- 令和
- 日刊工業新聞
- ナブテスコ
- ロゴ
- 企業
- 看板
- コントロール
- フライト
- 会場
- 平成
「アクチュエーター」の写真・グラフィックス・映像
- 提供元
- 日付
- 種類
- 向き
- カテゴリ
- 色
- 提供元
- 日付
- 24時間以内 0
- 48時間以内 0
- 72時間以内 0
- 7日以内 0
- 30日以内 0
- 1年以内 8
- 期間を指定 23
- 日付指定なし 23
- 種類
- 写真 23
- グラフィックス 0
- 映像 0
- 向き
- 縦 1
- 横 22
- 正方形 0
- カテゴリ
- ニュース
- スポーツ
- エンターテインメント
- 教育向け
- カテゴリ指定なし
- 色
- カラー 23
- モノクロ 0
- 古い順
- 1
- 古い順
1994年09月09日アクチュエータ 磁気で羽ばたく小さな翼東北大グループが開発した「バタフライ型」アクチュエータ
商品コード: 1994090900020
2018年11月28日ナブテスコのロゴマークキーワード:ナブテスコ、Nabtesco、機械メーカー、アクチュエーター、精密減速機、ブレーキ装置、ドア開閉装置、自動ドア、NABCOブランド、企業、看板、ロゴ、ロゴマーク=2018(平成30)年11月28日、国際航空宇宙展会場、クレジット:日刊工業新聞/共同通信イメージズ
商品コード: 2019020122902
2018年11月28日ナブテスコのロゴマークキーワード:ナブテスコ、Nabtesco、機械メーカー、アクチュエーター、精密減速機、ブレーキ装置、ドア開閉装置、自動ドア、NABCOブランド、企業、看板、ロゴ、ロゴマーク=2018(平成30)年11月28日、国際航空宇宙展会場、クレジット:日刊工業新聞/共同通信イメージズ
商品コード: 2019020122869
2019年05月22日ショーワ、ステア・バイ・ワイヤシステムキーワード:ショーワ、自動運転、ステア・バイ・ワイヤシステム、反力アクチュエーター、人とくるまのテクノロジー展=2019(令和元)年5月22日、神奈川県横浜市、クレジット:日刊自動車新聞/共同通信イメージズ
商品コード: 2019080606520
2021年10月06日ナブテスコのロゴマークキーワード:ナブテスコ、Nabtesco、機械メーカー、フライト・コントロール・アクチュエーター、精密減速機、建設機械用油圧機器、企業、看板、ロゴ、ロゴマーク=2021(令和3)年10月6日、東京都江東区、クレジット:日刊工業新聞/共同通信イメージズ
商品コード: 2021111808360
2021年10月06日ナブテスコのロゴマークキーワード:ナブテスコ、Nabtesco、機械メーカー、フライト・コントロール・アクチュエーター、精密減速機、建設機械用油圧機器、企業、看板、ロゴ、ロゴマーク=2021(令和3)年10月6日、東京都江東区、クレジット:日刊工業新聞/共同通信イメージズ
商品コード: 2021111808388
2021年10月20日The Computing ConferenceResearchers demonstrate the mobility of liquid metals at the 2021 Cloud Conference in Hangzhou, East China‘s Zhejiang Province, Oct. 20, 2021. The liquid metal can deform and move at a high speed for a long time after swallowing a small amount of material, thus realizing independent movement without external power, thus laying a theoretical and technical foundation for the development of practical intelligent motors, vascular robots, fluid pumping systems, flexible actuators and even more complex liquid metal robots.=2021(令和3)年10月20日、クレジット:CFOTO/共同通信イメージズ
商品コード: 2021102108566
2021年10月20日The Computing ConferenceResearchers demonstrate the mobility of liquid metals at the 2021 Cloud Conference in Hangzhou, East China‘s Zhejiang Province, Oct. 20, 2021. The liquid metal can deform and move at a high speed for a long time after swallowing a small amount of material, thus realizing independent movement without external power, thus laying a theoretical and technical foundation for the development of practical intelligent motors, vascular robots, fluid pumping systems, flexible actuators and even more complex liquid metal robots.=2021(令和3)年10月20日、クレジット:CFOTO/共同通信イメージズ
商品コード: 2021102108565
2021年10月20日The Computing ConferenceResearchers introduce some applications of liquid metals to the audience at the 2021 Computing Conference in Hangzhou, East China‘s Zhejiang Province, Oct. 20, 2021. The liquid metal can deform and move at a high speed for a long time after swallowing a small amount of material, thus realizing independent movement without external power, thus laying a theoretical and technical foundation for the development of practical intelligent motors, vascular robots, fluid pumping systems, flexible actuators and even more complex liquid metal robots.=2021(令和3)年10月20日、クレジット:CFOTO/共同通信イメージズ
商品コード: 2021102108499
2021年10月20日The Computing ConferenceResearchers demonstrate the mobility of liquid metals at the 2021 Cloud Conference in Hangzhou, East China‘s Zhejiang Province, Oct. 20, 2021. The liquid metal can deform and move at a high speed for a long time after swallowing a small amount of material, thus realizing independent movement without external power, thus laying a theoretical and technical foundation for the development of practical intelligent motors, vascular robots, fluid pumping systems, flexible actuators and even more complex liquid metal robots.=2021(令和3)年10月20日、クレジット:CFOTO/共同通信イメージズ
