ICS25.010 Machinery Industry Standard of the People's Republic of China JB/T9167.1 Management guide for tooling design Vocabulary Published on November 20, 1998 National Bureau of Machinery Industry Implemented on December 1, 1998 JB/T9167.11998 This standard is a revision of JB/Z283.1~283.5-87 "Management Guide for Tooling Design". Only editorial changes were made during the revision, and the main technical content remained unchanged. This standard replaces JB/Z283.1~283.5-87 from the date of implementation. All appendices to this standard are informative appendices. This standard was proposed and managed by the Mechanical Science Research Institute. The main responsible drafting unit of this standard: Mechanical Science Research Institute. The main drafters of this standard are Ma Xianzhi, Li Qin, Shi Junwei and Hu Huiqing. I 1 Scope Mechanical Industry Standard of the People's Republic of China Management guide for tooling design Vocabulary JB/T9167.11998 Replaces JB/Z283.1-87 This standard defines the relevant terms in JB/T9167.2~9167.5 and is applicable to the design and management of mechanical manufacturing process equipment. 2 Terminology 2.1 Process equipment [Tooling] The overall variety of tools used in the product manufacturing process, including cutting tools, fixtures, molds, measuring tools, inspection tools, auxiliary tools, bench tools and work station equipment, etc. 2.2 Process equipment [Equipment] Main production equipment to complete the process, such as various machine tools, heating furnaces, electroplating tanks, etc. 2.3 General process equipment Process equipment that can be shared by several products. 2.4 Standard process equipment Process equipment that has been included in the standard. 2.5 Special process equipment Process equipment used specifically for a certain product. 2.6 Group process equipment Based on the principle of group technology, it is a process equipment designed specifically for a group or a family of similar parts, composed of a basic part and an interchangeable and adjustable part for group processing. 2.7 Adjustable process equipment Process equipment that can be used for the processing of several products by adjusting or replacing tooling parts and components. 2.8 Combined process equipment Assembled from recyclable standard parts and components (some special parts can be used when necessary) into a tooling that is easy to connect and disassemble. 2.9 Cross-product borrowed process equipment Special process equipment borrowed by products of the same variety but different models. 2.10 Combined fixture It is composed of standard fixture components and parts that can be recycled; it can be assembled into a fixture that is easy to connect and disassemble according to process requirements. 2.11 Special process equipment design task book Approved by the State Machinery Industry Bureau on November 20, 1998 and implemented on December 1, 1998 JB/T9167.1 An indicative document for the design of special process equipment proposed by process personnel based on process requirements, which serves as the basis for tooling designers to design tooling. 2.12 Process equipment verification The process of evaluating the rationality of tooling through testing, inspection and trial after the tooling is manufactured. 2.13 Process equipment verification book A process document that records the verification results of new process equipment. 2.14 Common factor of tooling The ratio of the number of parts and components of products that are common to tooling to the number of tooling types. 2.15 Tooling utilization rate The ratio of the number of tooling types actually used to the number of tooling types designed to ensure the product production outline. 2.16 Tooling load rate The ratio of the actual working time of the tooling to the total effective time during the product production plan period. 2.17 Tooling calculation consumption cost The cost calculated according to the tooling design and manufacturing quota. 2.18 Rated tooling consumption cost The tooling design and manufacturing cost specified in the trial production stage and formal production stage of the product. 2.19 Special tooling coefficient The ratio of the number of product-specific tooling types to the number of product-specific parts. 2.20 Tooling complexity coefficient The value indicating the complexity of the tooling, which is determined by factors such as its cost, number of pieces, accuracy, and the number of calculated dimensions and overall dimensions to ensure the product size requirements. 2.21 Tooling complexity level It indicates the level of tooling complexity, so as to make technical and economic evaluation of tooling and improve the management of tooling design, manufacturing and use process. Generally, it can be divided into A, B, C, ... levels according to the complexity coefficient. 2wwW.bzxz.Net People's Republic of China Mechanical Industry Standard Guidelines for the Design and Management of Process Equipment JB/T9167.1 Published and issued by the Mechanical Science Research Institute Printed by the Mechanical Science Research Institute (No. 2 Shouti South Road, Beijing Format 880×1230 Postal Code 100044) Print Sheet X/X Number of Words XXX,XXX Edition X, XX, 19XX Printing X, XX, 19XX Number of Prints 1 Price XXx.xX Yuan Mechanical Industry Standard Service Network: 8661 Tip: This standard content only shows part of the intercepted content of the complete standard. If you need the complete standard, please go to the top to download the complete standard document for free.