关于SMED含义及其要点 _ 工业工程网
哪位知道SMED含义,最好能够指导下SMED的要点,请多多指教,谢谢各位samnet1 (2008-12-26 08:54:37)Info from :http://en.wikipedia.org/wiki/SMED
SMED (Single Minute Exchange of Die)
Single Minute Exchange of Die (SMED) is one of the many lean production methods for reducing waste in a manufacturing process. It provides a rapid and efficient way of converting a manufacturing process from running the current product to running the next product. This rapid changeover is key to reducing production lot sizes and thereby improving flow (Mura) which is a 'Lean' aim. It is also often referred to as Quick Changeover (QCO). Performing faster change-overs is important in manufacturing, or any process, because they make low cost flexible operations possible.
The phrase "single minute" does not mean that all changeovers and startups should take only one minute, but that they should take less than 10 minutes (in other words, "single digit minute"). Closely associated is a yet more challenging concept of One-Touch Exchange of Die, (OTED), which says changeovers can and should take less than 100 seconds
History
An increase in effective operating time caused by the change-over. SMED is the key to manufacturing flexibility.
Changeover time Lot size Process time per item Operation time Ratio
1 min 5.8 min 480%
8 hours 1,000 1 min 1.48 min 48%
8 hours 10,000 1 min 1.048 min 5%
Toyota's additional problem was that land costs in Japan are very high and therefore it was very expensive to store economic lots of its vehicles. The result was that its costs were higher than other producers because it had to produce vehicles in uneconomic lots.
The "economic lot size" (or EOQ) is a well-known, and heavily debated, manufacturing concept. Historically, the overhead costs of retooling a process were minimized by maximizing the number of items that the process should construct before changing to another model. This makes the change-over overhead per manufactured unit low. According to some sources optimum lot size occurs when the interest costs of storing the lot size of items equals the value lost when the production line is shut down. The difference, for Toyota, was that the economic lot size calculation included high overhead costs to pay for the land to store the vehicles. Engineer Shingo could do nothing about the interest rate, but he had total control of the factory processes. If the change-over costs could be reduced, then the economic lot size could be reduced, directly reducing expenses. Indeed the whole debate over EOQ becomes restructured if still relevant. It should also be noted that large lot sizes require higher stock levels to be kept in the rest of the process and these, more hidden costs, are also reduced by the smaller lot sizes made possible by SMED.
Over a period of several years, Toyota reworked factory fixtures and vehicle components to maximize their common parts, minimize and standardize assembly tools and steps, and utilize common tooling. These common parts or tooling reduced change-over time. Wherever the tooling could not be common, steps were taken to make the tooling quick to change.
Example
The most difficult tooling to change were the dies on the large transfer-stamping machines that produce car vehicle bodies. The dies must be changed for each model. They weigh many tons, and must be assembled in the stamping machines with tolerances of less than a millimeter.
When engineers examined the change-over, they discovered that the established procedure was to stop the line, let down the dies by an overhead crane, position the dies in the machine by human eyesight, and then adjust their position with crowbars while ** individual test stampings. The process took from twelve hours to three days.
The first improvement was to place precision measurement devices on the transfer stamping machines, and record the necessary measurements for each model's die. Installing the die against these measurements rather than 'by eye' immediately cut the change-over to a mere hour and a half.
Further observations led to further improvements: Scheduling the die changes in a standard sequence, part of FRS, as a new model moved through the factory, dedicating tools to the die-change process so that all needed tools were nearby, and scheduling use of the overhead cranes, so that the new die would be waiting as the old die was removed.
Using these processes, Toyota engineers cut the change-over time to less than 10 minutes per die, and thereby reduced the economic lot size below one vehicle. Note: The Single in Single Minute Exchange of Die meant single digit minutes, so less than 10 minutes, not less than 1 minute
The success of this program contributed directly to just-in-time manufacturing which is part of the Toyota Production System. SMED makes Load balancing much more achievable by reducing economic lot size and thus stock levels.
Effects of implementation
Shigeo Shingo, who created the SMED approach, claims that in his data from between 1975 and 1985 that average setup times he has dealt with have reduced to 2.5% of the time originally required; a 97% improvement.
However, the power of SMED is that it has a lot of other effects which come from systematically looking at operations; these include:
Stockless production which drives capital turnover rates,
Reduction in footprint of processes with reduced inventory freeing floor space
Productivity increases or reduced production time
Increased machine work rates from reduced setup times even if number of changeovers increases
Elimination of setup errors and elimination of trial runs reduces defect rates
Improved quality from fully regulated operating conditions in advance
Increased safety from **r setups
Simplified housekeeping from fewer tools and better organisation
Lower expense of setups
Operator preferred since easier to achieve
Lower skill requirements since changes are now designed into the process rather than a matter of skilled judgement
Elimination of unusable stock from model changeovers and demand estimate errors
Goods are not lost through deterioration
Ability to mix production gives flexibility and further inventory reductions as well as opening the door to revolutionised production methods (large orders ≠ large production lot sizes)
New attitudes on controlability of work process amongst staff
Implementation
Shigeo Shingo recognises eight techniques that should be considered in implementing SMED.
