I am having a tough time explaining to my superiors of why CAD is required when manufacturing. Current situation is, we are in a partnership with another company that manufactures heavy equipment for underground use. We import that equipment into Canada, bring up to operating standards and sell to mines.
The trouble that I am having is, they are making the changes to the equipment without documenting it. I have drawn up mounting blocks and structural add ons, but the rest of the project is done hands on. To me this is costing the company time and money. The mechanics are installing the drives line and working system as they go, and once they are done the electricians are wiring it up so that is runs. This seems backwards to me??
How I see things to be done, is to have a full functional CAD model with all the mechanical, hydraulic and electrical componentry done. Benefits of this is to track each piece of equipment and it components (BOM) and can create manuals from the CAD data.
We have built a few pieces of equipment and it has been sold and now I am being ask to help with providing manuals. I look at my boss and explain to him that I can't draw what I don't see. and that in order to provide them with this documentation they need to give me time to fully model the entire piece of equipment. (months, not days)
My basic request in this thread, how can I explain to my boss in simple terms why it is important to fully model a piece of equipment. What the full benefits are. Every time I search online, (something like "benefits of CAD modeling")I get results of which CAD software to use and why. But I am looking at it from the benefit to the company, not the CAD user. Every time I mention fully modeling the piece of equipment, they give me a blank look and say "why, we're, making good profit" . Then I begin to wonder if I do need to fully model the equipment?? Haha, any longtime engineers or project managers out there know where I am coming from?
Thanks!!!
I agree there is a ton of awesome information here, I am going to be creating a short report and hand it to my supers and use lots of good key points from here.
The company I work for only recently started "manufacturing" heavy equipment. There main business was simply purchasing old retired heavy equipment, refurbishing it with OEM parts and then re-selling at a discounted price.
Just recently, we started purchasing new equipment, and re-building it to "toughen' it up for hard rock mining here in Sudbury. The frame and working systems are not altered. We mainly just add on supports and wear plates. But all the electrical and hydraulic is switched to standard sizes and components available here in Canada.
If there ever was an issue with a scoop malfunctioning and causing damage or bodily harm, I believe it is still covered under the initial engineering done when the scoop was made, I could be wrong though...
thanks!
The safety issue comes to my mind as well. If something goes wrong, even if technical liability is assigned to the original manufactuerer your company can still get a black eye by not having relevant information available about what was shipped vs. potential undocumented owner/operator mods. Even having an engineer approved model will provide some legal fig leaves if the shop decides not to follow the agreed and approved plans.
You can't count on getting photos or sketches from the field, and even if you do there's always those areas where something is blocking the picture. Unlike a model, where you can logically hide parts to see what is (or should be) there.
Something touched on earlier is modeling level of detail. You don't necessarily need to model absolutely everything right now. Trim it down to the bones, figure out what is absolutely necessary to start with and pitch that. You can always add more later as your work processes and expectations firm up.
Something you could look into for already deployed equipment is LIDAR scanning. Combined point clouds and pictures allows for a fairly detailed model of whats been built. Somewhat expensive but if you are trying to model something without any documentation it makes for an excellent point of reference.
Hi SeanFarr,
In addtion to all of the other replies this link might be worth a read:
http://m.plm.automation.siemens.com/en_us/Images/aberdeen_2d_to_3d_cad_aug2008_tcm1224-67907.pdf
I hope this helps.
Best of luck to you in all of your Inventor pursuits,
Curtis
http://inventortrenches.blogspot.com
There have been many good points provided so far. To my mind, and from my experience, the best selling points are these:
1) Reduction in liability.
This is a potential company killer. Given that you're remanufacturing mining equipment (an inherently dangerous industry) if there were to be a law suit over an injury or fatality incident, the mining company (or more likely their insurance provider) will likely sue anyone and everyone within sight. Canada is not as litigious as the U.S., but it may not be a Canadian court that your company gets tried in. If you don't have strong documentation of exactly what was modified and how, your company may be quickly submerged in... excrement. With the OEM being situated in China, they will likely be either out of legal reach or heavily supported by the Chinese government, both legally and politically. They will likely abdicate all responsibility if you so much as repaint over their logo, let alone re-plumb and re-wire their machine - with their knowledge and permission or without. This would put your company square in the insurer's sights, and full steam ahead! CAD documentation would be a part of this documentation, not the whole thing, but without it you're going to have a lot of trouble properly identifying the modifications made. Imagine the witness stand... Prosecutor: "Why did you make that change?" Foreman: "We've always done it that way." Prosecutor: "How do you know it's the right way?" Foreman: "Old Bob said it was the right way." Prosecutor: "Heresay, Your Honor, as Old Bob is deceased and cannot confirm this. What documentation other than your memory do you have, Mr. Foreman?" Foreman: "Gulp!"
