INITIALIZATION Knowledgebase: ki-dev-large Base Query: "Who is the customer? Who is the end customer? Where is the installation location of the system (location, end customer's factory, building)? What is the hall height of the factory or building in which the system is to be installed? Sales Manager: Who is the responsible FLT Sales Manager for this customer? No explanation, please just the table Table title: Customer, End customer, Installation location, Hall height (without mentioning the other definitions), Sales Manager" Model: gemini-1.5-pro-preview-0409 Use Curl?: ================================================== **Elapsed Time: 0.00 seconds** ================================================== ROUTING Query type: list ================================================== **Elapsed Time: 1.66 seconds** ================================================== RAG PARAMETERS Max Context To Include: 100 Lowest Score to Consider: 0.1 ================================================== **Elapsed Time: 0.00 seconds** ================================================== VECTOR SEARCH ALGORITHM TO USE Use MMR search?: True Use Similarity search?: False ================================================== **Elapsed Time: 0.10 seconds** ================================================== VECTOR SEARCH DONE ================================================== **Elapsed Time: 6.31 seconds** ================================================== PRIMER Primer: You are Simon, a highly intelligent personal assistant in a system called KIOS. You are a chatbot that can read knowledgebases through the "CONTEXT" that is included in the user's chat message. Your role is to act as an expert at summarization and analysis. In your responses to enterprise users, prioritize clarity, trustworthiness, and appropriate formality. Be honest by admitting when a topic falls outside your scope of knowledge, and suggest alternative avenues for obtaining information when necessary. Make effective use of chat history to avoid redundancy and enhance response relevance, continuously adapting to integrate all necessary details in your interactions. Use as much tokens as possible to provide a detailed response. ================================================== **Elapsed Time: 0.19 seconds** ================================================== FINAL QUERY Final Query: CONTEXT: ########## File: dictionary.txt Page: 1 Context: Definitionen: - Antworten Sie nur mit einer Gemeinde für Kundenstandort. Geben Sie in der Adresse keine zusätzlichen Details wie Fabrik, Gebäude, Werk usw. an. - Alle großen Automobilhersteller (Mercedes-Benz, Porsche, Audi, Volkswagen, MAN usw.) Kundentyp: OEM - Es muss zwischen Endkunden und dem Kunden unterschieden werden. Der Endkunde beschreibt den Auftragsgeber wo die Automationlösung verbleibt. Der Kunde ist der direkte Auftraggeber. Vorschriften vom Endkunden haben eine höhere Gewichtung. Endkunde und Kunde können, müssen aber nicht gleich sein. - Für den geschätzten Gesamtumsatz runden Sie auf die nächste Million (MEUR) auf. - Technische Anforderungen sind als Auflistung anzugeben. - Die Automationsinhalte sind als Funktionseinhalten darzustellen. Funktionsinhalte beschreiben die einzelnen Funktionen im gesamten Produktionsablauf. #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: and the supply pipeline is arranged on the upper chord of the roof truss (at a floor elevation of 7.5m). The main return pipeline adopts a centralized gravity return method and is overhead arranged on both sides of the lower chord column of workshop roof truss (according to the floor elevation of 6.5-7m). The coolant return tank (container) of the machine is equipped with a return impurity pump and a liquid level control device. It is equipped with a low liquid level (the chip pump stops working), a high liquid level (the chip pump starts starting), and an ultra-high alarm liquid level (the inlet electric control valve is closed, and an alarm is triggered at the same time). It is interlocked with the machine to ensure that the coolant does not overflow and to avoid the return impurity pump running empty. The bottom of the return tank is designed to be conical. The coolant and chips are directly sent to the main return pipeline of the coolant through the upper discharge pipeline by the return impurity pump. The switching on and off of the coolant supply and discharge of the machine is independently controlled by the machine itself. Install a 1m pipeline and connecting flange (one pair) at the coolant supply point of the machine. The liquid supply pipeline requires manual valves and electric control valves (with manual valves on top and electric control valves on bottom), and the height of the manual valves should be as convenient for manual operation as possible. The liquid supply requires a flow meter and pressure sensor to be equipped, so that the main control panel of the machine can monitor whether the liquid supply flow and pressure meet the requirements. The drainage pipe of the machine is also equipped with a 1m pipeline and a pair of connecting flanges. The drainage pipeline requires manual valves and electric control valves (with manual valves on top and electric control valves on bottom), and the height of the manual valves should be as convenient for manual operation as possible. A pressure gauge is required for drainage. The return tank should be easy to maintain and clean. In addition, the selection of the return impurity pump should match the conveying capacity of the machine's chips and coolant mixture, as well as the elevation of the return main pipeline. When designing the machines, it is necessary to consider delaying the supply and return of coolant for a period of time after the machining is completed (the return delay should be slightly greater than the supply delay), so that when the machine stops working completely, the remaining coolant and chips in the return tank (container) can be emptied as much as possible. The coolant control system is provided by the owner. The bidder must confirm with the coolant control system contractor or owner the technical parameters of the coolant supply and return pipes and return impurity pumps for the machine. The bidder shall provide equipment related interface parameters and positions in the bidding documents, including but not limited to the parameters and positions of the inlet interface, return tank (container), return impurity pump, and return interface. The return tank is required to be installed on the ground. | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | 10.1.17 Quotation for packaging and transportation | | 10.1.18 售后服务费用 | 10.1.18 Quotation for after sales service | | 10.1.19 技术资料费 | 10.1.19 Quotation for technical data | | 10.1.20 伴产服务费 | 10.1.20 Quotation for accompanying production service | | 10.1.21 分别以FOB与CIF报价 | 10.1.21 Quotation for FOB and CIF trade tems separately | | 10.1.22 保险费 | 10.1.22 Quotation for Insurance | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | Bias/deviation: <10%, acceptance evaluation comply with the standard IATF16949. | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | 7.3 Personnel training | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | 3.11.1 设备为Absolent或Keller或德国Camfil(原handte)品牌产品(管路除外)。设备采用高效离心风机,通过管道系统连接机床吸风口,使机床端内腔形成一定负压,通过风阀调节,合理分配每台机床所需风量,从而实现源头将含油雾颗粒的污染空气有效收集抽吸入过滤设备中,通过深层“自清式” 过滤滤芯实现高效捕捉油雾颗粒同时快速释放,滴落至底部回液箱内的液体,由自动回液泵系统将液体泵送至机床冷却液系统,过滤后的空气完全符合排放标准要求。 | 3.11.1 3.11.1 The equipment brand is Absolute or Keller or Camfil (formerly Handte, Germany) (excluding pipelines). The equipment adopts an efficient centrifugal fan, which is connected to the suction port of the machine through a pipeline system, forming a certain negative pressure in the inner cavity of the machine end. Through the adjustment of the air valve, the required air volume for each machine is reasonably distributed, so as to effectively collect and inhale the polluted air containing oil mist particles from the source into the filtering equipment. Efficient capture of oil mist particles and rapid release through deep self-cleaning filter elements. The liquid that drips into the bottom return tank is sent to the machine coolant system by the automatic return pump. The filtered air fully meets the requirements of the emission standards. | | 3.11.2 过滤原理采用三级滤芯过滤方式,第一级和第二级采用复合纤维自清过滤滤芯,第三级使用活性炭过滤,以保证过滤器后空气符合室外及室内排放要求。 | 3.11.2 Three-stage filter element filtration, the first and second stages are composite fiber self-cleaning filter elements, and the third stage is activated carbon filtration to ensure that the filtered air meets outdoor and indoor emission requirements. | | 3.11.3 每级滤芯配置检测口,可进行空气颗粒浓度检测,能随时检测并验证过滤效率。 | 3.11.3 Each stage of filter element is equipped with a detection port, which can detect the concentration of air particles and verify the filtration efficiency at any time. | | 3.11.4 过滤器不配滤芯反冲洗装置,避免产生二次污染。 | 3.11.4 The filter is not equipped with a filter backwash device to avoid secondary pollution. | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | i) The color of the protective mesh is dark black, with the color code "RAL9005". | | j) 钢结构颜色为灰白色,色标号为“RAL9002”。 | j) The color of the steel structure is gray white, with the color code "RAL9002". | | k) 刀具架颜色为灰白色,色标号为“RAL9002”。 | k) The color of the tool bracket is gray white, with the color code "RAL9002". | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | e. 所有的伺服轴和控制模块的选择必须满足工艺加工的要求,必须留有充分的裕量,必须是数字式的,反馈器件选用绝对编码器或绝对光栅(光栅尺要安装在防护罩内,避免切削液滴落其上造成损失)。 光栅尺品牌标准参照或相当于HEIDENHAIN、 BALLUFF、SICK等国际一流知名品牌产品。数控轴原点要做标记,提供原点检棒,以备原点调整。 | e. The selection of all servo axes and control modules must meet the process requirements, leave sufficient margin, and be digital type. The feedback component should use the absolute encoder or absolute grating scale (the grating scale should be installed inside the protective cover to avoid loss caused by the coolant dripping on it). The grating scale shall be the product of HEIDENHAIN, BALLUFF, SICK or equivalent international first-class brand. The origin of CNC axis needs to be marked, and an origin test bar should be provided for origin adjustment. | | f. 对PLC的输入和输出端必须预留10%的裕量,编程接口不能占用。电柜内线号与图纸的页码相关联,元器件的编号与页码相关联。 | f. The input and output terminals of PLC must have 10% margin reserved and cannot occupy programming interfaces. The wire numbers inside the electrical cabinet are associated with the page numbers of the drawings, and the component numbers are associated with the page numbers. | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | 6.3.7 Measurement station design scheme, including position setting, detection content, and detection fixture scheme. | | 6.3.8 零件输送方案(工序间及工序内)。 | 6.3.8 Workpiece conveying scheme (between different processes and within the same process). | | 6.3.9 冷却液及切屑供排和集中吸雾系统设计方案。 | 6.3.9 Design scheme for coolant and chips supply/discharge system and centralized mist suction system. | | 6.3.10 设备静态精度检测内容和要求确认。 | 6.3.10 Confirmation of equipment static accuracy testing content and requirements | | 6.3.11 项目进度表。 | 6.3.11 Project Schedule | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | 7.1.1.8 预验收期间设备使用的辅助材料由投标方提供。如果在德国有售并符合投标方要求,切削液品牌和型号同业主现有切削液系统相同。 | 7.1.1.8 The auxiliary materials used for the equipment during the pre-acceptance period shall be provided by the bidder. If available for purchase in Germany and meets the bidder's requirements, the brand and model of the coolant should be the same as the existing coolant system of the owner. | | 7.1.1.9 上述预验收内容合格视为预验收完成。 | 7.1.1.9 After the above content is qualified, it shall be deemed as completion of the pre-acceptance. | | 7.1.1.10 投标方负责将预验收用全部试件进行防锈处理及单独包装,并与设备一起发运到业主现场。 | 7.1.1.10 The bidder is responsible for rust prevention treatment of all test pieces used for the pre-acceptance, separate packaging and shipping them together with the equipment to the owner's factory. | | 7.1.2 设备终验收 | 7.1.2 Equipment final acceptance | | 7.1.2.1 设备的终验收在业主现场进行。业主负责设备粗就位,投标方负责安装、调试,设备安装、调试后必须连续空运转24小时无故障后,按投标方出厂标准对静态精度进行验收。 | 7.1.2.1 The final acceptance shall be carried out in the owner's factory. The owner is responsible for rough positioning of the equipment, and the bidder is responsible for the installation and commissioning of the equipment. After 24 hours of continuous dry run without any faults, the static accuracy shall be accepted according to the bidder's delivery standards. | | 7.1.2.2 按“3.10机床在线检测系统要求”,对在线检测系统的功能、精度等进行验收。 | 7.1.2.2 According to "3.10 Requirements for online detection system of the machines", perform acceptance on the functions, accuracy, etc. of the online testing system. | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | 2.9 The indicator signs and buttons (including the soft keys on the touch screen for general operations) on the control panel, and the indicator signs on the electrical, hydraulic, pneumatic, and lubrication system should be made in Imitation Song typeface Chinese, and the text size is determined based on the actual usage position to ensure clear recognition. | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | Max. height from the upper edge to the operating platform: 2500mm | | 内部接线及安装:见电柜要求 | Internal wiring and installation: refer to the requirements of the electrical cabinet | | 标牌:见标牌电柜要求 | Label: refer to lables requirements of the cabinet | | 4.2 夹具 | 4.2 Fixture | | ★4.2.1 夹具全部采用液压夹紧,工件、夹具定位面采用切削液自动冲洗,定位时水密或气密检查以保证定位准确,夹紧位置设立压力报警,确保工件的可靠压紧。 | ★4.2.1 All fixtures adopt hydraulic clamping method. The positioning surfaces of the workpiece and the fixture are automatically flushed with the coolant. During positioning, water or air tightness checks are carried out to ensure accurate positioning. The clamping position has the pressure alarm function to ensure reliable clamping of the workpiece. | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | 5.3.5 NC﹑PLC(包括PLC交叉表﹑符号表)程序清单,提供与工艺过程相符合的软件程序,包括可以向控制系统输入的程序包,程序清单中要加以必要的注解和说明。提供所有与NC、PLC、驱动等相关的密码,包括用A4图纸打印出来的密码单及其电子文档。 | 5.3.5 NC and PLC (including PLC cross table and symbol table) program list, providing software programs that are consistent with the process, including program packages that can be input into the control system, with necessary annotations and explanations in the program list. Provide all passwords related to NC, PLC, drivers, etc., including password sheets printed on A4 paper and electronic documents. | | 5.3.6 电气及控制说明书,包括操作和编程说明﹑连接和接口说明﹑调试和维修指南等。数控系统的相关说明书等。 | 5.3.6 Electrical and control manuals, including operation and programming instructions, connection and interface instructions, commissioning and maintenance manuals, etc. Relevant manuals for CNC systems, etc. | | 5.3.7 机床数据(机床参数)清单,设备验收后,提供与实际相符合的机床数据(机床参数)清单和光盘,以及计算机与数控系统之间能传送相应数据的通讯软件和电缆。 | 5.3.7 List of machine data (machine parameters): after equipment acceptance, provide a list and CD of machine data (machine parameters) that match the actual situation, as well as communication software and cables that can transmit corresponding data between the computers and CNC systems. | | 5.3.8 液压原理图、安装图、系统总图、液压元件参数表、管路示意图、液压元器件的产品使用说明书;润滑原理图、润滑图表、管路示意图、润滑元器件的产品使用说明书;气动原理图、安装图、气动元件参数表、管路示意图、气动元器件的产品使用说明书;冷却原理图及清单。 | 5.3.8 Hydraulic schematic diagram, installation diagram, overall system diagram, hydraulic component parameter table, pipeline schematic diagram, and operating manual for hydraulic components; Lubrication schematic diagram, lubrication diagram, pipeline diagram, and operating manual for lubrication components; Pneumatic schematic diagram, installation diagram, pneumatic component parameter table, pipeline diagram, and operating manual for pneumatic components; Cooling schematic and list. | | 5.3.9 外购件清单、说明书和供应商资料。 | 5.3.9 List, operating manual, and supplier information of purchased parts. | | 5.3.10 按出场标准检测的机床各精度指标的检验报告。 | 5.3.10 Accuracy test record tested according to the delivery standards of the bidder. | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | 4.1.4.6.3 In addition to standard functions and additional functions necessary for processes, the CNC system must also have the following special functions: | | a. 功能完善友好的用户可编辑的HMI。 | a. A user-friendly and fully functional HMI that can be edited by the user. | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | Intermediate relay circuit breaker: reference or equivalent to international first-class brand products such as SIEMENS, SCHNEIDER, ABB, etc | | 变频器:品牌标准参照或相当于SIEMENS、SCHNEIDER、ABB等国际一流知名品牌产品。 | Frequency converter: reference or equivalent to international first-class brand products such as SIEMENS, SCHNEIDER, ABB, etc | | 链条电机:过载监控 | Chain motor: overload monitoring | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | 4.1.1.4 Reasonably configure according to different process requirements to achieve economic applicability. | | 4.1.1.5 各轴行程应有一定的余量(相对提供的工件加工范围)。 | 4.1.1.5 The stroke of each axis should have a certain margin (relative to the provided workpiece processing range). | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | In addition to being responsible for the installation and commissioning of new equipment, the bidder is also responsible for the connection of mechanical and electrical interfaces with adjacent equipment from other suppliers, as well as the installation and commissioning of control systems. The owner is responsible for connecting the final medium to the equipment interface (new liquid supply and old liquid recovery for power, compressed air and coolant, etc.). The connection inside the equipment and between the equipment is the responsibility of the bidder. | | 2.2 平面布置 | 2.2 Layout | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | 8.8 The bidder must have a good reputation in terms of delivery time. | | 第九部分 投标资料要求 | Part IX Tender Data Requirements | | 9.1 投标方近五年(2019年至今)来的销售业绩及用户清单。 | 9.1 Sales performance and user list of the bidder in the past five years (2019 present) | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | m. Equipped with a tool breakage monitoring device. | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | 3.11.10.1 室外排放要求:排放管高度不得低于15m(从地面起);二级过滤后达到国家标准GB16297-1996《大气污染物综合排放标准》表2中标准要求,非甲烷总烃120mg/ m³,颗粒物120mg/ m³;三级过滤后非甲烷总烃处理效率≥80%。 | 3.11.10.1 Outdoor discharge requirements: The height of the discharge pipe shall not be lower than 15m (from the ground). After secondary filtration, it meets the requirements of Table 2 the national standard GB16297-1996 "Integrated Emission Standard of Air Pollutants", with non-methane hydrocarbon 120mg/m ³ and particle matter 120mg/m ³. After tertiary filtration, the treatment efficiency of non-methane hydrocarbon is ≥ 80%. | | 3.11.10.2室内排放要求: | 3.11.10.2 Indoor emission requirements: | | a. 满足GBZ2.1-2019《工作场所有害因素职业接触限值 第1部分:化学有害因素》标准要求,粉尘8小时平均容许接触浓度8mg/ m³。 | a. Meet the requirements of the standard GBZ2.1-2019 "Occupational Exposure Limits for Hazardous Agents in the Workplace -- Part 1: Chemical Hazardous Agents". The average allowable exposure concentration of dust for 8 hours is 8mg/m ³. | | b. 油雾的职业接触限值参考1998年美国国家职业安全与健康协会标准,油雾控制限值0.5mg/ m³。 | b. The occupational exposure limit for oil mist is based on the standards of 1998 National Institute for Occupational Safety and Health in the United States. The oil mist control limit is 0.5mg/m ³. | | 3.11.11 集中吸雾系统排放管安装 | 3.11.11 Installation of discharge pipes for centralized mist suction system | | 3.11.11.1 根据投标方提供的集中吸雾系统室外排放管与厂房屋顶接口尺寸及要求,业主负责厂房屋顶开口、开口处的翻边、一次结构防水以及排放管固定点的制作。 | 3.11.11.1 According to the size and requirements of the interface between the outdoor discharge pipe of the centralized mist suction system and the roof of the workshop provided by the bidder, the owner is responsible for the opening and flipping of the roof, primary structural waterproofing and fixing points for discharge pipes. | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | 3.4 结合生产线布局及上下料形式,合理配置单机设备、段落设备、SPC检测站的RFID读写器,用于生产线数据采集、存储、传输、上传及质量追溯,工件RFID采用高频。 | 3.4 Based on the production line layout and loading/unloading method, the RFID readers and writers for single equipment, section equipment, and SPC detection stations should be reasonably configured for production line data collection, storage, transmission, uploading, and quality traceability. The workpiece RFID should be high-frequency. | | 3.5 各加工切削段落需配置相应清洁装置,具有翻转功能,用于工件简易清理,方便SPC站人工检测以及确保工件输送至下个段落的清洁度(外表无明显积液、铁屑)。清洁装置清洁工件产生的铁屑和冷却液能够返回设备。 | 3.5 Each machining and cutting section needs to be equipped with corresponding cleaning devices with turnover function, which are used for simple cleaning of workpieces, facilitating manual inspection at SPC station, and ensuring the cleanliness of workpieces transported to the next section (without obvious liquid accumulation or chips on the surface). The chips and coolant generated by the cleaning device can be returned to the equipment. | | 3.6 机械手具备在适当位置对工件进行吹气清理及翻转倒水功能,以尽可能减少乳化液随工件带入下道最终清洗工序;生产线下料检测站的工件下料姿态应充分考虑工序检测内容,便于操作人员对工序内容进行检测。为方便维修及保障维修安全,机械手应设置固定和可移动的维修平台。 | 3.6 The robot has the function of blowing air to clean the workpiece and turn it over to pour water in an appropriate position, in order to minimize the amount of emulsion carried by the workpiece into the next final cleaning process as much as possible. The discharging posture of the workpiece at the discharging inspection station should fully consider inspecting content , making it easy for operators to inspect the process content. To facilitate maintenance and ensure maintenance safety, the robot should be equipped with a fixed and movable maintenance platform. | | 3.7 设备及机械手需避让车间空中管线,机械手高度低于7.5m,机械手避让区域见附件1《新中型缸体精加工线平面区划图》,设备其它需空中避让的以车间实际空中管线及支架为准。 | 3.7 The equipment and robot should avoid overhead pipelines in the workshop, and the height of the robot should be less than 7.5m. The avoidance area of the robot can be found in Appendix 1 "Layout Area for Finish Machining Line of New Medium-Sized Cylinder Block". Other equipment that requires aerial avoidance shall be subject to the actual aerial pipelines and supports in the workshop. | #################### File: Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls Page: 1 Context: | GR&R:<10% (Ra<0.8), 验收评价标准符合IATF16949标准。 | GR&R: <10% (Ra<0.8), acceptance evaluation comply with the standard IATF16949. | | GR&R:<17% (0.8 **Independant motorized gripper strokes on both sides** **Conveyor** <-- --> **Stop Position on conveyor** **TBD with DD** **Position of RFID Chip** --- **Dalian Diesel Block and Head** **29.04.2024** Image Analysis: **Image Analysis** 1. **Localization and Attribution:** - This is a single image on the page. - It is labeled as Image 1. 2. **Object Detection and Classification:** - Objects identified: - Two engine blocks (likely diesel engine blocks) - Two sets of conveyors - Key Features: - The engine blocks have multiple circular openings. - Conveyors are positioned at both ends of the engine blocks. 3. **Scene and Activity Analysis:** - The scene depicts a gantry system for loading and unloading diesel engine blocks onto and off conveyor belts. - Activities: - The engine block is positioned at the stopping point on the conveyor. - Independent motorized gripper strokes on both sides facilitate the movement of the engine blocks onto and off the conveyor. 4. **Text Analysis:** - Detected Text: - "GANTRY LOAD/UNLOAD POSITION" - "Conveyor" (two instances with arrows pointing left and right) - "Independant motorized gripper strokes on both sides" (note: "Independant" should be "Independent") - "Stop Position on conveyor" - "TBD with DD Position of RFID Chip" - "Dalian Diesel Block and Head" - "29.04.2024" - Text Significance: - The text provides labels and descriptions of various components and processes depicted in the image. - Indicates a future date (29.04.2024), potentially the scheduled implementation or review date. 5. **Diagram and Chart Analysis:** - This image includes a diagram showing the positioning and movement of the engine blocks on the conveyor system. - Arrows indicate the possible directions of movement. 6. **Product Analysis:** - Products depicted: - Diesel engine blocks: Likely made of cast metal, featuring several circular openings for pistons. - Conveyors: Likely metal or reinforced material designed for industrial use, positioned for horizontal movement. 8. **Color Analysis:** - Dominant Colors: - Grey: Used for the engine blocks and text annotations. - Blue: Highlights components of the conveyor system. - Black: For general text and lines indicating movement. - Red: For special text annotations (TBD), highlighting its importance or need for further decision. 9. **Perspective and Composition:** - The image is created from a top-view perspective, giving a clear layout of the engine blocks and conveyor arrangement. - The composition is focused on showcasing the movement direction and position details of the engine blocks concerning the conveyors. 10. **Contextual Significance:** - This image is likely part of a technical document or presentation for a manufacturing or industrial process. - It serves to clarify the layout and functioning of the gantry loading/unloading system for diesel engine blocks, aiding in training or process planning. **Additional Aspect:** - **Prozessbeschreibungen (Process Descriptions):** - The process described involves the use of independent motorized grippers to move and position diesel engine blocks on a conveyor system, which stops the blocks at specific positions. - **Typen Bezeichnung (Type Designations):** - The image designates types of movements and positions, such as the stop position on the conveyor and the motorized gripper strokes. #################### File: DD_Block_Head_Automation_Inquiry_100424.pdf Page: 17 Context: # LAYOUT HEAD ## DALIAN Diesel ### Manufacturing Line for Cylinder Head **MAG scope:** - 4 SPECHT machines - 1 gantry - 1 cleaning box - 1 gaging station - 1 SPC conveyor - Incoming/outgoing conveyor **Dalian Diesel scope:** - SPC - table - Crane - fixture - hardgages --- **Workpart no.:** C/A DG1, C/A GD1, C/A DH2 **Cycle Time:** 260s **Date:** 29.04.2024 Image Analysis: ### Image Analysis ### 1. Localization and Attribution: - **Image Position**: Singular image on the page. - **Image Number**: Image 1 ### 2. Object Detection and Classification: - **Central Objects**: - **Diagram** representing a manufacturing line layout. - **Text elements** on the right side. - **Key Features**: - The diagram includes various outlines and shapes indicative of machinery and conveyor systems. ### 3. Scene and Activity Analysis: - **Scene Description**: The image represents a layout plan titled "Manufacturing Line for Cylinder Head." - **Activities**: It depicts the arrangement of different machines and stations involved in the manufacturing process. ### 4. Text Analysis: - **Detected Text**: - "LAYOUT HEAD" - "DALIAN Diesel" - "Manufacturing Line for Cylinder Head" - "MAG Content" - "supplied by customer" - "MAG scope" - "4 SPECHT machines" - "1 gantry" - "1 cleaning box" - "1 gaging station" - "1 SPC conveyor" - "Incoming/outgoing conveyor" - "Dalian Diesel scope" - "SPC" - "- table" - "Crane" - "- fixture" - "hardgages" - "Workpart no.: C/A DG1, C/A DG1, C/A6 DH2" - "Cycle Time: 260s" - "29.04.2024" - **Content Significance**: The text describes the components within the manufacturing line, dividing responsibilities between MAG and Dalian Diesel. The scope of each entity's responsibilities is outlined clearly. ### 5. Diagram and Chart Analysis: - **Diagram Analysis**: - The diagram shows the layout of the manufacturing line with annotations indicating specific machines and stations. - **Data and Trends**: - No numerical data or trends are specified directly in the diagram. ### 8. Color Analysis: - **Dominant Colors**: - Blue: Used for the layout lines and annotations. - Black: Used for text. - Green and Orange: Used for specific machine annotations. - Red: Used for headings and some text annotations. - **Impact on Perception**: - The use of different colors helps in distinguishing various elements of the layout clearly. ### 9. Perspective and Composition: - **Perspective**: The layout is presented in a top-down view, typical for floor plans. - **Composition**: The diagram is centered on the page, with text explanations on the right side, aiding clarity and readability. ### 10. Contextual Significance: - **Contextual Contribution**: - The image serves as a technical blueprint for the manufacturing line, providing clear attributions and specifications for the machinery and parts used in conjunction with descriptions of the involved entities' scopes. ### Additional Aspect: - **Typen Bezeichnung (Type Designations)**: - **Types Specified**: - SPECHT machines - Gantry - Cleaning box - Gaging station - SPC conveyor - Different types of tables, cranes, fixtures, and hardgages. #### Summary: The visual content represents a comprehensive layout of a manufacturing line for cylinder heads, delineating the specific responsibilities and components handled by MAG and Dalian Diesel. Various text descriptors and color-coded annotations aid in understanding the intricate layout and functions of each machine and station within the process. The diagram is crucial for conveying technical information clearly and succinctly. #################### File: DD_Block_Head_Automation_Inquiry_100424.pdf Page: 18 Context: # HEAD CONVEYOR ## Scope - **Incoming conveyor** - 2 PZR sections (length appr. 1,400mm) - "cold" interface to following conveyor - RFID read/write unit - **SPC conveyor** - 1 SPC pallet - Part orientation: upright standing on exhaust or intake side - With semi-automatic turntable - RFID read/write unit - TBD with Dalian - height - **Outgoing conveyor** - 2 PZR sections (length appr. 1,400mm) - "cold" interface to following conveyor - RFID read/write unit - **All conveyors** - Part orientation: bottom face down, rear face leading - Controlled by gantry cell controls - Safety guarding, sheet metal with maintenance doors - Gripper maintenance at SPC guarding Dalian Diesel Block and Head 29.04.2024 Image Analysis: ### Analysis of Attached Visual Content #### 1. Localization and Attribution - **Image 1:** There is only one image on the page, and it is located centrally. #### 2. Object Detection and Classification - **Image 1:** - Objects detected include a detailed schematic drawing and textual elements on the right side of the page. The schematic appears to be a technical diagram likely related to conveyor systems. - Classification: - **Diagram**: Technical schematic drawing. - **Text**: Technical specifications and descriptions. #### 4. Text Analysis - **Image 1:** - The text is divided into several sections, each with specific information: - **Title**: "HEAD CONVEYOR" - **Scope**: Detailed description of different conveyors, including Incoming conveyor, SPC conveyor, and Outgoing conveyor. - **Incoming conveyor**: Describes components like PZR sections, "cold" interface, and RFID read/write unit. - **SPC conveyor**: Includes SPC pallet features, semi-automatic turntable, and RFID read/write details. Some information is highlighted in red as "TBD with Dalian - height". - **Outgoing conveyor**: Similar details to the Incoming conveyor. - **All conveyors**: Description includes parts orientation, control by gantry cell controls, safety guarding, and gripper maintenance at SPC guarding. - Footer includes company and date details: "Dalian Diesel Block and Head - 29.04.2024" #### 5. Diagram and Chart Analysis - **Image 1:** - The diagram shows a detailed layout of a conveyor system. Various components are labeled, possibly indicating different sections or phases of the conveyor system. - No specific axes, scales, or legends are visible suggesting detailed labeling within the schematics itself. #### 9. Perspective and Composition - **Image 1:** - Perspective: The diagram is presented from an overhead view, typical for technical blueprints to provide a clear representation of spatial relationships. - Composition: The page is divided vertically with the schematic taking the left half and detailed textual explanations on the right. This balanced composition facilitates easy reference between the visual and textual data. #### 13. Graph Numbers - **Image 1:** - This aspect does not apply directly as there are no graphs with numerical lists in this image. The elements seen are more schematic and descriptive in nature. #### Additional Aspects - **Ablaufprozesse (Process Flows)**: - The text and the schematic together describe a process flow for conveyors in an industrial setting. The process flow includes the sequence from incoming to outgoing conveyors and their respective operations (RFID read/write units, SPC pallet handling, etc.). - **Prozessbeschreibungen (Process Descriptions)**: - Detailed descriptions of process steps for different conveyors: - Incoming and outgoing conveyors processing with PZR sections and RFID units. - SPC conveyor handling with semi-automatic turntable and RFID integration. - **Typen Bezeichnung (Type Designations)**: - Types of conveyors and specific components (e.g., PZR sections, RFID units, SPC pallets) are named