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        &lt;div class=&quot;ctf-tweet-content&quot;&gt;
        	        &lt;p class=&quot;ctf-tweet-text&quot; style=&quot;&quot;&gt;Die Zusammenarbeit von Mensch 👤 und Roboter 🤖 ist gefragter denn je. Daf&uuml;r entwickelt KUKA gemeinsam mit @SICK_de &lt;br /&gt;
und Blue Danube Robotics Roboterzellen ohne Schutzz&auml;une. Sie kombinieren h&ouml;chste Produktivit&auml;t mit neuesten Sicherheitsstandards. 🔗 🧡&lt;br /&gt;
https://www.kuka.com/de-de/branchen/loesungsdatenbank/2021/02/airskin-sick-und-kuka &lt;/p&gt;        
        
&lt;div class=&quot;ctf-tweet-media&quot;  data-available-images=&quot;[{&amp;quot;150&amp;quot;:&amp;quot;https:\/\/pbs.twimg.com\/media\/E3Vw_T5XEAEobrY.jpg:thumb&amp;quot;,&amp;quot;680&amp;quot;:&amp;quot;https:\/\/pbs.twimg.com\/media\/E3Vw_T5XEAEobrY.jpg:small&amp;quot;,&amp;quot;1200&amp;quot;:&amp;quot;https:\/\/pbs.twimg.com\/media\/E3Vw_T5XEAEobrY.jpg&amp;quot;,&amp;quot;1900&amp;quot;:&amp;quot;https:\/\/pbs.twimg.com\/media\/E3Vw_T5XEAEobrY.jpg:large&amp;quot;}]&quot;&gt;
    
                            &lt;a href=&quot;https://pbs.twimg.com/media/E3Vw_T5XEAEobrY.jpg&quot; class=&quot;ctf-lightbox-link ctf-image&quot; data-title=&quot;Die Zusammenarbeit von Mensch 👤 und Roboter 🤖 ist gefragter denn je. Daf&uuml;r entwickelt KUKA gemeinsam mit @SICK_de 
und Blue Danube Robotics Roboterzellen ohne Schutzz&auml;une. Sie kombinieren h&ouml;chste Produktivit&auml;t mit neuesten Sicherheitsstandards. 🔗 🧡
https://t.co/7aaOscIvCI &quot; data-user=&quot;KUKA_DACH&quot; data-name=&quot;KUKA D-A-CH&quot; data-id=&quot;1403005282104532996&quot; data-url=&quot;https://twitter.com/KUKA_DACH/status/1403005282104532996&quot; data-avatar=&quot;https://pbs.twimg.com/profile_images/704767814406643712/VcnCdfke_normal.jpg&quot; data-date=&quot;10 Jun&quot; data-ctf-lightbox=&quot;1&quot; data-video=&quot;&quot; data-iframe=&quot;&quot;  target=&quot;_blank&quot; rel=&quot;noopener noreferrer&quot;&gt;
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