Have them talk to their lawyers. They'll get an awful fright.
2) Retention of corporate intellectual assets.
This is basically the "hit by a bus" scenario, though the bus can be retirement, resignation, lay-off, or even mental illness. How much money has the company invested in training its employees, generating trade practices, and developing product designs that make its products saleable to their clients? Is the company willing to risk losing that value when employees get "hit by a bus?"
Additionally, there is the market for replacement parts. If your customer calls up for a bucket lift ram retraction hose and you can't make one for them without having the unit in the shop, that'll be the last time they call you for any replacement parts - be it a boom, bucket, motor, or hose fitting. (They may also consider buying their next piece of equipment from a more professional manufacturer - someone serious about aftermarket support and service.)
Have them talk to their shareholders.
3) Increased design and production efficiencies.
This is a tougher sell if you mostly do one-off products. If every job is unique, there is less return on the design investment. If, however, you ever build more than one, there will be great reward in being able to track: exactly what was made for each unit, exactly how each part was fit onto the unit, and exactly how much material was required. "Old Bob" goes fishing for two weeks and New Guy doesn't get the full rundown from Old Bob on exactly how he does it... now what? Also, having a pile of steel plate, some angle iron, a few spools of hose, and some spools of wire and then "winging it" on the shop floor leads to excess rework and scrap. Knowing in advance exactly what you need to make leads to efficiencies in plate and stock "nesting" and less on-hand inventory requirements. (Excess stock keeping is cash that comes straight off of the bottom line.)
Revisions to an existing design become somewhat trivial (certainly in design cost) when using CAD. An additional benefit is having exact documentation on the specific feratures for each serial numbered machine shipped. This, and other advantages, are probably well known to you already.
Management may resist on the fear of the shop floor craftsmen revolting at the prospect of having their hard won knowledge "stolen" into the company's files. The craftsmen sometimes measure their potential value to the company by how hard they can leverage their secret knowledge against the risk of being laid off - the more you know, the more you're worth to the company. It's a legitimate concern, but if the company has a reasonably good relationship with its workers the notion of preserving their knowledge can be sold as easing their work load by not having to reinvent the wheel on each new piece of machinery. This may free up some creativity at the shop floor level for helping design better techniques, layouts, features and even product lines - the engineering department doesn't have all the answers.
Have them talk to their workers.
Ultimately it's all about bean counting. Without a net saving the expenditure isn't worth it - including your salary.
I can't believe the replies to this, I am going to make a great report to my supervisors and hopefully we can sort out this new venture for us.
I appreciate them all and hopefully the thread becomes useful to others.
Thanks!!
@Anonymous wrote:... I am going to make a great report to my supervisors ....
Make sure you have someone else proof reed your report before you turn it in.
I just made have a dosen typos in another thread.
Even the highest pade professional writters in the world have editors.
Believe me - one typo can sink a report when someone is looking for a way to discredit or downplay your position.
(I noticed you used there for their several times.) (I can always spot someone else's typos but not my own.)
I so feel your pain! I work at a company who's management has very much the same attitude. To make matters worse, most of the engineers who worked here before me seem to have more or less agreed with that thinking. CAD has been viewed as merely a way to save paper when drafting. To this day, even though we have been using 3D CAD for going on ten years, we do not have a single top-level CAD assembly of any product.
And yet every single day I encounter problems in production that are easily traceable to poor or inadequate CAD practices. If I had a magic answer for how to change management's thinking about this I would be happy to pass it on. But I think it's like so many things: the best you can do is chip away at it bit by bit and try to demonstrate how to do things better by a series of small examples.
It sounds like you're dealing with a small number of large, probably highly customized products. Perhaps you could find one key subsytem that you can properly model relatively indpendently of the rest, and then track how easy it is to cusomize, revise, and problem solve with that system compared to unmodelled systems.