and described. #### Overall Interpretation The visual and textual content portrays a comprehensive technical brief on a conveyor system, likely used in industrial or manufacturing settings. The detailed descriptions and schematic layout aim to provide clear guidance on the components, orientation, operation, and maintenance of the head conveyor system. The inclusion of specifics like part orientation, RFID read/write units, and safety measures emphasizes the detailed planning and operational protocols. This content is likely part of a larger technical document targeting engineers, technicians, or project managers involved in setting up or maintaining conveyor systems. It contributes to a detailed understanding of how the conveyor system is designed and operated, and what specific components and configurations are involved. #################### File: DD_Block_Head_Automation_Inquiry_100424.pdf Page: 19 Context: # HEAD GANTRY ## Scope - **H-loader** - 2 vertical axes - 2 grippers, each with turning and swivel axis - Concept see following slides - Drip pans between the machines - **Option** - 2 automatic loading hatches for gaging and cleaning station - **Cell controls**: Siemens - Integration of cleaning box - Fix mounted maintenance platform with ladder at one gantry end - Moveable maintenance platform, mounted on gantry carriage - **Option** - Part buffer, 2 parts - Test cell at MAG Eislingen - Transport, installation, and commissioning - Transport to customer FOB and CIF - Installation and commissioning at customer - Documentation and training (Chinese) Image Analysis: ### Comprehensive Examination of the Visual Content: #### Image Localization and Attribution: - **Image 1**: - The image is located in the center of the page with text on the right and a diagram on the left. - The diagram depicts a side view of a mechanical setup with various labeled parts. #### Object Detection and Classification: - **Image 1**: - **Objects Identified**: - Mechanical parts (H-loader, vertical axes, grippers). - Diagram components ( labeled sections of the mechanical setup). - Text elements (Scope, lists, and company logo). - **Key Features**: - The H-loader includes two vertical axes and two grippers with turning and swivel axes. - Various parts show connectivity and flow within the mechanical setup. #### Scene and Activity Analysis: - **Image 1**: - **Scene Description**: - It is a technical illustration showcasing components of a mechanical system, likely used in industrial or manufacturing settings. - **Activities**: - The diagram represents the components involved in a head gantry operation. - Activities include the movement and operation of grippers, loading and cleaning mechanisms. #### Text Analysis: - **Image 1**: - **Extracted Text**: - Title: "HEAD GANTRY" - Various text elements detailing the scope and components of the head gantry setup. - Example: "H-loader, 2 vertical axes, 2 grippers each with turning and swivel axis, Drip pans between the machines, etc." - **Content and Significance**: - The text describes the technical specifications and scope of the head gantry. - Important elements include H-loader specifications, optional parts, cell controls, and logistical details like installation and documentation. #### Diagram and Chart Analysis: - **Image 1**: - **Diagram Analysis**: - The diagram visually explains the layout and components of the head gantry. - It features various parts labeled with “OP” numbers and shows their arrangement. - The diagram includes labels and notes indicating specific components and their functions. #### Anomaly Detection: - **Image 1**: - **Possible Anomalies**: - No anomalies are noticeable within the given context of a technical illustration. #### Color Analysis: - **Image 1**: - **Dominant Colors**: - Mostly blue and black for the diagram, indicating detailed technical sections. - Red is used to highlight specific parts and for the text, which attracts attention. #### Perspective and Composition: - **Image 1**: - **Perspective**: - The image is a side view layout, typical for technical engineering diagrams. - **Composition**: - The diagram is aligned vertically to cover the length of the mechanical setup. - Text details are systematically placed to the right for clear association with diagram parts. #### Contextual Significance: - **Image 1**: - **Overall Document Context**: - The image contributes to a technical document likely focused on industrial machinery and their specifications. - It provides detailed insights into the components and functions of the head gantry. - The information is critical for understanding the setup, operation, and logistics associated with the machinery. #### Tables: - There are no tables depicted in the image. This analysis provides a detailed breakdown of the visual content, covering various aspects as requested and contributing to a comprehensive understanding of the scene and information presented in the image. #################### File: DD_Block_Head_Automation_Inquiry_100424.pdf Page: 19 Context: # HEAD GANTRY ## Scope - **H-loader** - 2 vertical axes - 2 grippers, each with turning and swivel axis - Concept see following slides - Drip pans between the machines - **Option** - 2 automatic loading hatches for gaging and cleaning station - **Cell controls**: Siemens - Integration of cleaning box - Fix mounted maintenance platform with ladder at one gantry end - Moveable maintenance platform, mounted on gantry carriage - **Option** - Part buffer, 2 parts - Test cell at MAG Eislingen - Transport, installation and commissioning - Transport to customer FOB and CIF - Installation and commissioning at customer - Documentation and training (Chinese) --- Dalian Diesel Block and Head 29.04.2024 Image Analysis: ### Image Analysis #### 1. Localization and Attribution: - **Image 1**: Positioned on the upper left side of the page, it contains a detailed drawing or schematic. - **Image 2**: Occupies the right side of the page and includes textual information under the title "Scope." #### 2. Object Detection and Classification: - **Image 1**: Contains a technical drawing or schematic possibly of a gantry system. - **Objects**: - Various machine elements like platforms, control panels, and maintenance equipment. - Components labeled with annotations, indicating specific parts and their locations. - **Image 2**: Does not contain objects for classification, primarily text-based. #### 3. Scene and Activity Analysis: - **Image 1**: This is a technical schematic likely detailing the layout and components of a head gantry system. - **Activities**: - Shows the arrangement and positioning of different equipment and processes within the gantry system. - **Image 2**: Textual description outlining the scope of a project or system related to the head gantry. #### 4. Text Analysis: - **Image 2**: - **Title**: "HEAD GANTRY" - **Scope**: - Describes details such as "H-loader" with "2 vertical axes" and "2 grippers". - Options for "automatic loading hatches," and "cell controls Siemens." - Contains information related to transportation, installation, and commissioning, specifically mentioning "Test cell at MAG Eislingen". #### 5. Diagram and Chart Analysis: - **Image 1**: - **Data**: The schematic illustrates the physical components and structure of a gantry system. - **Key Insights**: Shows the detailed layout and integration of components, aiding in understanding how the system is built and operates. #### 8. Color Analysis: - **Image 1**: Predominantly blue for schematics, with other colors like red and green used for different annotations or highlighting parts. - **Image 2**: Black text with important titles and sections highlighted in bold or different font formats. The title of the page "HEAD GANTRY" is in black, ensuring easy readability. #### 9. Perspective and Composition: - **Image 1**: A front elevation view of the gantry system which allows a clear view of all components laid out vertically. - **Image 2**: Text is clearly laid out in a structured format, starting with a general title, followed by bullet points for easy comprehension. #### 10. Contextual Significance: - This image likely belongs to a technical manual or presentation for a mechanical or industrial project. - **Contribution**: Provides crucial technical information regarding the gantry system setup, components, and logistical aspects such as installation and commissioning. #### 13. Graph Numbers: - Not applicable here, as there are no numerical graphs provided in the content. #### Additional Aspects: - **Prozessbeschreibungen (Process Descriptions)**: - Detailed descriptions like "2 grippers, each with turning and swivel axis" and "Integration of cleaning box" indicate part of the process. - **Typen Bezeichnung (Type Designations)**: - Terms like "H-loader" and "Test cell at MAG Eislingen" designate specific types or categories within the gantry system project. - **Trend and Interpretation**: - Emphasis on automation and safety with elements like "automatic loading hatches" and "integration of cleaning box," highlighting trends towards more efficient and safer industrial processes. - **Tables**: - No explicit table information is given in the provided content. The combined images and text create a comprehensive overview of the head gantry, detailing both the physical setup and the overall project scope. #################### File: DD_Block_Head_Automation_Inquiry_100424.pdf Page: 19 Context: # HEAD GANTRY ## Scope - **H-loader** - 2 vertical axes - 2 grippers, each with turning and swivel axis - Concept see following slides - Drip pans between the machines - **Option** - 2 automatic loading hatches for gaging and cleaning station - **Cell controls**: Siemens - Integration of cleaning box - Fix mounted maintenance platform with ladder at one gantry end - Moveable maintenance platform, mounted on gantry carriage - **Option** - Part buffer, 2 parts - Test cell at MAG Eislingen - Transport, installation and commissioning - Transport to customer FOB and CIF - Installation and commissioning at customer - Documentation and training (Chinese) Image Analysis: ### Analysis of the Image: #### 1. Localization and Attribution: - **Image 1**: - Positioned at the top of the page, taking up most of the space. - Contains both a diagram/flowchart on the left and a textual description on the right. #### 2. Object Detection and Classification: - **Image 1**: - Objects detected include a detailed diagram/flowchart and various sections of text. - The diagram appears to represent a machinery/process setup. #### 3. Scene and Activity Analysis: - **Image 1**: - The scene depicts a detailed technical drawing of a machine or process referred to as the "HEAD GANTRY". - Activities mentioned include operations of an H-loader, loading, and cleaning processes, and various maintenance tasks. #### 4. Text Analysis: - **Image 1**: - Title: "HEAD GANTRY" - Main Text: - **Scope**: Provides a list of features and options for the HEAD GANTRY system. - H-loader: - 2 vertical axes. - 