商品コード: 2021102108414
2021年10月20日The Computing ConferenceResearchers demonstrate liquid metals flowing with electric fields at the 2021 Conference in Hangzhou, East China‘s Zhejiang Province, Oct. 20, 2021. The liquid metal can deform and move at a high speed for a long time after swallowing a small amount of material, thus realizing independent movement without external power, thus laying a theoretical and technical foundation for the development of practical intelligent motors, vascular robots, fluid pumping systems, flexible actuators and even more complex liquid metal robots.=2021(令和3)年10月20日、クレジット:CFOTO/共同通信イメージズ
商品コード: 2021102108431
2021年10月20日The Computing ConferenceA simple circuit made of liquid metal is pictured at the Conference 2021 in Hangzhou, East China‘s Zhejiang Province, Oct. 20, 2021. The liquid metal can deform and move at a high speed for a long time after swallowing a small amount of material, thus realizing independent movement without external power, thus laying a theoretical and technical foundation for the development of practical intelligent motors, vascular robots, fluid pumping systems, flexible actuators and even more complex liquid metal robots.=2021(令和3)年10月20日、クレジット:CFOTO/共同通信イメージズ
商品コード: 2021102108397
2021年10月20日The Computing ConferenceScientists show liquid metal turning into a “flower“ under strong magnetic field at the 2021 Conference in Hangzhou, East China‘s Zhejiang Province, Oct. 20, 2021. The liquid metal can deform and move at a high speed for a long time after swallowing a small amount of material, thus realizing independent movement without external power, thus laying a theoretical and technical foundation for the development of practical intelligent motors, vascular robots, fluid pumping systems, flexible actuators and even more complex liquid metal robots.=2021(令和3)年10月20日、クレジット:CFOTO/共同通信イメージズ
商品コード: 2021102108422
2021年10月20日The Computing ConferenceA double liquid metal is photographed at the 2021 Computing Conference in Hangzhou, East China‘s Zhejiang Province, Oct. 20, 2021. The liquid metal can deform and move at a high speed for a long time after swallowing a small amount of material, thus realizing independent movement without external power, thus laying a theoretical and technical foundation for the development of practical intelligent motors, vascular robots, fluid pumping systems, flexible actuators and even more complex liquid metal robots.=2021(令和3)年10月20日、クレジット:CFOTO/共同通信イメージズ
商品コード: 2021102108466
2021年11月10日日本精工が心エコー検査ロボットに中核部品提供日本精工は10日、早稲田大学の岩田浩康研究室が開発した心疾患を自動で検査する心エコー検査ロボット「オリヅル」に中核となる駆動装置を提供したと発表した。検査技師のプローブ操作を駆動装置が再現する。精度が高い心エコー画像を取得できる。日本精工は医療向けをはじめ、人を支援するロボットやサービスロボットの機構部品の開発を強化しており、今回の成果はその一環となる。心エコー検査ロボットは超音波を活用して心疾患の検査を自動化する。2023年に病院での概念実証を開始し、ロボットを改良。29年にはビジネス化する計画だ。日本精工は同ロボットのうち、検査を行うための中核ユニットを手がけた。超音波検査を行うプローブの先端位置を動かさずに、角度を変えられる「球面パラレルリンクアクチュエータ(PSU)」を開発した。心臓は肺や肋骨(ろっこつ)の後ろに隠れているため、身体の表面にエコーを当てるだけでは適切な検査ができない。そのため、これまでは患者に横向きの姿勢を維持してもらいながら、医師や技師らの専門家が検査する必要があった。PSUは日本精工独自の開発手法「リアルデジタルツイン」により実現。技術開発本部新領域商品開発センターの小林誠一所長は「試作を少なくして開発スピードを向上することができた」と強調した。早大の岩田教授は「心疾患は日本人の死亡率では2位。世界初の座ったまま手軽に検査できるロボット」と胸を張った。=2021(令和3)年11月10日、撮影場所不明、クレジット:日刊工業新聞/共同通信イメージズ
商品コード: 2021111606873
2022年04月06日NASA ‘Psyche‘ Space Mission To Metallic AsteroidApril 6, 2022 - Pasadena, California, USA - The Deep Space Optical Communications (DSOC) technology demonstration‘s flight laser transceiver is shown at NASA‘s Jet Propulsion Laboratory in Southern California in April 2021, before being installed inside its box-like enclosure that was later integrated with NASA‘s Psyche spacecraft. The transceiver consists of a near-infrared laser transmitter to send high-rate data to Earth, and a sensitive photon-counting camera to receive ground-transmitted low-rate data. The transceiver is mounted on an assembly of struts and actuators, shown in this photograph, that stabilizes the optics from spacecraft vibrations. (Credit Image: © JPL/NASA/ZUMA Press Wire Service/ZUMAPRESS.com)、クレジット:©JPL/NASA/ZUMA Press Wire Service/ZUMAPRESS.com/共同通信イメージズ
