工業和商業黃頁資訊網論文書籍站
workspace的問題,透過圖書和論文來找解法和答案更準確安心。 我們找到下列問答集和資訊懶人包
workspace的問題,我們搜遍了碩博士論文和台灣出版的書籍,推薦Bendz, Taino寫的 Tech-Life Balance: 101 Ways to Take Control of Your Digital Life and Save Your Sanity 和Henson, Mike的 Broccoli’’s Big Day!都 可以從中找到所需的評價。
這兩本書分別來自 和所出版 。
國立臺灣科技大學 機械工程系 林清安所指導 蕭至樂的 切削面積最大化之電腦輔助五軸傾斜面加工 (2021),提出 workspace關鍵因素是什麼,來自於3D CAD/CAM、五軸加工、傾斜面加工。
而第二篇論文國立臺灣科技大學 機械工程系 陳羽薰所指導 謝友涵的 並聯式靜平衡機構設計與運動模擬 (2021),提出因為有 六自由度並聯式機構、創意性機構設計、靜力平衡的重點而找出了 workspace的解答。
Tech-Life Balance: 101 Ways to Take Control of Your Digital Life and Save Your Sanity
為了解決 workspace 的問題,作者Bendz, Taino 這樣論述:
A look into all the ways we have been tethered by technology and how to fix it in 101 creative and strategic ideas.Are you thinking about checking your phone right now? There’s a very good chance you are, because in recent years, our phones have become the go-to device which make-up most of our live
s. From emails to social media to checking the weather or finding directions, it’s definitely been a great tool. Until it’s not.Tech-Life Balance addresses the important and very real issue of being addicted to our phones and similar technology while highlighting solutions and simple ways to amelior
ate the problem. The book includes such topics as: - Identifying your poor tech use habits and triggers- Purposeful/mindful use of social media- Making your home and workspace tech-free during downtime- How to maintain healthy tech habits while living with other people who don’t- Suggestions for oth
er healthy activities (exercise, involving hobbies) to fill the space formerly occupied by device use- Proper/prescriptive habits for recreational use of devices Written by the founder of International Phone Free Day through his research and first-hand experiences, Tech-Life Balance offers a low-ke
y, fun way to investigate this digital dilemma and provides real solutions and life hacks to break the addiction once and for all in a little and gifty package. Taino Bendz is the founder of Phone Free Day and his own consulting business, and his message on mindful and intentional technology usage
has reached and inspired hundreds of thousands of people around the world. He is a public speaker, workshop facilitator, and conducts research on digital technology usage. Taino holds a Master’s Degree in Industrial Engineering and Management and has spent the last 10 years working in technology se
ctors such as renewable energy, healthcare IT, and software automation. He currently lives in Sweden with his partner and two young sons.
workspace進入發燒排行的影片
切削面積最大化之電腦輔助五軸傾斜面加工
為了解決 workspace 的問題,作者蕭至樂 這樣論述:
使用五軸加工機進行傾斜面加工時,往往需要數個刀軸方向方能完成整個零件的切削,但頻頻變換刀軸方向不僅會增加工時,亦有可能產生接刀痕跡,導致加工品質不良,因此如何以最少旋轉次數完成零件加工成為提高產能及改善加工品質之關鍵,本論文將探討如何以“可加工面積”為準則,自動化計算五軸傾斜面加工之刀軸方向,以提高加工精度及降低加工時間。本論文的研究方法為在零件3D CAD模型的表面分佈眾多參考點,以球座標的兩個旋轉角為可變參數,找出所有可能的刀軸方向,然後以所有的刀軸方向為射線方向,對參考點進行遮蔽及干涉檢查,藉此得到各刀軸方向的可加工面積,並比較其數值,找出當中可加工面積為最大值之刀軸方向,做為第一個輸
出的刀軸方向;接著對第一個刀軸方向上剩餘無法加工之參考點重複上述檢查,輸出第二個刀軸方向,重覆此步驟,直到所有參考點皆可加工為止,利用此方法計算出來的結果為刀軸旋轉次數及接刀痕跡皆為最少的最佳化刀軸方向;最後以求出的刀軸方向透過CAM軟體產生五軸NC加工的刀具路徑,並於電腦上進行3D切削模擬,以確認刀軸方向的正確性。
Broccoli’’s Big Day!
為了解決 workspace 的問題,作者Henson, Mike 這樣論述:
Mike Henson grew up in Zimbabwe, but after bobbing around the world, has ended up on a little island off the south coast of England. Mike and his wife have three children, who they suspect might be monkeys, and secret plans to steal a baby hippo (it hasn’t happened yet--and probably won’t--ever!). M
ike loves to create--stories, pictures, songs and mess in the kitchen. As an author, illustrator, and designer his main workspace is a little caravan in the garden, crammed full of books, sketch pads, pencils, and other nonsense.
並聯式靜平衡機構設計與運動模擬
為了解決 workspace 的問題,作者謝友涵 這樣論述:
飛行模擬器中的致動平台,是為了讓飛行員可以正確的辨別出飛行同時所受到的加速度所產生的力,此外致動平台也廣泛應用於工業上;在大多數場合應用的制動平台,其力矩由並聯足部上的馬達共同承擔。本研究探討一種六個自由度並聯式機器人之靜平衡設計,其方法是由創意性設計方法尋找出和目前文獻找到的非同構機構構型,設計機構出並且佈署靜平衡配置,計算力學能之理論值並且以MSC ADAMS 進行模擬驗證,此外建立一個三足原型機,對其進行實驗並分析之。本文回顧幾種常見的多自由度並聯式機構之構型,以及靜平衡機構的配置,再藉由能量守恆列出平衡方程式,再找出其符合方程式的解。該機構具有三個足部,總共配備六顆馬達作為姿態上
的改變的致動電機,可以在其分析的工作區域範圍運動。藉由靜力平衡原理推導理想零自由長度彈簧的彈性係數,其後以一組等效滑輪取代上述之零自由長度彈簧,藉此實現在六自由度平台上的定負載完美靜平衡機構。 以Adams 模擬,求得靜平衡構型能為馬達節省99.9%以上的靜止扭矩,運動情況下靜平衡構型能為馬達節省96.4%的能量消耗,靜平衡構型能為馬達節省95.5%的馬達能量輸出率,此外藉由原型機的製作與測試,動態測試上節省了43.5%至62.44%的拉伸力,靜態牽引實驗結果,於運動範圍內可達成自然靜止。