2 grippers with turning and swivel axes. - Drip pans for inter-machine sections. - Options for automatic loading hatches, cell control integration by Siemens, fixed and movable maintenance platforms, and part buffer. - Test cell operations and various logistical details such as transport and commissioning. - Additional details include testing procedures, transport logistics, installation, and customer training (in Chinese). - Footers: - "Dalian Diesel Block and Head" and the date "29.04.2024." #### 5. Diagram and Chart Analysis: - **Image 1**: - The left side contains a detailed diagram of the HEAD GANTRY system with annotations pointing out various components and sections labeled (e.g., "PF 10"). - The diagram includes graphical representations of machinery and perhaps flow directions or operational steps. #### 9. Perspective and Composition: - **Image 1**: - The diagram is presented from a technical, schematic perspective. - The text is organized clearly on the right, with bullet points aiding readability and classification. #### 10. Contextual Significance: - **Image 1**: - As part of a larger document or presentation, this image likely serves to detail the specifications, setup, and operational steps of the HEAD GANTRY system. - The detailed scope and diagram help in understanding the complexity and functionality of the machinery discussed. #### Additional Aspects (Ablaufprozesse and Prozessbeschreibungen): - **Image 1**: - **Ablaufprozesse**: The image outlines a detailed process, breaking down the operational and maintenance steps for the HEAD GANTRY. - **Prozessbeschreibungen**: Detailed descriptions include handling by H-loader, gripper operations, maintenance platforms, and transportation logistics. ### Summary: The provided image (Image 1) depicts a complex technical setup for a system referred to as the "HEAD GANTRY". It includes an elaborate diagram on the left demonstrating various components of the machinery, while the right side features detailed textual descriptions of the system's scope, features, and operational steps. This visual would typically be part of a technical document or presentation aimed at providing in-depth information on the HEAD GANTRY system’s design, capabilities, and operational procedures. #################### File: DD_Block_Head_Automation_Inquiry_100424.pdf Page: 19 Context: # HEAD GANTRY ## Scope - **H-loader** - 2 vertical axes - 2 grippers, each with turning and swivel axis - Concept see following slides - Drip pans between the machines - **Option** - 2 automatic loading hatches for gaging and cleaning station - **Cell controls:** Siemens - Integration of cleaning box - Fix mounted maintenance platform with ladder at one gantry end - Moveable maintenance platform, mounted on gantry carriage - **Option** - Part buffer, 2 parts - Test cell at MAG Eislingen - Transport, installation, and commissioning - Transport to customer FOB and CIF - Installation and commissioning at customer - Documentation and training (Chinese) Image Analysis: ### Image Analysis #### 1. Localization and Attribution: - **Image Position and Numbering:** - This document contains a single page with one visual content which will be referred to as **Image 1**. #### 2. Object Detection and Classification: - **Identified Objects:** - **Image 1:** - Contains illustrated technical drawing or layout. - Text content. #### 3. Scene and Activity Analysis: - **Description:** - **Image 1:** - Depicts a schematic diagram for a head gantry system. - Includes various mechanical and electronic components likely used in an industrial setting. #### 4. Text Analysis: - **Extracted Text:** - **Headline:** - "HEAD GANTRY" - **Body Text (Scope):** - **H-loader** - 2 vertical axes - 2 grippers, each with turning and swivel axis - Concept see following slides - Drip pans between the machines - **Option** - 2 automatic loading hatches for gaging and cleaning station - **Cell controls Siemens** - Integration of cleaning box - Fix mounted maintenance platform with ladder at one gantry end - Moveable maintenance platform, mounted on gantry carriage - **Option** - Part buffer, 2 parts - Test cell at MAG Eislingen - Transport, installation and commissioning - Transport to customer FOB and CIF - Installation and commissioning at customer - Documentation and training (Chinese) - **Footer:** - "Dalian Diesel Block and Head", Date: 29.04.2024. #### 5. Diagram and Chart Analysis: - **Description:** - **Image 1:** - Includes a detailed diagram of the head gantry system with labeled components. - The layout provides a visual representation of machinery and electronic elements with some labels like "OP 5", "OP 10", and "OP 15". #### 8. Color Analysis: - **Dominant Colors:** - **Image 1:** - Primarily blue is used for the mechanical and electrical components. - The text is in black and red, providing clear distinctions between sections and elements. #### 9. Perspective and Composition: - **Perspective:** - **Image 1:** - Illustrative technical perspective or blueprint view. - **Composition:** - Text is on the right side, and the technical layout diagram is on the left side. - The elements are organized to provide a clear and structured view of the system's components and descriptions. #### 10. Contextual Significance: - **Overall Document Context:** - **Image 1:** - It likely serves as a guide or informative document regarding the head gantry system. - Aimed at providing technical details and specifications for installing, commissioning, and maintaining the system. #### 12. Graph and Trend Analysis: - Not applicable as there is no typical graph or trend chart included in the image content. #### Additional Aspects: - **Prozessbeschreibungen (Process Descriptions):** - The text in the scope section outlines various processes involved in handling the head gantry system, including "Transport, installation, and commissioning" and "Documentation and training". - **Typen Bezeichnung (Type Designations):** - The system components are categorized under headings like "H-loader" and "Option". #### Conclusion: - The visual content provides a detailed depiction of the head gantry system, highlighting its components, features, and procedural details required for handling and implementing the system in an industrial setting. It effectively combines technical drawings with descriptive text to convey comprehensive information. #################### File: DD_Block_Head_Automation_Inquiry_100424.pdf Page: 20 Context: # GANTRY HEAD GRIPPER ![Gantry Head Gripper](image.png) **Suggested Gripper Bores** --- **Dalian Diesel Block and Head** 29.04.2024 Image Analysis: ### Analysis of Attached Visual Content #### 1. Localization and Attribution: - **Image Location**: The image is located centrally on the page. - **Image Number**: Image 1 #### 2. Object Detection and Classification: - **Objects Detected**: - Two engine components (potentially diesel engine heads or blocks) - Labels indicating "Suggested Gripper bores" - Arrows pointing to specific spots on the engine components where modifications or attachments (gripper bores) are recommended - **Classification**: Industrial components related to diesel engines #### 3. Scene and Activity Analysis: - **Scene Description**: The scene features two detailed 3D models of diesel engine components, specifically focusing on areas where gripper bores are suggested for implementation. - **Activities**: The diagram indicates suggestions for where gripper bores can be added, possibly for handling or assembly purposes within an industrial or manufacturing context. #### 4. Text Analysis: - **Detected Text**: - Title: "GANTRY HEAD GRIPPER" - Label: "Suggested Gripper bores" - Footer: "20", "Dalian Diesel Block and Head", "29.04.2024" - **Text Significance**: - Title indicates the focus of the diagram. - Label points out specific modifications or features suggested for implementation. - Footer includes a page number, document title, and date, suggesting this is part of a larger technical or instructional document. #### 6. Product Analysis: - **Products Depicted**: - The main products are the two diesel engine components depicted in a greyish-blue color. - The components have complex structures with various holes and fittings, likely essential for their operation within a diesel engine. - **Comparison**: The two depicted components are similar in design and structure, likely identical, but are shown from slightly different angles to highlight the suggested gripper bores. #### 8. Color Analysis: - **Color Composition**: - Dominant colors are shades of grey and blue. - The grey conveys a metallic, industrial feel while blue highlights specific features for suggested modifications. - **Impact on Perception**: The colors are functional and typical for technical documentation, ensuring clarity and focus on important details (i.e., the suggested gripper bores). #### 9. Perspective and Composition: - **Perspective**: The images are presented from a slightly tilted top-down perspective. - **Composition**: - The two components are arranged side-by-side with arrows and labels clearly indicating points of modification. - The layout is logical and functional, aiding comprehension of the technical information. #### 10. Contextual Significance: - **Overall Document Context**: - Part of a technical document dated 29.04.2024, likely aimed at professionals in the diesel engine manufacturing or maintenance sector. - The document appears to provide detailed instructions or suggestions for enhancing the handling or assembly process of diesel engine components. - **Contribution to Overall Message**: This image contributes to the technical guidance by visually displaying where modifications (gripper bores) should be implemented for the effective handling or assembly of the engine components. #### 12. Graph and Trend Analysis: - **Analysis**: Not applicable as there are no traditional graphs or trends presented in this image. #### 13. Graph Numbers: - **Data Points**: Not applicable as there are no graphs with numerical data in this image. #### Additional Aspects: - **Ablaufprozesse (Process Flows)**: - The image provides a visual suggestion for process improvement in the production or assembly line of diesel engine blocks/heads by highlighting where gripper bores should be placed. - **Prozessbeschreibungen (Process Descriptions)**: - The suggested gripper bores are meant to enhance handling, which is a critical part of the assembly or maintenance process for these components. - **Typen Bezeichnung (Type Designations)**: - Not explicitly stated, but the components are diesel engine blocks/heads based on the "Dalian Diesel Block and Head" document title. Overall, the image serves as an instructive visual aid in a technical document, guiding modifications to enhance the handling and assembly of diesel engine components. #################### File: DD_Block_Head_Automation_Inquiry_100424.pdf Page: 21 Context: # CONVEYOR HEAD GUIDING ![Guiding on roller conveyor](image_link) --- **Dalian