商品コード: 2022041804595
2022年08月31日Italian Scientists Build ‘3D Printed Hans Muscles‘August 31, 2022, Genoa, Liguria, Italy: VIDEO AVAILABLE: CONTACT INFO@COVERMG.COM TO RECEIVE**..Italian scientists have built 3D printed pneumatic hand muscles that can extend and contract as required. . .The innovative design of the GRACE actuators devised by researchers from the Istituto Italiano di Tecnologia (IIT, Italian Institute of Technology) in Genoa and the Scuola Superiore Santââ¬â¢Anna (SSSA, Santââ¬â¢Anna School of Advanced Studies) in Pisa. Researchers showcased the actuatorsââ¬â¢ versatility in an initial demonstration, a pneumatic hand comprising 18 different GRACEs, manufactured in a single printing process.. .The creation of artificial muscles is a very ambitious goal in the field of robotics, because in nature, muscle tissue has complex characteristics that permit highly versatile movements, from rapid, powerful contractions to small and precise changes in body shape, such as those of human facial expressions. Although individual muscle fibres can only contract, it is their specific a...
商品コード: 2022090209963
2022年08月31日Italian Scientists Build ‘3D Printed Hans Muscles‘August 31, 2022, Genoa, Liguria, Italy: VIDEO AVAILABLE: CONTACT INFO@COVERMG.COM TO RECEIVE**..Italian scientists have built 3D printed pneumatic hand muscles that can extend and contract as required. . .The innovative design of the GRACE actuators devised by researchers from the Istituto Italiano di Tecnologia (IIT, Italian Institute of Technology) in Genoa and the Scuola Superiore Santââ¬â¢Anna (SSSA, Santââ¬â¢Anna School of Advanced Studies) in Pisa. Researchers showcased the actuatorsââ¬â¢ versatility in an initial demonstration, a pneumatic hand comprising 18 different GRACEs, manufactured in a single printing process.. .The creation of artificial muscles is a very ambitious goal in the field of robotics, because in nature, muscle tissue has complex characteristics that permit highly versatile movements, from rapid, powerful contractions to small and precise changes in body shape, such as those of human facial expressions. Although individual muscle fibres can only contract, it is their specific a...
商品コード: 2022090209057
2023年01月30日Scientists Believe In Fairies - Robot Ones Controlled By LightJanuary 30, 2023, Tampere, Finland: VIDEO AVAILABLE: CONTACT INFO@COVERMG.COM TO RECEIVE**..Researchers at Tampere University in Finland have made fairies real - by creating a robot that flies and sparkles just like Peter Panââ¬â¢s pal Tinkerbell...For some time now, engineers have known how to use stimuli-responsive polymers to make small, soft-bodied robots that can walk, swim and jump. So far, no one has been able to make them fly..Until now that is Hao Zeng, Academy Research Fellow and the leader of the Universityââ¬â¢s Light Robots Group, and Jianfeng Yang, a doctoral researcher, have come up with a new design for their project called FAIRY ââ¬â Flying Aero-robots based on Light Responsive Materials Assembly. They have developed a polymer-assembly robot that flies by wind and is controlled by light..ââ¬ÅSuperior to its natural counterparts, this artificial seed is equipped with a soft actuator. The actuator is made of light-responsive liquid crystalline elastomer, which induces opening or closing ...
