Abstract: A framework for an electronic or network cabinet, having a first profile frame and a second profile frame, as well as four depth struts. Each depth strut is directly or indirectly connected at corresponding points to the vertical profile frames. Furthermore, the depth struts are dimensioned so that they can absorb and compensate tilting forces of the vertical profile frames.
Abstract: The invention relates to a distribution strip for distributing electrical energy for equipment, device and/or server cabinets. The distribution strip has an inner chamber which is defined by an upper, lower, two lateral side faces and two end faces. A feed cable is provided on one of the end faces. An end face forms, with a side face, an inner angle of greater than 105°.
Abstract: The invention relates to a PCB connector for fastening a first printed circuit board on a second printed circuit board. The PCB connector may have a longitudinal base body with a clamping and fastening device for tool-free fastening of the PCB connector on a printed circuit board. The clamping and fastening device has a put-through body and a spring body which is formed extendable upon putting-through the put-through body through the land. The base body is thus pressed against the printed circuit board by the spring body.
Abstract: The invention relates to a distribution strip for distributing electrical energy for equipment, device and/or server cabinets. The distribution strip has an inner chamber which is defined by an upper, lower, two lateral side faces and two end faces. A feed cable is provided on one of the end faces. An end face forms, with a side face, an inner angle of greater than 105°.
Abstract: The invention relates to a PCB connector for fastening a first printed circuit board on a second printed circuit board. The PCB connector may have a longitudinal base body with a clamping and fastening device for tool-free fastening of the PCB connector on a printed circuit board. The clamping and fastening device has a put-through body and a spring body which is formed extendable upon putting-through the put-through body through the land. The base body is thus pressed against the printed circuit board by the spring body.
Abstract: In order to create a cabinet with a particularly simple earthquake construction, in which the necessary earthquake resistance and a static carrying load or respectively load capacity of up to 800 kg are guaranteed, cost-effectively producible stiffening panels are arranged and connected to form a body. The earthquake construction consists of a front and rear stiffening panel which are formed respectively as a frame and releasably connected to a bottom fixing angular element. Side stiffening elements are arranged between the front and rear stiffening panel which can be formed as one-part or multi-part, closed or interrupted panels.
Type:
Application
Filed:
October 5, 2011
Publication date:
April 19, 2012
Applicant:
Knuerr GmbH
Inventors:
Gerhard BUMEDER, Alfons KALTENBERGER, Josef KNAB, Ralf PAEPCKE, Werner SPATENEDER