Diesel Block and Head** **Date:** 29.04.2024 Image Analysis: ### Comprehensive Examination ### 1. Localization and Attribution: - **Image 1:** There is only one image present on the page. ### 2. Object Detection and Classification: - **Image 1:** - **Object:** Roller conveyor guide. - **Category:** Industrial machinery part. ### 3. Scene and Activity Analysis: - **Image 1:** - **Scene:** The image shows a mechanical component mounted on a roller conveyor. - **Activity:** The guiding system on the roller conveyor to ensure the smooth movement of items. ### 4. Text Analysis: - **Detected Text:** - Title: "CONVEYOR HEAD GUIDING" - Annotation: "Guiding on roller conveyor" - Footer: "Dalian Diesel Block and Head 29.04.2024" - **Analysis:** - The text describes the component being illustrated, which is used to guide objects on a roller conveyor, likely in a manufacturing or assembly line setting. The footer indicates that this document pertains to 'Dalian Diesel Block and Head' and is dated April 29, 2024. ### 9. Perspective and Composition: - **Image 1:** - **Perspective:** The image is presented in a side view, which clearly shows the guiding system on the roller conveyor. - **Composition:** The conveyor head guiding mechanism is centrally located in the image, with clear labeling pointing out the guiding functionality. ### 10. Contextual Significance: - **Image 1:** - **Context:** This image appears to be part of a technical document or manual related to manufacturing, specifically for guiding systems in roller conveyor setups. - **Contribution:** The image helps illustrate the specific part of the conveyor system being discussed, aiding in understanding the function and design of the guiding system. ### 11. Metadata Analysis: - **Image 1:** - **Footer Information:** "Dalian Diesel Block and Head 29.04.2024" - This metadata indicates the likely content focus (diesel block and head manufacturing), and the date provides a timeframe for the document's relevance or creation. ### 12. Graph and Trend Analysis: - **Image 1:** - Not applicable as there are no graphs present. ### 13. Graph Numbers: - **Image 1:** - Not applicable as there are no graphs present. ### Additional Aspects: **Ablaufprozesse (Process Flows):** - **Image 1:** Describes a process flow in manufacturing where the guiding system is used to regulate the movement of objects on a conveyor, ensuring proper alignment and direction. **Prozessbeschreibungen (Process Descriptions):** - **Image 1:** Indicates that the guiding system is an integral part of the roller conveyor’s function, likely to stabilize and direct products as they move along the conveyor. **Typen Bezeichnung (Type Designations):** - **Image 1:** The description categorizes the specific part as a guiding system for a roller conveyor. #################### File: 240328_Lastenheft_Automation_Zukauf.pdf Page: 1 Context: # Automation Einkauf ## Lastenheft Mechanik **Stand:** 28.03.2024 --- ### FFG Europe & Americas MAG IAS GmbH Salacher Straße 93 73054 Eislingen #################### File: 240328_Lastenheft_Automation_Zukauf.pdf Page: 2 Context: # Inhaltsverzeichnis 1. Versionsstabelle ................................................................................................. 3 2. Projektdaten ....................................................................................................... 3 3. Lastenhefte / Kundenspezifikation .................................................................. 4 4. Terminplan ......................................................................................................... 4 5. Genehmigungsverfahren ..................................................................................... 4 6. Projektreporting .................................................................................................. 5 7. Datenbereitstellung ........................................................................................... 5 8. Werkstückbereitstellung ..................................................................................... 5 9. Taktzeit / Belegzeiten / R&M-Daten .................................................................. 5 10. Hallenlayout ....................................................................................................... 6 11. Konformitätserklärung / Dokumentation .......................................................... 7 11.1 Wertstückübernehmende Teile ..................................................................... 7 11.2 E+V Stücklisten ............................................................................................. 8 12. Konstruktion ...................................................................................................... 8 12.1 Bandtechnik ................................................................................................. 8 12.2 Greiftechnik ................................................................................................. 9 12.3 Portaltechnik .............................................................................................. 10 12.4 SPC-Schubladen ......................................................................................... 11 12.5 Roboter ......................................................................................................... 12 12.6 Farbgebung ................................................................................................... 12 12.7 Hardware / Fluidik ....................................................................................... 12 13. Steuerungskonzept / Ablaufbeschreibung ......................................................... 13 14. Hallenans/ Maschineninbringung ................................................................... 13 15. Montage und Inbetriebnahme ......................................................................... 13 16. Instandhaltungskonzept ................................................................................... 14 17. Kommunikation / Kontakte .............................................................................. 14 18. Protokollführung ............................................................................................... 14 19. Nachträge ........................................................................................................... 14 20. Kontaktdaten ....................................................................................................... 15 20.1 Technisches Angebot Automation/Zukauf .................................................. 15 20.2 Projektleitung Konstruktion Automation/Zukauf ......................................... 15 20.3 Steuerungstechnik Automation/Zukauf ....................................................... 15 20.4 Hardware / Fluid .......................................................................................... 15 20.5 Einkauf ......................................................................................................... 15 20.6 Dokumentation ............................................................................................ 15 20.7 Technical Compliance ................................................................................. 16 21. Abweichungen Lastenhefte ............................................................................... 16 #################### File: 240328_Lastenheft_Automation_Zukauf.pdf Page: 3 Context: # 1. Versionstabelle | Version | Datum | Änderung | Name | |---------|-------------|-----------------------------------------------------------------------|-------------------| | V1 | 04.05.2022 | Grundfassung | Matthias Grüner | | V2 | 05.08.2022 | Überarbeitung | Matthias Grüner | | V3 | 11.10.2023 | Greifer: A-Achse bei KSS-Bearbeitung hinzu Kapitel Werkstückbereitstellung überarbeitet LIP: Temperaturkomp. X-Achse hinzu | Matthias Grüner | | V4 | 28.02.2024 | Kapitel Hallenlayout angepasst Servo-Achsen Portal hinzu | Matthias Grüner | | V5 | 28.03.2024 | Tropfwanneausführung ergänzt Dokumentation überarbeitet Kapitel Roboter überarbeitet | Matthias Grüner | # 2. Projektdaten Siehe projektspezifische Unterlagen #################### File: 240328_Lastenheft_Automation_Zukauf.pdf Page: 4 Context: # Lastenhefte / Kundenspezifikation - Die Lastenhefte werden durch MAG bereitgestellt. - Fehlende Lastenhefte / Unterlagen sind vom Lieferanten unaufgefordert bei MAG einzufordern. - Es gilt folgende Reihenfolge: Gesetz, Lastenheft Kunde, Lastenheft MAG, eigene Dokumente. - Nachträge aufgrund von nicht abgesprochenen Annahmen seitens des Lieferanten werden nicht akzeptiert. Die Annahmen müssen mit MAG abgestimmt und schriftlich freigegeben werden. # Terminplan Zu Projektbeginn ist seitens des Lieferanten ein Projektterminplan zu erstellen, in dem u.a. ersichtlich ist, wann welche Daten für die Konstruktion benötigt werden, um die von MAG festgelegten Genehmigungsdurchsprachen/-termine mit den Endkunden einzuhalten. Diese sind ebenfalls im Terminplan darzustellen, wie auch alle weiteren relevanten Termine, wie z.B. Fertigungs- und Montagetag, Aufbau beim Kunden, Inbetriebnahme, Abnahme, usw. Der Projektterminplan ist zwei Wochen nach Kick-Off bereitzustellen. Dieser sollte u.a. folgende Punkte enthalten: - Projektteam / Ansprechpartner - Datenbereitstellung durch MAG (Maschinenbilder, …) - Design-Freeze Halle - Bereitstellung Genehmigungszeichnungen / Pläne - Spätestes Genehmigungsdatum der Komponenten - Dokumentation - CE/Anlagensicherheit - Beschaffung/Fertigung - Montage und IB - Versandabnahme - Baustelle: Montage und IB, BBü, Abnahme # Genehmigungsverfahren Alle zu genehmigenden Unterlagen sind nach vereinbartem Terminplan bei MAG einzureichen. Diese werden dann durch MAG oder gemeinsam mit dem Lieferanten dem Endkunden vorgestellt und durch diesen genehmigt. Die geforderte Bearbeitungszeit des Endkunden ist zu beachten. #################### File: 240328_Lastenheft_Automation_Zukauf.pdf Page: 5 Context: ```markdown # 6. Projektreporting Jeder Lieferant muss wöchentlich ein Projektreporting (Vier-Felder-Chart) liefern. Die hierzu benötigte Vorlage wird von MAG bereitgestellt. Das Dokument ist wöchentlich bis spätestens Freitagmittag 12 Uhr an folgende Personen zu liefern: - Gesamprojektleiter - Projektleiter Konstruktion Automation/Zukauf - Einkauf # 7. Datenbereitstellung Sämtliche für den Lieferanten notwendigen Daten für die Layoutplanung, Störungskonturanalyse, Ablaufschreibung usw. werden von MAG bereitgestellt. Der Lieferant hat diese Daten eine Woche vor Termin schriftlich anzufordern. # 8. Werkstückbereitstellung - MAG stellt zu Konstruktionsbeginn die CAD-Daten aller notwendigen Werkstücke (Rohtteile, Fertigteile, Baugruppen, Varianten) im von Kunden beigestellten Datenformat zur Verfügung. Jeder Lieferant ist für die Aufbereitung der CAD-Daten selbst verantwortlich, um diese für sich verwenden zu können. - Werkstückänderungen während der Projektphase sind innerhalb einer Woche zu untersuchen und zu bewerten. Auswirkungen auf die Anlage müssen in Form