load of hook block N umber of sheaves in boom head D istance head sheave axle – hook ground W eight of hook blockGTC-2000 | 5T rack leftT rack rightE xtension beamB ase craneC entral ballastT ruck pay loadC ounterweight base plateC ounterweight plateA ssembly weightT ransport variantHighlights196.9 ft pinned boom; 16.4 ft to 75.5 ft jib (tiltable from 0° to 36°)Lifting capacities up to 4° roll/list angle, all …Pick & Carry“, jib capacities up to 1° roll/list angle Double hook operation with rooster sheave or jibPowerful hoists with 1.02 in. rope (30,640 lb pull / 456 ft/min. speed)Powerful, robust and versatile undercarriage with smart and comprehensive access concept Fully self rigging operationRemote control for all rigging and operating functionsBest in class traction force (326,000 lbf)6 | GTC-2000Specifications8 | GTC-2000Transportation* 107,990 lb with Hyd Jib / 107,660 lb with Mech Jib10 | GTC-2000GTC-2000| 1140,800 lb*12 | GTC-2000* Hydraulic version1,010 lb1,900 lb 1,040 lb 1,650 lb / 1,980 lb*5,070 lb16,540 lb16,540 lb1 x 11,025 lb4 x 22,050 lb** 2-bar shoeGTC-2000| 13Notes14 | GTC-200016 | GTC-2000GTC-2000 | 17* Heavy lift sheave required** Heavy lift sheave and 7 sheaves hook block requiredHook BlocksSlewing1,6 rpm18 | GTC-2000+ 33,100 lb**Heavy lift sheave and 7 sheaves hook block required*** Max. crane capacity – with additional special equipment**** over front/rear1)C apacities with horizontal boomGTC-2000| 19+ 33,100 lb126.0 ft20 | GTC-2000+ 33,100 lb**Heavy lift sheave and 7 sheaves hook block required 1)C apacities with horizontal boom+ 33,100 lb126.0 ft+ 33,100 lb**Heavy lift sheave and 7 sheaves hook block required 1)C apacities with horizontal boom+ 33,100 lb126.0 ft+ 33,100 lb**Heavy lift sheave and 7 sheaves hook block required 1)C apacities with horizontal boom+ 33,100 lb126.0 ft+ 33,100 lb**Heavy lift sheave and 7 sheaves hook block required 1)C apacities with horizontal boom+ 33,100 lb126.0 ft+ 33,100 lb1)C apacities with horizontal boom+ 33,100 lb+ 33,100 lb**Heavy lift sheave and 7 sheaves hook block required 1)C apacities with horizontal boom+ 33,100 lb126.0 ft+ 33,100 lb1)C apacities with horizontal boom+ 33,100 lb126.0 ft+ 33,100 lb1)C apacities with horizontal boom+ 33,100 lb126.0 ft+ 33,100 lb1)C apacities with horizontal boom+ 33,100 lb126.0 ft+ 33,100 lb1)C apacities with horizontal boom+ 33,100 lb126.0 ft+ 33,100 lb+ 33,100 lb+ 33,100 lb+ 33,100 lb126.0 ft+ 33,100 lb+ 33,100 lb126.0 ft+ 33,100 lb+ 33,100 lb126.0 ft+ 33,100 lb+ 33,100 lb126.0 ft。

16.2、Lifting plan吊装方案I、Generals of Work工程概况There are 248 sets of equipment with different weights. Lifting of large equipments concerned is mainly concentrated in Production Building B, Mixing Pots T-202, T-210 are the heaviest equipments, with monomer weight of 27 tons. 120T Truck Crane Model ATF 120-5 shall be employed. 100T, 50T, 25T cranes may be used according to different volumes and weights respectively and forklift and chain blocks plus roller bars will also be used to locate equipment in place. The manufacturer shall be responsible for transporting equipment to the site of Ecolab Taicang Jade Project. The authorized party shall be responsible for mobilization of vehicle and personnel and coordination and communication with the Owner at site. We will pay highly attention to construction and get organized elaborately, arranged thoughtfully, work done carefully to ensure the lifting of equipment in place without any risks.本项目共有设备248台，设备重量不等，涉及的大型设备吊装主要集中在生产车间B，其中以混合釜T-202、T210为最重，单重为27吨。