Separate internal from external setup operations
Convert internal to external setup
Standardize function, not shape
Use functional clamps or eliminate fasteners altogether
Use intermediate jigs
Adopt parallel operations (see image below)
Eliminate adjustments
Mechanization
NB External setup can be done without the line being stopped whereas internal needs the line to be stopped.
He suggests that SMED improvement should pass through four conceptual stages:
A. ensure that external setup actions are performed while the machine is still running, B. separate external and internal setup actions, ensure that the parts all function and implement efficient ways of transporting the die and other parts, C. convert internal setup actions to external, D. improve all setup actions.
Formal method
There are seven basic steps to reducing changeover using the SMED system:
OBSERVE the current methodology (A)
Separate the INTERNAL and EXTERNAL activities (B). Internal activities are those that can only be performed when the process is stopped, while External activities can be done while the last batch is being produced, or once the next batch has started. For example, go and get the required tools for the job BEFORE the machine stops.
Convert (where possible) Internal activities into External ones (C) (pre-heating of tools is a good example of this).
Streamline the remaining internal activities, by simplifying them (D). Focus on fixings - Shigeo Shingo rightly observed that it's only the last turn of a bolt that tightens it - the rest is just movement.
Streamline the External activities, so that they are of a similar scale to the Internal ones (D).
Document the new procedure, and actions that are yet to be completed.
Do it all again: For each iteration of the above process, a 45% improvement in set-up times should be expected, so it may take several iterations to cross the ten minute line.
This diagram shows four successive runs with learning from each run and improvements applied before the next.
Run 1 illustrates the original situation.
Run 2 shows what would happen if more changeovers were included.
Run 3 shows the impact of the improvements in changeover times that come from doing more of them and building learning into their execution.
Run 4 shows how these improvements can get you back to the same production time but now with more flexibility in production capacity.
Run N (not illustrated) would have changeovers that take 1.5 minutes (97% reduction) and whole shift time reduced from 420 minutes to 368 minutes a productivity improvement of 12%.
The SMED concept is credited to Shigeo Shingo, one of the main contributors to the consolidation of the Toyota Production System, along with Taiichi Ohno.
Key elements to observe
Operation Proportion of time
Preparation, after-process adjustment, and checking of raw materials, blades, dies, jigs, gauges, etc. 30%
Mounting and removing blades, etc. 5%
Centering, dimensioning and setting of conditions 15%
Trial runs and adjustments 50%
Look for:
shortages, mistakes, inadequate verification of equipment causing delays and can be avoided by check tables, especially visual ones, and setup on an intermediary jig
inadequate or incomplete repairs to equipment causing rework and delays
optimization for least work as opposed to least delay
unheated molds which require several wasted 'tests' before they will be at the temperature to work
using slow precise adjustment equipment for the large coarse part of adjustment
lack of visual lines or benchmarks for part placement on the equipment
forcing a changeover between different raw materials when a continuous feed, or near equivalent, is possible
lack of functional standardization, that is standardization of only the parts necessary for setup e.g. all bolts use same size spanner, die grip points are in the same place on all dies
much operator movement around the equipment during setup
more attachment points than actually required for the forces to be constrained
attachment points that take more than one turn to fasten
any adjustments after initial setup
any use of experts during setup
any adjustments of assisting tools such as guides or switches
Record all necessary data
Data capture template
Parallel operations using multiple operators By taking the 'actual' operations and ** them into a network which contains the dependencies it is possible to optimise task attribution and further optimize setup time. Issues of effective communication between the operators must be managed to ensure safety is assured where potentially noisy or visually obstructive conditions occur.http://www.chinaie.net/
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http://www.chinaie.net/
Smedfases.gif
futurepower (2008-12-26 10:23:53)感谢楼上的信息, 蛮不错的,特别是图表, 很清晰功夫奶牛 (2008-12-26 12:56:48)谢谢2楼的分享,如果要是有中文解释就更加好了yuhaha (2008-12-27 10:46:31)thanks a lot! good job!yuhaha (2008-12-27 10:47:04)也不知道这个东西好不好学?jaspcyjqjm (2008-12-28 11:38:08)It is so long,study........zhjy2001_2001 (2008-12-28 11:55:52)实现SMED:1、内外作业进行分离;2、尽可能将内作业转化成外作业;3、缩短内外作业的时间。功夫奶牛 (2008-12-28 16:37:34)不错,通俗易懂,谢谢8楼wulf888 (2008-12-28 18:56:37)对于我来说,属于新知识,谢谢分享功夫奶牛 (2008-12-29 17:09:23)没有{词语被屏蔽}知道SMED吗?请留下你们的脚印,大家一起交谈下,说出来分享一下dazhifu (2008-12-29 23:34:02) 11# 功夫奶牛
原则上按以下4个步骤进行:
1.识别内外作业
2.将内部作业转化为外部作业
3.缩短内部作业时间
4.缩短外部作业时间功夫奶牛 (2008-12-31 19:13:53)挺容易理解的,非常感谢,感觉应该是最大限度利用时间,争取最大化效益w027abco (2009-1-01 09:03:18)谢谢
收藏了
http://www.chinaie.net/http://www.chinaie.net/:)BUKD (2009-1-01 11:35:15)smed既是个管理问题,也是个技术问题
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