Patent application number | Description | Published |
20090173280 | VACUUM COATING SYSTEM COMPRISING A TRANSPORT UNIT FOR TRANSPORTING SUBSTRATES - A vacuum coating unit with a transport device for transporting substrates in a transport direction, comprises at least one first endless conveyor running in the transport direction and having a conveyor device guided around at least two deflection rollers. The conveyor device is located at a distance from a guide device extending in the transport direction parallel to the conveyor device of the first endless conveyor in such a way that the substrates can be introduced into the gap between the conveyor device and the guide device and can be moved in the transport direction by the displacement of the conveyor device. | 07-09-2009 |
20090202362 | GETTER PUMP AND VACUUM COATING INSTALLATION COMPRISING A GETTER PUMP - A highly efficient getter pump with low maintenance requirements is applied to a vacuum coating installation, allowing a substrate to be coated to remain uncontaminated by a dusting of getter material. The getter pump comprises a pump housing with an exposure opening. The housing has a getter body, of getter material that essentially closes the exposure opening and can move in relation to the exposure opening. An inner sub-section of the surface of the getter body points towards the interior of the pump housing and an outer sub-section points towards the exterior of the pump housing through the exposure opening. The positions of the inner and outer sub-sections are interchangeable by movement of the getter body. The getter pump is equipped with a device for removing getter material from the inner sub-section. | 08-13-2009 |
20090220802 | HIGHLY REFLECTIVE LAYER SYSTEM, METHOD FOR PRODUCING THE LAYER SYSTEM AND DEVICE FOR CARRYING OUT THE METHOD - A highly reflective layer system for coating substrates with reflection-enhancing layers, a method for producing the layer system and a device for carrying out the method are provided. On the surface of the substrate, a first functional reflection layer is applied. The first functional reflection layer may be reflective or partially reflective and comprise of metal or a metal alloy which contains one of more constituents from the group comprising copper, nickel, aluminum, titanium, molybdenum and tin. Provided there over is a second functional reflection layer. The second functional reflection later may comprise metal or a metal alloy, for example silver or a silver alloy. Over the second functional reflective layer there follows a first transparent dielectric layer. The first transparent dielectric layer may comprise, for example, silicon oxide. Arranged over the first transparent dielectric layer is a second transparent dielectric layer. This may consist, for example, of titanium oxide. | 09-03-2009 |
20090272642 | METHOD AND ARRANGEMENT FOR PRODUCING CONTACTS ON PHOTOVOLTAIC ELEMENTS WITHOUT CARRIER SUBSTRATE - Please amend the Abstract of the Disclosure to read as follows. In accordance with 37 CFR ยง1.72, the abstract is submitted herewith on a separate sheet of paper, following page 9 of this amendment. | 11-05-2009 |
20100178151 | METHOD FOR LOADING AND UNLOADING A TRANSPORT DEVICE - A transport device for transporting elongated substrates through a vacuum coating system comprises an essentially rectangular frame and two groups of holding elements, which are rotatably mounted on opposite sides of the frame in such a manner that any pair of opposite holding elements can be connected to both ends of a substrate. Furthermore, at least one retainer bar is provided that is operatively connected to a group of holding elements in such a manner that the holding elements of this group are moveable in order to increase or decrease by choice their distance from the holding elements of the other group. Also provided are a loading and unloading device for loading and unloading the transport device, and a method for loading and unloading the transport device. | 07-15-2010 |
20100239762 | PROCESS AND APPARATUS FOR THE INTRODUCTION AND REMOVAL OF A SUBSTRATE INTO AND FROM A VACUUM COATING UNIT - An apparatus is provided for introduction and/or removal of a substrate into and/or from a process chamber of a vacuum coating unit that includes a process region adjoined by a lock chamber separable from surrounding atmosphere and from the process region by vacuum-tight lock gates. The process region encompasses a process chamber and a transfer chamber for altering transport speed. A vacuum-tight gate on the inlet side of a lock system is opened, the substrate is transported into the lock system and the gate is closed. Pressure in the lock system is subsequently matched to pressure in a subsequent space. An outlet-side gate of the lock system is opened and the substrate is transported from the lock system. The lock system includes a lock chamber and the adjoining transfer chamber. A passage between the transfer chamber and lock chamber remains open during introduction or removal of the substrate. | 09-23-2010 |
20100291393 | ANNEALABLE LAYER SYSTEM - A layer system that can be annealed comprises a transparent substrate, preferably a glass substrate, and a first layer sequence which is applied directly to the substrate or to one or more bottom layers that are deposited onto the substrate. The layer sequence includes a substrate-proximal blocking layer, a selective layer and a substrate-distal blocking layer. Also provided is a method for producing a layer system that can be annealed and has a sufficient quality even under critical climatic conditions and/or undefined conditions of the substrate. During the heat treatment (annealing, bending), the color location of the layer system is maintained substantially stable and the color location can be widely varied at a low emissivity of the layer system. For this purpose, a first dielectric intermediate layer is interposed between the substrate-proximal blocking layer and the selective layer and is configured as a substoichiometric gradient layer. | 11-18-2010 |
20120118541 | DEVICE FOR CONTROLLING THE TEMPERATURE OF SUBSTRATES - A device for controlling the temperature of substrates in a substrate-treatment system, in which a substrate can be guided in the longitudinal extension of the substrate-treatment system in a substrate transport plane within a vacuum chamber past a treatment device, solves the problem of dynamically shaping a dynamic change of the thermal insulation to control the heat transfer in the substrate and thereby, reduce, in particular, thermal inertias by providing a heat-absorbing cooler side of the substrate transport plane. The heat-absorbing cooler can be shielded, at least partially from the substrate transport plane, using an insulation member. | 05-17-2012 |
20120281975 | SURFACE HEATING DEVICE FOR A SUBSTRATE TREATMENT DEVICE AND SUBSTRATE TREATMENT DEVICE - A surface heating device for a substrate treatment device with increased power density and improved homogeneity of heat radiation includes a jacket tube heater with straight tube sections and bent tube sections in which straight tube sections are arranged parallel to each other in a main plane and straight tube sections are connected to each other by bent tube sections, so that at least part of the bent tube sections are aligned sloped relative to the main plane. | 11-08-2012 |