einer PowerPoint-Präsentation dargestellt werden. - Eine Untersuchung/Integration nachfolgender Werkstücktypen während des Projektverlaufs bedarf eines Zusatzangebots in Form einer Typenprüfung, sobald diese nicht Vertragsbestandteil des Grundauftrags ist. - Werkstücke werden von MAG bereitgestellt. Die gewünschte Anzahl, Art und Umfang der Bearbeitung ist vor Konstruktionsbeginn zu definieren und MAG schriftlich mitzuteilen. Ebenso ist dies im Projektterminplan darzustellen. # 9. Taktzei / Beladezeiten / R&M-Daten Der Lieferant hat die vorgegebenen Takt- und Beladezeiten zu bestätigen und durch einen detaillierten Ablaufplan darzustellen. Für jede Zelle/OP ist ein Ablaufplan zu erstellen. Die erforderlichen Daten bezüglich Maschine/Fremdgewerken sind bei MAG bzw. den Unterlieferanten terminrechtlich einzufordern. Die Taktzeitberechnungen/Ablaufpläne sind an MAG auszuhändigen – auch die von Sondermaschinen, Lasermarkierstationen, Blasboxen usw. ``` #################### File: 240328_Lastenheft_Automation_Zukauf.pdf Page: 6 Context: # 10. Hallenlayout Der Lieferant muss mit dem Angebot die R&M-Daten bereistellen. Diese sind technische Verfügbarkeit und MTTR (meantime to repair). ## Verantwortlichkeit Hallenlayout Lieferant: - MAG stellt dem Lieferanten das Angebotslayout zur Verfügung. - Die Hallenplanung / Verantwortung über das Hallenlayout liegt beim Verarbeiter. Dieses beinhaltet: - Umfang des Lieferanten - Umfang MAG - evtl. Umfang von Fremdwerken - Das Hallenlayout ist als DWG (ACAD 2016), PDF und STEP (siehe auch Punkt Zellenplan) zur Verfügung zu stellen. - Der Lieferant ist verantwortlich für die Störkonturenuntersuchung. - Sämtliche notwendige Daten, sind bei MAG zu erfragen und werden von MAG zur Verfügung gestellt: - Hallenhöhe - Mindestabstände - Durchgänge - Wartungsplätze (Portal, Greifer, sonstiges) - Bandhöhe - … - MAG stellt für die Layoutplanung die Daten der Maschine / Fremdwerke zur Verfügung. Diese sind termingerecht durch den Lieferanten einzufordern. - Die Schnittstelleneigenverantwortlichkeit liegt beim Lieferanten (ME + HW + SW). - Hierfür benötigten Daten von Drittlieferanten werden von MAG bereitgestellt. - Der Lieferant erstellt einen Gesamtfundamentplan. Die hierzu erforderlichen Daten sind termingerecht bei MAG einzufordern. #################### File: 240328_Lastenheft_Automation_Zukauf.pdf Page: 7 Context: - Bei mehreren Zellen sind ein Zellenplan (Draufsicht, Seitenansicht, Vorderansicht) und ein Zellenfundamentplan zu erstellen. Abweichungen sind vorab mit MAG abzustimmen. - Die Zellenpläne sind als STEP (keine Flächenmodelle), DWG (ACAD2016) und PDF zur Verfügung zu stellen, die Fundamentpläne als DWG und PDF. ## 11. Konformitätsklärung / Dokumentation Das Gesamt-CE (Anlagen-CE) oder auch Zellen-CE ist durch den Vertretter zu erstellen. Alle erforderlichen Unterlagen (z.B. Maschinen-CEs) sind termingerecht bei MAG bzw. den Unterlieferanten einzureichen. Jeder Maschinenlieferant hat für seine Maschine eine CE-Erklärung zu erstellen. Bei unvollständigen Maschinen ist eine Einbauerklärung sowie eine Montageanleitung zu liefern und die Checkliste „unvollständige Maschine“ vorzulegen. Die Dokumentation erfolgt nach Kundenversc hrift. Sollte eine Prüfung der Dokumentation durch ein Prüfbüro gefordert sein, so ist dies durch den Lieferanten für dessen Lieferumfang zu beantragen und für die diesbezüglich anfallenden Kosten aufzukommen. Die Dokumentation ist bei Auslieferung der Anlage alternativ nach MAG-Terminaln über einen Download-Link bereitzustellen. Änderungen nach Endabnahme sind einzupflegen. Sollten hier in der Kundenspezifikation Vorgaben gemacht werden, sind diese vorrangig zu betrachten und umzusetzen, z.B. Doku zur Versandfreigabe bzw. Vorabnahme. Die Dokumentation ist, wenn nach Endkundenleistenheft nicht anders gefordert, in der jeweiligen Landessprache und in Englisch auszuführen. ### 11.1 Werkstückübergreifende Teile - Von allen werkstückübergreifenden Teilen sind die Fertigungszeichnungen zu liefern; die Daten sind als PDF und DWG (ACAD2016) bereitzustellen. - Die Zuordnung aller werkstückübergreifenden Teile muss über mitgelieferte Stücklisten und Zusammensetzungszeichnungen nachvollziehbar sein. ### 11.2 E+V Stücklisten Alle E+V-Stücklisten sind mit Herstellerangaben und Preisen im Kundenformat zu liefern. #################### File: 240328_Lastenheft_Automation_Zukauf.pdf Page: 8 Context: # 12. Konstruktion Die Verantwortung für die konstruktive Auslegung und die sichere Funktion der gesamten Automation liegt beim Lieferanten. Erforderliche Daten für eine Störkonturantersuchung sind termingerecht bei MAG einzufordern. ## 12.1 Bandtechnik - Für die sichere Ausführung und Funktion ist der Lieferant verantwortlich - Bandgeschwindigkeit nach Vorgabe des Endkunden, wenn keine Vorgabe, dann Auslegung nach Taktzeit - Bandhöhe nach Vorgabe des Endkunden - Der Lieferant bestätigt das sichere Greifen und Ablegen des Bauteils aus dem Band. (Sind hierfür Aushub- oder Indexier-Stationen notwendig, sind diese vorzusehen.) - Der Lieferant bestätigt ein sicheres Lesen des DMC-Codes bzw. der RFID-Chips. (Eventuelle Zustelleinheiten und Indexier-Stationen sind zu berücksichtigen.) ### Bsp. für Fehlfluss DMC Bei dreimaliger Fehlfluss des DMC-Codes muss das Teil aus der Anlage genommen werden. Dies kann entweder manuell über eine entsprechend große Zugangsfläche im Abholschacht, oder durch ein Ausscheiden mit reduzierter Geschwindigkeit (evtl. im Zumbiethieb) auf den SPC-Platz erfolgen. Hierzu muss dann die Seriennummer des Bauteils über das HMI eingegeben werden, damit die Anlage weiß, welches Bauteil sich im Abholbereich befindet. Dieser Ablauf ist vorab mit dem Endkunden zu klären! - Bandführung: Das Konzept und die Ausarbeitung über die Führung des Werkstücks auf dem Band haben durch den Lieferanten zu erfolgen. Die Genehmigung erfolgt über MAG mit dem Endkunden. - Späne-/KSS-Auffangwannen sind mit Schrägen und Ablassschrauben auszuführen. - Der Lieferant bestätigt eine Tropfwanneausführung, die gewährleistet, dass der Boden nicht verschmutzt wird. Kabelkanäle und Medieneinheiten sind außerhalb des Nassbereiches anzusordnen. - Ein-/Auslastschacht: Nassbearbeitung: Blech oder Makrolon, Trockenbearbeitung: Schutzgitter - Zugangstub, elekt. abgeschert (z.B. Euchner MGB) - Bandzeichnungen sind als STEP (kein Flächenmodell), DWG (ACAD2016) und PDF zu liefern, inkl. Werkstück. Die Werkstückführung muss ersichtlich sein und die Funktion der Lichtschranken bzw. Sensorik erkanntlich sein. - Allgemeine Unklarheiten sind im Vorfeld mit MAG abzustimmen. Kosten, die im Nachgang hierfür entstehen, werden nicht durch MAG übernommen. #################### File: 240328_Lastenheft_Automation_Zukauf.pdf Page: 9 Context: # 12.2 Greifertechnik Die Greifer werden durch den Lieferanten beschafft. Dieser ist für das Greifkonzept (pneumatisch oder elektrisch), die sichere Ausführung und Funktion der Greifer verantwortlich. - Greifkraftsicherung bei Medienaussfall gegen Werkstückverlust - Sichere Signaleinlegung z.B. Dauersignal bei Werkstück-Vorhanden, um einen Verlust des Werkstücks zu erkennen; keine Signal Speicherung! - Abfragen von Greifer gelöst, gespannt mit WST, gespannt ohne WST - Abfrage Werkstück-Vorhanden, bevorzugt über Federstoßbel - Druckschalter für Klemmungen - A-Achse, C-Achsen und Y-Achse sind als NC-Achsen auszuführen - Werkstückübergreifende Teile sowie Ersatz- und Verschleißteile müssen schnell wechselbar sein - Bei Nassbearbeitung ist eine A-Achse (NC-Achse) im Greifer vorzusehen, um das Werkstück auskühlen zu können - Greiferzeichnungen sind als STEP (kein Flächenmodell), DWG (ACAD2016) und PDF zu liefern. Dazu zählen: - Greifer offen; Greifer zu; inkl. Werkstück - Greifergewicht, Abmaße - Funktionsmaße (Höhe, Passmaße, Toleranzen, …) - Greifkräfte - Belade- / Entlade- / Maschinenübergabepositionen - Abfragen inkl. Sensortypen, Bezeichnungen von Kauf- und Standardteilen wie z.B. Parallelgreifer, Linearzylinder, … - Funktion der Abfragen - Transportrichtung Sofern vom Endkunden keine Greifpunkte vorgegeben werden, sind diese durch den Lieferanten vorzuschlagen und gemeinsam mit MAG beim Endkunden zu genehmigen. Die Störkonturanalyse zwischen Greifer, Maschine und Vorrichtung obliegt dem Lieferanten. Alle notwendigen Daten sind termingerecht anzufordern und durch MAG bereitzustellen. Allgemeine Unklarheiten sind im Vorfeld mit MAG abzustimmen. Kosten, die im Nachgang hierfür entstehen, werden nicht durch MAG übernommen. #################### File: 240328_Lastenheft_Automation_Zukauf.pdf Page: 10 Context: # 12.3 Portaltechnik Die LIPs haben hinsichtlich technischer Ausführung folgende Anforderungen zu erfüllen: - Folgende Daten sind bereitzustellen: - Wiederholgenauigkeit der Achsen inkl. Greifer - Verfahrwege und Achsgeschwindigkeiten - Positioniergenauigkeit Be-/Entladen Spannvorrichtung: +/- 0,1 mm - Durchschlagsichere Ladeluften und Portalwannen sind notwendig - Der Lieferant bestätigt eine Tropfwannenauführung, die gewährleistet, dass der Boden nicht verschmutzt wird. Kabelkanäle und Medieneinheiten sind außerhalb des Nassbereiches anzusordnen. - Die Tropfwannen sind mit Schrägen und Ablaßschrauben auszuführen, damit im Nachgang eine eventuelle KSS-Rückführung ausgeschlossen werden kann. - Werkstückablageplätze sind so auszuführen, dass keine Späne auf den Flächen, Auflagen und Aufnahmepins liegen bleiben. Eventuelle Maßnahmen sind vorzusehen. - Ersatz- und Verschleißteile müssen einfach und schnell wechselbar sein. - Fundamentplatten sind mitzuliefern. - Die Portalhöhe ist so zu definieren, dass Maschinen unter dem Portal durchgeschoben werden können, sofern die Hallenhöhe dies zulässt. Grobe Richtwerte für Panzerrollen zur Maschineninbringung sind 120 mm (manuell) und 180 mm für elektrisch angetriebene. - Ab einer Portalänge von 22 m ist eine Temperaturkompensation in der X-Achse vorzusehen. - X- und Z-Achsen sind als Servo-Achsen auszuführen, ebenso die A-, B- und C-Achsen; die Y-Achse bevorzugt als Servo-Achse. - Allgemeine Unklarheiten sind im Vorfeld mit MAG abzustimmen. Kosten, die im Nachgang hierfür entstehen, werden nicht durch MAG übernommen. #################### File: 240328_Lastenheft_Automation_Zukauf.pdf Page: 12 Context: # 12.5 Roboter Die Auslegung und Auswahl des Roboters erfolgen durch den Lieferanten. Dieser ist auch hier für die sichere Funktion verantwortlich! Es ist vorab zu klären, ob der Roboter durch den Kunden beigestellt, oder durch den Lieferanten beschafft wird. - Der Lieferant bestätigt eine Tropfwannenanführung, die gewährleistet, dass der Boden nicht verschmutzt wird. Kabelkanäle und Medieneinheiten sind außerhalb des Nassbereiches anzusordnen. - Bei Nassbearbeitung sind Maßnahmen bzgl. KSS-Ansammlung und Verschleppung vorzusehen. - Werkstückablageplätze sind so auszuführen, dass keine Späne auf den Flächen, Auflagen und Aufnahmeplätzen liegen bleiben. Eventuelle Maßnahmen sind vorzusehen. - Die Störkonturantersuchung zwischen Roboter, Greifer, Maschine und Vorrichtung obliegt dem