商品コード: 2023020101345
2023年01月30日Scientists Believe In Fairies - Robot Ones Controlled By LightJanuary 30, 2023, Tampere, Finland: VIDEO AVAILABLE: CONTACT INFO@COVERMG.COM TO RECEIVE**..Researchers at Tampere University in Finland have made fairies real - by creating a robot that flies and sparkles just like Peter Panââ¬â¢s pal Tinkerbell...For some time now, engineers have known how to use stimuli-responsive polymers to make small, soft-bodied robots that can walk, swim and jump. So far, no one has been able to make them fly..Until now that is Hao Zeng, Academy Research Fellow and the leader of the Universityââ¬â¢s Light Robots Group, and Jianfeng Yang, a doctoral researcher, have come up with a new design for their project called FAIRY ââ¬â Flying Aero-robots based on Light Responsive Materials Assembly. They have developed a polymer-assembly robot that flies by wind and is controlled by light..ââ¬ÅSuperior to its natural counterparts, this artificial seed is equipped with a soft actuator. The actuator is made of light-responsive liquid crystalline elastomer, which induces opening or closing ...
商品コード: 2023020101318
2023年01月30日Scientists Believe In Fairies - Robot Ones Controlled By LightJanuary 30, 2023, Tampere, Finland: VIDEO AVAILABLE: CONTACT INFO@COVERMG.COM TO RECEIVE**..Researchers at Tampere University in Finland have made fairies real - by creating a robot that flies and sparkles just like Peter Panââ¬â¢s pal Tinkerbell...For some time now, engineers have known how to use stimuli-responsive polymers to make small, soft-bodied robots that can walk, swim and jump. So far, no one has been able to make them fly..Until now that is Hao Zeng, Academy Research Fellow and the leader of the Universityââ¬â¢s Light Robots Group, and Jianfeng Yang, a doctoral researcher, have come up with a new design for their project called FAIRY ââ¬â Flying Aero-robots based on Light Responsive Materials Assembly. They have developed a polymer-assembly robot that flies by wind and is controlled by light..ââ¬ÅSuperior to its natural counterparts, this artificial seed is equipped with a soft actuator. The actuator is made of light-responsive liquid crystalline elastomer, which induces opening or closing ...
商品コード: 2023020101478
2023年01月30日Scientists Believe In Fairies - Robot Ones Controlled By LightJanuary 30, 2023, Tampere, Finland: VIDEO AVAILABLE: CONTACT INFO@COVERMG.COM TO RECEIVE**..Researchers at Tampere University in Finland have made fairies real - by creating a robot that flies and sparkles just like Peter Panââ¬â¢s pal Tinkerbell...For some time now, engineers have known how to use stimuli-responsive polymers to make small, soft-bodied robots that can walk, swim and jump. So far, no one has been able to make them fly..Until now that is Hao Zeng, Academy Research Fellow and the leader of the Universityââ¬â¢s Light Robots Group, and Jianfeng Yang, a doctoral researcher, have come up with a new design for their project called FAIRY ââ¬â Flying Aero-robots based on Light Responsive Materials Assembly. They have developed a polymer-assembly robot that flies by wind and is controlled by light..ââ¬ÅSuperior to its natural counterparts, this artificial seed is equipped with a soft actuator. The actuator is made of light-responsive liquid crystalline elastomer, which induces opening or closing ...
商品コード: 2023020101307
2023年01月30日Scientists Believe In Fairies - Robot Ones Controlled By LightJanuary 30, 2023, Tampere, Finland: VIDEO AVAILABLE: CONTACT INFO@COVERMG.COM TO RECEIVE**..Researchers at Tampere University in Finland have made fairies real - by creating a robot that flies and sparkles just like Peter Panââ¬â¢s pal Tinkerbell...For some time now, engineers have known how to use stimuli-responsive polymers to make small, soft-bodied robots that can walk, swim and jump. So far, no one has been able to make them fly..Until now that is Hao Zeng, Academy Research Fellow and the leader of the Universityââ¬â¢s Light Robots Group, and Jianfeng Yang, a doctoral researcher, have come up with a new design for their project called FAIRY ââ¬â Flying Aero-robots based on Light Responsive Materials Assembly. They have developed a polymer-assembly robot that flies by wind and is controlled by light..ââ¬ÅSuperior to its natural counterparts, this artificial seed is equipped with a soft actuator. The actuator is made of light-responsive liquid crystalline elastomer, which induces opening or closing ...
商品コード: 2023020101321
- 1