叠合板的吊装流程及注意要点英文回答：Lifting and installing plywood panels can be a tricky process that requires careful planning and coordination. There are several key steps and important points to consider to ensure a safe and successful installation.First and foremost, it is crucial to assess the weight and size of the plywood panels to determine the appropriate lifting equipment needed. This may include cranes, forklifts, or other machinery capable of handling heavy loads. It is important to ensure that the equipment is in good working condition and properly certified for the job.Next, the area where the plywood panels will be installed should be carefully inspected to ensure it is clear of any obstacles or hazards that could interfere with the lifting process. This may involve clearing debris, securing loose objects, and ensuring there is enough spacefor the equipment to maneuver.Before lifting the plywood panels, it is essential to properly secure them with the appropriate lifting straps or chains. This will help distribute the weight evenly and prevent the panels from shifting or falling during the lifting process. It is also important to double-check the connections and ensure they are secure before lifting.During the lifting process, clear communication is key. The team members involved in the operation should establish clear signals and protocols to ensure everyone is on the same page. This may include using hand signals, radios, or other communication devices to coordinate the lifting process effectively.Once the plywood panels are in position, it is important to secure them properly to prevent any accidents or injuries. This may involve using braces, clamps, or other securing devices to ensure the panels are stable and secure.In conclusion, the key to a successful plywood panel installation is careful planning, coordination, and attention to detail. By following these steps and paying attention to the important points mentioned above, you can ensure a safe and successful installation process.中文回答：吊装和安装胶合板可能是一个棘手的过程，需要仔细的规划和协调。

三角架吊装施工工艺流程英文回答：Triangular truss lifting construction process involves several steps to ensure safe and efficient installation. Here is a detailed explanation of the process:1. Preparations: Before starting the lifting process, it is important to conduct a thorough site inspection and assessment. This includes checking the ground conditions, ensuring proper clearance for the truss, and verifying the weight and dimensions of the truss. Additionally, all necessary equipment should be prepared, such as cranes, slings, and rigging tools.2. Rigging: Rigging is a crucial step in the lifting process. It involves attaching the slings or rigging hardware to the truss in a way that distributes the load evenly. The rigging should be carefully planned to avoid any stress concentration points and ensure stability duringthe lift.3. Lifting: Once the rigging is properly set up, the lifting operation can begin. The crane operator shouldfollow the lifting plan and make sure to lift the truss slowly and steadily. Communication between the crane operator and the ground crew is essential to ensure a smooth and safe lift.4. Positioning: After the truss is lifted to thedesired height, it needs to be accurately positioned. This requires precise coordination between the crane operatorand the ground crew. The truss should be aligned with the designated installation points and securely fastened in place.5. Securing: Once the truss is properly positioned, it needs to be secured to prevent any movement or displacement. This can be done by using bolts, clamps, or other appropriate fastening methods. It is important to ensurethat the truss is securely attached to the supporting structure to avoid any potential hazards.6. Inspection: After the truss is installed, a thorough inspection should be conducted to ensure that everything is in order. This includes checking for any signs of damage or stress, verifying the alignment and stability of the truss, and confirming that all connections are secure.Triangular truss lifting construction process involves careful preparations, rigging, lifting, positioning, securing, and inspection. By following these steps, the installation of triangular trusses can be carried outsafely and efficiently.中文回答：三角架吊装施工的工艺流程包括几个步骤，以确保安全高效地进行安装。

大型设备吊装方案英文版1. IntroductionThe heavy equipment lifting plan is an essential part of any large-scale construction or industrial project. It involves the safe and efficient lifting and installation of heavy machinery and equipment. This document provides an overview of the key components and considerations in developing a comprehensive lifting plan for large-scale equipment.2. ScopeThis document applies to the lifting and installation of heavy equipment in industrial and construction settings. It covers various types of equipment, including but not limited to cranes, hoists, and rigging equipment.3. Key Considerations3.1 Equipment SelectionSelecting the appropriate lifting equipment is crucial for the safe and efficient execution of the lifting plan. Factors that should be considered include:•Capacity and load limits of the equipment•Reach and height requirements•Environmental factors (e.g., weather conditions)•Availability and accessibility of suitable equipment3.2 Site SurveyA thorough site survey is necessary to identify any potential obstacles or hazards that may impact the lifting operation. This includes:•Assessing the condition and load-bearing capacity of the ground•Identifying overhead obstructions, such as power lines or structures•Evaluating the accessibility of the site for the lifting equipment3.3 Rigging PlanA well-planned rigging arrangement is crucial to ensure the safe and secure lifting of the equipment. The rigging plan should consider:•Selection of appropriate rigging equipment, such as slings, shackles, and spreader bars•Distribution of the load and center of gravity•Consideration of the equipment’s shape, weight, and lifting points3.4 Lift PlanningThe lift planning phase involves the detailed execution of the lifting operation. Key considerations during this phase include:•Determination of the lifting sequence and order•Calculation of the required lifting capacity for the equipment•Reviewing and verifying the lifting plan by a qualified engineer or lifting specialist4. ExecutionThe execution of the lifting plan should follow the predetermined procedures and safety protocols. Key steps during the execution phase include:1.Pre-lift meeting: Conduct a meeting with all personnel involved toreview the lifting plan, roles, and responsibilities, and to address any last-minute concerns.2.Equipment inspection: Perform a thorough inspection of all liftingequipment, ensuring that they are in proper working condition and meet allsafety requirements.3.Establish communication: Maintain effective communication betweenall personnel involved in the lifting operation, including crane operators,riggers, and supervisors.4.Load testing: Before lifting the equipment, perform appropriate loadtests to ensure that the lifting equipment can handle the intended load safely.5.Lifting operation: Execute the lifting plan, following all necessarysafety precautions and protocols.6.Post-lift inspection: Upon completion of the lifting operation, conducta post-lift inspection to ensure that all equipment is properly secured and thatthe site is safe for further operations.5. ConclusionDeveloping a comprehensive lifting plan for large-scale equipment is critical to ensure the safety and efficiency of lifting operations. This document has provided an overview of key considerations, including equipment selection, site survey, rigging plan, lift planning, and execution. By following these guidelines and adhering to all necessary safety protocols, organizations can minimize the risks associated with heavy equipment lifting and ensure successful project execution.。