Lieferanten. Alle notwendigen Daten sind termingerecht anzufordern und durch MAG bereitzustellen. - Allgemeine Unklarheiten sind im Vorfeld mit MAG abzustimmen. Kosten, die im Nachgang hierfür entstehen, werden nicht durch MAG übernommen. - Die Greiferwartung und ein Roboterberücksichtigungskonzept sind vorzusehen. # 12.6 Farbgebung Die Lackierung der einzelnen Komponenten erfolgt nach Endkundenspezifikation. Eine Lackieranweisung wird seitens des MAG-Einkaufs zur Verfügung gestellt. Sollte diese nicht mitgeliefert werden, ist diese unaufgefordert anzufordern! # 12.7 Hardware / Fluidik Sofern vom Endkundenlastenheft nicht weiter spezifiziert: - Hydraulik- / Fluidplan in EPLAN P8 (>Version 2.5) - Schmierplan in EPLAN P8 (>Version 2.5) - Elektroschaltplan in EPLAN P8 (>Version 2.5) #################### File: 240328_Lastenheft_Automation_Zukauf.pdf Page: 13 Context: # 13 Steuerungskonzept / Ablaufbeschreibung Das Steuerungskonzept ist vom Lieferanten zu erstellen und mit MAG abzustimmen. Dieses muss vom Endkunden genehmigt werden. Ebenso wie alle Regel- und Sonderabläufe. # 14 Hallenriss / Maschineninbringung Die Maschineninbringung erfolgt, wenn nicht anders mit den Endkunden abgestimmt, durch den Lieferanten – ebenso der Hallenriss, das Verlegen und Befestigen der Fundamentplatten/Komponenten sowie das Verschweißen der Ständer auf den Fundamentplatten. Alle benötigten Hilfsmittel sind durch den Lieferanten bereitzustellen. # 15 Montage und Inbetriebnahme Die Montage, elektrische und pneumatische Installation sowie die Inbetriebnahme erfolgen durch den Lieferanten. Sämtliche Hilfsmittel wie Hebebühnen, Stapler, Hubwagen usw. sind durch den Lieferanten bereitzustellen. # 16 Instandhaltungskonzept Der Lieferant ist für die Wartung innerhalb seines Lieferumfanges verantwortlich. Ein Verschieben auf ein Fremdgewerk ist nicht zulässig! - Wartungsplattformen sind vorzusehen. siehe hierzu Lastenheft Kunde, wenn keine Vorgabe, ist nach Rücksprache MAG eine starre oder mobile Plattform zu verwenden. Ein Sicherheitskonzept ist zu berücksichtigen und aufzuzeigen. - Greiferwartungsplätze sind vorzusehen (z.B. SPC-Platz oder Be-/Entladechacht). Zugänglichkeit muss sichergestellt sein (mind. eine elektr. abgesicherte Zugangstür; Steckblech). - Das Wartungskonzept muss in der Betriebsanleitung ersichtlich sein. - Die Wartungsplätze sind im Hallenlayout darzustellen. - Eine Ablaufbeschreibung speziell zum Austausch der Motoren (X, Y, Z) ist vorzulegen. - Der Austausch aller Ersatz- und Verschleißteile muss ersichtlich und beschrieben sein. - Das Ersatzteilpaket hat alle notwendigen Ersatz- und Verschleißteile sowie werkstückübergreifende Teile inkl. Preis, Lieferzeiten und Herstellergarben zu beinhalten; siehe auch unter „_Dokumentation_“. - Werkstückübergreifende Teile müssen einfach und schnell wechselbar sein. - ... #################### File: 240328_Lastenheft_Automation_Zukauf.pdf Page: 14 Context: # 17 Kommunikation / Kontakte Der Lieferant kommuniziert direkt mit dem Endkunden und nimmt MAG bei allen Emails mit in CC. Somit soll der direkte Informationsaustausch sichergestellt werden. Bei allen technischen Durchsprachen sowie Genehmigungsdurchsprachen hat der Lieferant mit den entsprechenden Fachabteilungen teilzunehmen – sowohl bei Präsenz- als auch bei Online-Veranstaltungen. # 18 Protokollführung Die Protokollführung liegt beim Lieferanten! Dieses ist einen Tag nach der Besprechung bereitzustellen. # 19 Nachträge Auftragsänderungen sind vorab abzustimmen und anzumelden. Erst nach schriftlicher Freigabe durch MAG dürfen diese konstruktiv umgesetzt werden. Für Änderungen, die nicht schriftlich durch MAG freigegeben werden, trägt der Lieferant die Kosten! Ein Richtpreis ist innerhalb von drei Tagen bereitzustellen. #################### File: 240328_Lastenheft_Automation_Zukauf.pdf Page: 15 Context: # 20 Kontaktdaten ## 20.1 Technisches Angebot Automation/Zukauf - **Name:** Ralf Haug - **Tel:** +49 7161 / 805 1281 - **E-Mail:** [ralf.haug@mag-ias.com](mailto:ralf.haug@mag-ias.com) ## 20.2 Projektleitung Konstruktion Automation/Zukauf - **Name:** Matthias Grüner - **Tel:** +49 7161 / 805 2192 - **E-Mail:** [matthias.gruener@mag-ias.com](mailto:matthias.gruener@mag-ias.com) ## 20.3 Steuerungstechnik Automation/Zukauf - **Name:** Walter Schaaf - **Tel:** +49 7161 / 805 495 - **E-Mail:** [walter.schaaf@mag-ias.com](mailto:walter.schaaf@mag-ias.com) ## 20.4 Hardware / Fluid - **Name:** Gerald Weiglsberger - **Tel:** +49 7161 / 805 4455 - **E-Mail:** [gerald.weiglsberger@mag-ias.com](mailto:gerald.weiglsberger@mag-ias.com) ## 20.5 Einkauf - **Name:** Sonja Haas - **Tel:** +49 7161 / 805 1400 - **E-Mail:** [sonja.haas@mag-ias.com](mailto:sonja.haas@mag-ias.com) ## 20.6 Dokumentation - **Name:** Sabine Ax - **Tel:** +49 7161 / 805 448 - **E-Mail:** [sabine.ax@mag-ias.com](mailto:sabine.ax@mag-ias.com) #################### File: 240328_Lastenheft_Automation_Zukauf.pdf Page: 16 Context: # 20.7 Technical Compliance **Name:** Martin Kohnle **Tel:** +49 7161 / 805 3608 **E-Mail:** [martin.kohnle@mag-ias.com](mailto:martin.kohnle@mag-ias.com) ## 21 Abweichungen Lastenhefte Abweichungen von Kunden- und MAG-Lastenheften müssen durch den Lieferanten in einer separaten Auflistung im Angebot mit Alternativen aufgezeigt, begründet und anschließend von MAG schriftlich freigegeben werden! --- Automation/Zukauf Seite 16 von 16 MAG IAS GmbH #################### File: 2024-07-25%20Wo%CC%88rterbuch_extern-update.docx Page: 1 Context: | Auftragsnummer | Kunde | Enkunde | Verkettung/Produkt/Umbau | Werkstücktyp | Werkstückgewicht | Prozess | | -------- | -------- | -------- | -------- | -------- | -------- | -------- | 3037560 | Mercedes Benz | Mercedes Benz | Verlettung | Kurbelwelle | 20 | Handling | 3036337 | MAG | Lovol | Projekt | Zylinderblock | 60 | Handling | 3035132 | Läppler Automotive | Läpple | Verkettung | | | Schweißen | 3035288 | Sturm | BMW | Projekt | Zylinderblock | 40 | Handling | 3036885 | Läpple Automotive | Läpple Automotive | Verkettung | | | Schweißen | 3035671 | MAG | BMW Steyr | Projekt | Gehäuse E- Motor | 25 | Handling | 3035831 | Mercedes Benz AG | Mercedes Benz | Verlettung | Zylinderblock | 20 | Handling | 3035580 | Mercedes Benz Poland | Mercedes Benz | Verlettung | Kurbelwelle | 20 | Handling | 3035267 | Sturm | VW Changchun | Projekt | Zylinderblock | 40 | Handling | 3035818 | Tesla | Tesla Grünheide | Projekt | Rotor | | Handling | 3037321 | Mercedes-Benz | Mercedes Benz | Verlettung | Batterie | | Handling | 3035950 | Läppler Automotive | Läpple Automotive | Verkettung | | | Schweißen | 3037560 | Mercedes Benz | Mercedes Benz | Verlettung | Batterie | | Handling | 3036886 | Läpple Automotive | Läpple Automotive | Verkettung | | | Schweißen | 3037162 | Läpple Automotive | Läpple Automotive | Verkettung | | | Schweißen | 3036674 | Läpple Automotive | Läpple Automotive | Verkettung | | | Schweißen | #################### File: 2024-07-25%20Wo%CC%88rterbuch_extern-update%20%281%29.docx Page: 1 Context: 3037164 | Läpple Automotive | Läpple Automotive | Verkettung | | | Schweißen | 3036955 | Läpple Automotive | Daimler Truck | Verkettung | | | Schweißen | 3034548 | MAG | VW Chemnitz | Kleinprojekt | Zylinderkopf | 25 | Handling | 3037121 | Mercedes Benz | Mercedes Benz | Verlettung | Kurbelwelle | 20 | Handling | 3038186 | MAG | VW | Kleinprojekt | Getriebe | 25 | Handling | 3036674 | Läpple Automotive | Läpple Automotive | Verkettung | | | Schweißen | 3036917 | Läpple Automotive | Läpple Automotive | Verkettung | | | Schweißen | 3037002 | Still | Still | Verkettung | Hubmast | | Schweißen | 3037199 | MAG | VW Kassel | Projekt | Getriebegehäuse | 25 | Handling | 3037493 | Mercedes Benz | Mercedes Benz | Verlettung | Zylinderblock | 20 | Handling | 3037701 | MAG | VW Kassel | Projekt | Getriebegehäuse | 25 | Handling | 3037246 | This document was truncated here because it was created in the Evaluation Mode. ########## """QUERY: "Who is the customer? Who is the end customer? Where is the installation location of the system (location, end customer's factory, building)? What is the hall height of the factory or building in which the system is to be installed? Sales Manager: Who is the responsible FLT Sales Manager for this customer? No explanation, please just the table Table title: Customer, End customer, Installation location, Hall height (without mentioning the other definitions), Sales Manager"""" Consider the chat history for relevant information. Use all information included. Use as much tokens as needed. Important: If you find information separated by a | in the context, it is a table formatted in Markdown.Important: Take a look at the QUERY and only the QUERY. If this is vague or unclear, please ignore everything and ask a follow-up question instead! Final Files Sources: dictionary.txt - Page 1, Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls - Page 1, Medium%20cylinder%20block%20finishing%20line%20technical%20requirements_20240331%20Rev2%281%29.xls - Page 2, FLT%20Wo%CC%88rterbuch2.pdf - Page 1, DD_Block_Head_Automation_Inquiry_100424.pdf - Page 1, DD_Block_Head_Automation_Inquiry_100424.pdf - Page 2, DD_Block_Head_Automation_Inquiry_100424.pdf - Page 3, DD_Block_Head_Automation_Inquiry_100424.pdf - Page 4, DD_Block_Head_Automation_Inquiry_100424.pdf - Page 5, DD_Block_Head_Automation_Inquiry_100424.pdf - Page 7, DD_Block_Head_Automation_Inquiry_100424.pdf - Page 8, DD_Block_Head_Automation_Inquiry_100424.pdf - Page 9, DD_Block_Head_Automation_Inquiry_100424.pdf - Page 10, DD_Block_Head_Automation_Inquiry_100424.pdf - Page 14, DD_Block_Head_Automation_Inquiry_100424.pdf - Page 17, DD_Block_Head_Automation_Inquiry_100424.pdf - Page 18, DD_Block_Head_Automation_Inquiry_100424.pdf - Page 19, DD_Block_Head_Automation_Inquiry_100424.pdf - Page 20, DD_Block_Head_Automation_Inquiry_100424.pdf - Page 21, 240328_Lastenheft_Automation_Zukauf.pdf - Page 1, 240328_Lastenheft_Automation_Zukauf.pdf - Page 2, 240328_Lastenheft_Automation_Zukauf.pdf - Page 3, 240328_Lastenheft_Automation_Zukauf.pdf - Page 4, 240328_Lastenheft_Automation_Zukauf.pdf - Page 5, 240328_Lastenheft_Automation_Zukauf.pdf - Page 6, 240328_Lastenheft_Automation_Zukauf.pdf - Page 7, 240328_Lastenheft_Automation_Zukauf.pdf - Page 8, 240328_Lastenheft_Automation_Zukauf.pdf - Page 9, 240328_Lastenheft_Automation_Zukauf.pdf - Page 10, 240328_Lastenheft_Automation_Zukauf.pdf - Page 12, 240328_Lastenheft_Automation_Zukauf.pdf - Page 13, 240328_Lastenheft_Automation_Zukauf.pdf - Page 14, 240328_Lastenheft_Automation_Zukauf.pdf - Page 15, 240328_Lastenheft_Automation_Zukauf.pdf - Page 16, 2024-07-25%20Wo%CC%88rterbuch_extern-update.docx - Page 1, 2024-07-25%20Wo%CC%88rterbuch_extern-update%20%281%29.docx - Page 1 ================================================== **Elapsed Time: 38.03 seconds** ================================================== FINAL ANSWER Answer: ================================================== **Elapsed Time: 0.00 seconds** ==================================================