Patent application number | Description | Published |
20120067497 | BONDING TOOL FOR ATTACHING PREPARED ADHESIVE TO BONDING PART - A manually operated or automated bonding tool for the attachment of a formed adhesive element to a bonding part is disclosed. The bonding tool includes a loading module in which the bare bonding part is loaded, an oven module in which the bare bonding part is heated, an adhesive picking station module in which the adhesive is attached to the heated bare bonding part, and a part transfer module which advances the bare bonding part sequentially from the loading module, through the oven module, and to the adhesive picking station module. The modules are mounted on a base plate. The loading module includes a bare bonding part-retaining aperture formed in its top and an adjacent finger notch. The oven module receives the unheated bare bonding part from the loading module. The oven module includes an elongated heating block having a bonding part guide by which the bare bonding parts are transferred through the oven and to the adhesive picking station module where the formed adhesive element is attached to the heated bare bonding part. The part transfer module is used to push the unheated bare bonding part into and through the oven module and into position on the adhesive picking station module. An applicator is used to remove the bonding part with the attached formed adhesive element from the adhesive picking station module and into position on a selected substrate. | 03-22-2012 |
20130112351 | Pick And Bond Method For Attachment Of Adhesive Element To Substrate - A method for the attachment of a formed adhesive element ( | 05-09-2013 |
20130233487 | BONDING TOOL FOR ATTACHING PREPARED ADHESIVE TO BONDING PART - A manually operated or automated bonding tool for the attachment of a formed adhesive element to a bonding part is disclosed. The bonding tool includes a loading module in which the bare bonding part is loaded, an oven module in which the bare bonding part is heated, an adhesive picking station module in which the adhesive is attached to the heated bare bonding part, and a part transfer module which advances the bare bonding part sequentially from the loading module, through the oven module, and to the adhesive picking station module. The oven module includes an elongated heating block having a bonding part guide by which the bare bonding parts are transferred through the oven and to the adhesive picking station module. The part transfer module is used to push the unheated bare bonding part into and through the oven module and into position on the adhesive picking station module. | 09-12-2013 |
Patent application number | Description | Published |
20090123662 | Plasma Coating Device and Method - This invention relates to an apparatus and a method for the plasma coating of large-volume parts. For this purpose, a vacuum chamber ( | 05-14-2009 |
20090258214 | VAPOR-DEPOSITED COATING AND THERMALLY STRESSABLE COMPONENT HAVING SUCH A COATING, AND ALSO A PROCESS AND APPARATUS FOR PRODUCING SUCH A COATING - The present technology relates to a vapor deposited coating for a thermally stressable component, which comprises deliberately introduced pore formers. This distinguishes the coating from the conventional vapor deposited coatings, which, owing to the coating method do not exhibit pores. Moreover, it distinguishes it from sprayed-on coatings, which do not exhibit any pores or only irregularly shaped pores that are formed arbitrarily. In addition, the present technology relates to a method and a device for producing such a coating. | 10-15-2009 |
20100323126 | Apparatus and Method for Plasma-Assisted Coating and Surface Treatment of Voluminous Parts - Disclosed are an apparatus and a method for plasma-supported coating and surface treatment of voluminous parts. The apparatus features a vacuum chamber ( | 12-23-2010 |
20110104381 | Plasma Treatment of Large-Scale Components - The invention relates to a device and a method for the plasma treatment of large-scale components. Said device comprises a vacuum chamber ( | 05-05-2011 |
20110174220 | Device for Plasma-Assisted Coating of the Inner Side of Tubular Components - A device for plasma-assisted coating the inner side of tubular components by a high frequency magnetic field. At least two receiving bodies accommodating a tubular component by the ends, supporting and sealing the inside of the tubular component, an inflatable seal on the receiving body that is arranged about the outer side and/or the front side of a tubular component, the seal sealing the transition between the receiving body and the tubular component in relation to the surroundings, a high frequency circuit for producing a high frequency magnetic field, a coil of the high frequency circuit; the windings being coaxial to the longitudinal axis of said device. The longitudinal axis is a straight line extending through both receiving bodies, and a drive for the coil and/or the receiving body, the drive displacing the coil in relation to the receiving bodies or the receiving body in relation to the coil. | 07-21-2011 |