起重机吊枕木的流程英文回答：The process of lifting a timber with a crane involves several important steps to ensure safety and efficiency.1. Planning and Preparation: Before the lifting operation begins, it is essential to carefully plan and prepare for the task. This includes assessing the weight and dimensions of the timber, as well as the working environment and any potential obstacles or hazards.2. Selecting the Right Equipment: The next step is to select the appropriate crane and rigging equipment for the job. The crane must have the necessary lifting capacity and reach to safely lift and maneuver the timber into place.3. Rigging the Load: Once the crane is in position, the load must be properly rigged. This involves attachingslings or chains to the timber in a way that evenlydistributes the weight and prevents it from shifting during the lift.4. Lifting the Timber: With the load properly rigged, the crane operator can begin the lifting process. It is crucial for the operator to communicate effectively withthe rigging crew and ensure a smooth and controlled lift.5. Maneuvering and Placing the Timber: Once the timberis lifted to the desired height, the crane operator will carefully maneuver it into position and lower it into place. This requires precision and coordination to ensure the timber is placed accurately and securely.6. Inspecting and Securing: After the timber is in place, a thorough inspection should be conducted to ensureit is secure and stable. This may involve using additional support or bracing to prevent any movement or shifting.7. Post-Operation Evaluation: Once the liftingoperation is complete, it is important to evaluate theentire process to identify any potential improvements orlessons learned for future lifts.中文回答：起重机吊枕木的流程包括以下几个重要步骤，以确保安全和高效。

卸船吊装方案英文版范文Ship Unloading and Lifting Plan.1. Introduction.The ship unloading and lifting operation is a crucial process in any logistics or industrial setting where materials, equipment, or goods need to be efficiently transferred from ships to land. This plan outlines the procedures, equipment, and personnel required to safely and efficiently execute this task, while adhering to industry best practices and safety regulations.2. Equipment and Resources.The following equipment and resources will be utilized for the unloading and lifting operation:Cranes: Heavy-duty cranes with a lifting capacity appropriate for the weight and size of the items beingunloaded.Slings and Rigging: High-quality synthetic or steel slings, depending on the material being handled, andrigging equipment to secure the load during lifting.Safety Equipment: Personal protective equipment (PPE) such as helmets, gloves, and safety shoes for the operators. Additionally, fall arrest systems and emergency rescue equipment should be available.Docking Facilities: Secure docking systems to ensure a stable platform for unloading.Staff: Trained operators for the cranes and lifting equipment, as well as safety personnel to monitor the operation.3. Operational Procedures.The unloading and lifting operation will follow these steps:Docking and Preparation: The ship will be docked securely at the designated berth. The cranes and lifting equipment will be inspected to ensure they are in good working condition. The operators will be briefed on the plan and safety procedures.Loading Inspection: Before unloading, a thorough inspection of the cargo will be conducted to identify any potential hazards or issues.Attaching the Slings: Appropriate slings will be attached to the cargo, ensuring a secure and balanced lift. The slings will be inspected for damage or wear before use.Lifting and Transferring: The cranes will then be used to carefully lift the cargo, avoiding any collisions or abrupt movements. The load will be transferred to a safe landing area or to the transport vehicle, depending on the requirements.Monitoring and Supervision: Throughout the operation,safety personnel will monitor the progress and ensure all safety protocols are being followed. Any issues or hazards will be immediately addressed.Post-Operation Checks: After the unloading is complete, a final inspection will be conducted to ensure all equipment is in good condition and no damage has occurred.4. Safety Considerations.Safety is paramount during the unloading and lifting operation. The following safety measures will be implemented:All operators must wear appropriate PPE at all times.Regular inspections of the cranes, slings, and other lifting equipment will be conducted to ensure their reliability.Strict adherence to load limits and weight capacities will be enforced.Operators must be trained and certified for the operation of cranes and lifting equipment.Emergency rescue plans and equipment will be ready in case of any accidents or incidents.5. Conclusion.The ship unloading and lifting plan outlines a comprehensive approach to safely and efficiently transferring cargo from ships to land. By adhering to this plan, utilizing appropriate equipment and resources, and prioritizing safety, we can ensure a smooth and incident-free operation. Regular training, inspections, and updates to the plan will further enhance its effectiveness and adaptability to changing requirements and conditions.。

