Patent application number | Description | Published |
20090067804 | Splitting Apparatus and Manipulating Apparatus for Optical Waveguides - A splitting apparatus and manipulating apparatus for optical waveguides is disclosed. The splitting apparatus has a bottom plate, a first side and a second side. At least one bundled core guide device, which is used for guiding and/or restraining a plurality of bundled cores, can be inserted into a first bushing region of a splitting apparatus on the first side in such a way that the bundled core guide device latches detachably with ribs and/or the bottom plate of the respective first bushing region. A second bushing region can receive the optical waveguides on the second side, wherein the optical waveguides are individual or loose from the bundled cores. | 03-12-2009 |
20100129040 | System Comprising a Plurality of Optical Waveguide Distribution Devices - The system comprising a plurality of optical waveguide distribution devices has a first number of logic groups of optical waveguide distribution devices, each logic group comprising a second number of optical waveguide distribution devices, wherein: a) in order to ensure structured wiring of fiberoptic modules within a logic group comprising optical waveguide distribution devices, only two lengths of prefabricated patch cables are kept ready, namely a first length designed for wiring fiberoptic modules within an optical waveguide distribution device and a second length designed for wiring fiberoptic modules between optical waveguide distribution devices which are spaced at a maximum distance apart from one another within the respective logic group, it being possible, when wiring of fiberoptic modules between optical waveguide distribution devices which are not spaced at a maximum distance apart from one another within the respective logic group needs to be carried out, for the corresponding excess length of the patch cable designed for the maximum distance to be stored in the respective target optical waveguide distribution device on an excess length storage device of the target optical waveguide distribution device; b) in order to ensure structured wiring of fiberoptic modules of two different logic groups comprising optical waveguide distribution devices, a length of prefabricated patch cables is kept ready which is designed for wiring fiberoptic modules of optical waveguide distribution devices which are spaced at a maximum distance apart from one another in the two logic groups, it being possible, when wiring of fiberoptic modules of optical waveguide distribution devices which are not spaced at a maximum distance apart from one another in the two logic groups needs to be carried out, for the corresponding excess length of the patch cable designed for the maximum distance to be stored in the respective target optical waveguide distribution device on an excess length storage device of the target optical waveguide distribution device. | 05-27-2010 |
20130072053 | SEALING AND STRAIN RELIEF DEVICE FOR DATA CABLES - A sealing and strain relief device having at least one sealing element is disclosed. The device is arranged in the manner of a sandwich between outer, plate-like bearing elements made from a relatively hard or rigid material and which is made from a relatively soft or elastic material. Slots are introduced both into the outer bearing elements and into the or each central sealing element in such a way that the slots run respectively next to one another and respectively one behind the other, in relation to the sandwich-like arrangement thereof, within the respective bearing element and within the respective sealing element. The strain relief elements are associated with at least one plate-like bearing element such that each data cable, which is sealed and is guided in the region of slots arranged one behind the other of the sandwich-like arrangement, can be restrained using a strain relief element. | 03-21-2013 |
20140099064 | SYSTEM COMPRISING A PLURALITY OF DISTRIBUTION DEVICES AND DISTRIBUTION DEVICE - A system for aligning and connecting adjacent distribution devices is disclosed. At least two mutually opposite side walls, which preferably run parallel to one another, of the housing of each distribution device have associated alignment and connection means. The alignment and connection means associated with the directly adjoining side walls of the distribution devices align in each case directly adjacent distribution devices with respect to one another in the horizontal direction and/or in the vertical direction connect each to one another. | 04-10-2014 |
20140105557 | SYSTEM COMPRISING A PLURALITY OF DISTRIBUTION DEVICES AND DISTRIBUTION DEVICE - A system of distribution devices is disclosed. The housing of each distribution device has at least two physically and functionally separate functional regions. At least one first functional region is for connecting and/or storing data conductors. At least one second functional region exclusively for guiding data cables having the data conductors. When a plurality of such distribution devices are grouped next to one another and/or one above the other to form a system of a plurality of distribution devices, the functional regions which are used exclusively for guiding data cables having the data conductors form at least one cable guide channel, which extends continuously in the horizontal and/or vertical direction over a plurality of distribution devices. | 04-17-2014 |
20140119705 | STRAIN RELIEF DEVICE FOR CABLES AND FIBER OPTIC DISTRIBUTION DEVICE - A strain relief device having a first U-like shaped basic body having first and second opposite lateral walls connected to a second U-like shaped basic body having first and second opposite lateral walls by a film hinge integral with the first and second basic bodies. Wherein the second lateral wall of the second U-like shaped basic body has a recess, wherein the protrusion is insertable into the recess by a film hinge. The first and second basic bodies pivot with respect to each other to transfer the strain relief device between an opened installation state and a closed operation state. The first and second U-like shaped basic bodies releasably lock in the closed state and define in the closed operation state a feed-through channel for a cable to be strain relieved. | 05-01-2014 |
Patent application number | Description | Published |
20100129040 | System Comprising a Plurality of Optical Waveguide Distribution Devices - The system comprising a plurality of optical waveguide distribution devices has a first number of logic groups of optical waveguide distribution devices, each logic group comprising a second number of optical waveguide distribution devices, wherein: a) in order to ensure structured wiring of fiberoptic modules within a logic group comprising optical waveguide distribution devices, only two lengths of prefabricated patch cables are kept ready, namely a first length designed for wiring fiberoptic modules within an optical waveguide distribution device and a second length designed for wiring fiberoptic modules between optical waveguide distribution devices which are spaced at a maximum distance apart from one another within the respective logic group, it being possible, when wiring of fiberoptic modules between optical waveguide distribution devices which are not spaced at a maximum distance apart from one another within the respective logic group needs to be carried out, for the corresponding excess length of the patch cable designed for the maximum distance to be stored in the respective target optical waveguide distribution device on an excess length storage device of the target optical waveguide distribution device; b) in order to ensure structured wiring of fiberoptic modules of two different logic groups comprising optical waveguide distribution devices, a length of prefabricated patch cables is kept ready which is designed for wiring fiberoptic modules of optical waveguide distribution devices which are spaced at a maximum distance apart from one another in the two logic groups, it being possible, when wiring of fiberoptic modules of optical waveguide distribution devices which are not spaced at a maximum distance apart from one another in the two logic groups needs to be carried out, for the corresponding excess length of the patch cable designed for the maximum distance to be stored in the respective target optical waveguide distribution device on an excess length storage device of the target optical waveguide distribution device. | 05-27-2010 |
20130072053 | SEALING AND STRAIN RELIEF DEVICE FOR DATA CABLES - A sealing and strain relief device having at least one sealing element is disclosed. The device is arranged in the manner of a sandwich between outer, plate-like bearing elements made from a relatively hard or rigid material and which is made from a relatively soft or elastic material. Slots are introduced both into the outer bearing elements and into the or each central sealing element in such a way that the slots run respectively next to one another and respectively one behind the other, in relation to the sandwich-like arrangement thereof, within the respective bearing element and within the respective sealing element. The strain relief elements are associated with at least one plate-like bearing element such that each data cable, which is sealed and is guided in the region of slots arranged one behind the other of the sandwich-like arrangement, can be restrained using a strain relief element. | 03-21-2013 |