剪力墙外墙板的吊装操作流程英文回答：Preparation for Handling and Erection.1. Site preparation: Clear the site of obstacles and ensure adequate space for the erection of scaffolding and other equipment.2. Scaffolding and support: Install scaffolding and supports as per the design specifications and ensure stability and safety.3. Material receiving and inspection: Receive and inspect the precast wall panels to verify their quality, dimensions, and reinforcement.4. Panel storage: Store the panels on level ground, protected from moisture and damage, until they are ready for erection.Lifting and Erection.1. Lifting equipment: Select suitable lifting equipment, such as a crane or hoist, based on the weight and size of the panels.2. Rigging: Attach rigging to the lifting points of the panels, ensuring proper balance and load distribution.3. Lifting: Lift the panel vertically and carefully, avoiding any sudden movements or impacts.4. Positioning: Guide the panel into its designated position, aligning it precisely with the adjacent panelsand supporting structure.5. Temporary bracing: Install temporary bracing to support the panel during the erection process and prevent any lateral movement.Grouting and Jointing.1. Joint preparation: Clean and prepare the joints between the panels to ensure a secure bond.2. Grouting: Inject grout into the joints using a grout pump or bag, ensuring proper fill and avoiding any voids.3. Curing: Allow the grout to cure according to the manufacturer's instructions, protecting it from drying out or excessive heat.Finishing and Inspection.1. Finishing: Seal the joints and perform any necessary surface finishing, as per the design specifications.2. Inspection: Thoroughly inspect the erected panels to ensure their alignment, joint integrity, and overall stability.3. Documentation: Document the erection process, including any deviations from the design or specifications,for future reference.中文回答：预制墙板吊装操作流程。

悬吊作业施工方案及流程英文回答：Suspension work refers to the process of lifting and supporting heavy objects or equipment using suspension systems. This type of work is commonly seen in construction sites, industrial settings, and other situations where heavy loads need to be lifted or moved.The construction plan and process for suspension work typically involve several key steps. First, a thorough assessment of the load and the surrounding environment is conducted to determine the appropriate suspension system to be used. This assessment considers factors such as the weight and dimensions of the load, the available space, and any potential hazards or obstacles.Once the appropriate suspension system is determined, the necessary equipment and materials are prepared. This may include cranes, hoists, ropes, chains, and otherlifting devices. The equipment is inspected to ensure its safety and proper functioning before the work begins.Next, the area where the suspension work will take place is prepared. This may involve clearing the area of any obstructions, ensuring a stable and level surface, and setting up any necessary safety barriers or signs.Before the actual lifting operation, a detailed plan is developed to ensure the safe and efficient execution of the suspension work. This plan includes considerations for load capacity, lifting angles, rigging techniques, and communication protocols among the workers involved.During the lifting operation, strict safety measures are followed to prevent accidents and injuries. This includes the use of personal protective equipment, proper communication between the workers, and continuous monitoring of the load and the suspension system.Once the load is successfully lifted and suspended, it is securely fastened or supported to prevent any unintendedmovement or instability. This may involve the use of additional support structures, such as beams or frames, to ensure the load remains in place.After the suspension work is completed, a thorough inspection of the suspension system and the surrounding area is conducted to ensure everything is in proper order. Any equipment or materials used are properly stored and maintained for future use.In summary, the process for suspension work involves assessing the load and environment, preparing the necessary equipment, planning the lifting operation, executing thelift with strict safety measures, securing the load, and conducting post-work inspections. This systematic approach ensures the safe and efficient completion of suspension work.中文回答：悬吊作业是指使用悬挂系统将重物或设备进行举起和支撑的过程。