CS197986B1 - Logical cabling of the grates - Google Patents

Description

The invention relates to the logical cabling of grates. Individual blocks in the grates are connected by flat cables. Their introduction into the modules is carried out by guides attached to the frame of the grate for individual blocks.

The prior art improved cabinets are designed so that one fixed and two rotating grates are placed in the housing. In the middle of the cabinet frame there is a fixed grate that forms the backbone of the cabinet with the bottom frame. Even with these cabinets, however, there is a drawback due to the fact that their cabling is carried out by individual conductors, which is disadvantageous both for cabling and for the work of a larger number of workers.

These drawbacks are eliminated by the logical cabling of the grates, which is based on the fact that the logical blocks in the grate and between the grates are interconnected by flat cables, terminated with connector socket covers guided by horizontal troughs and secured to cable or interface boards.

Internal grating is made of flat cables. Each ribbon cable is provided with a connector at both ends. The cover is located in the guide rails, which allow flat cables to connect any block and thus the plate in the rack, or to connect the racks to each other or to connect other devices to the cabinet by means of interconnecting boards. The arrangement of the flat cables, which are placed in the rack frame before the blocks are assembled, allows quick installation.

197 989 lou exchange blocks in a roquet.

An exemplary embodiment of the invention is described below and shown in the accompanying drawings, in which Fig. 1 is a detailed background for interconnecting blocks, grates and other devices by ribbon cables, and Fig. 2 is a detailed view of ribbon cables arranged in a grid.

In Fig. 1, individual blocks 26 are provided in grates 4, 8, 2, which have plug connectors at the periphery. Each connector plug can accommodate 4 ribbon cables 25 terminated with terminals 22. The ribbon cable terminals are located in the grate in the guide rails 23 and any of the interconnecting connectors of the individual blocks in the grate can be interconnected by means of horizontal troughs 20 and vertical webs. For interconnection between the grates by means of a cable duct 29, there are interconnecting plates 27 in the housing which can be used to connect all three grates by means of flat cables 25 and terminal 22 and by securing 28. In the same way, it is possible to connect the individual blocks by means of interface boards 30 to a device outside the computer. Instead of flat cables, it is possible to use wires of circular cross-section, coaxial and spring conductors to connect grate cells etc..

FIG. 2 shows the routing of the ribbon cables 19 in the trough 20 with a lock 21 which allows the ribbon cables to be pushed against the rear wall of the trough with an uneven number of belts. The flat cable terminals 22 are inserted into guide rails 22 which, when assembling the blocks 24, allow these plug connectors to be inserted into the plug connectors of the logic block connectors.

This new cabling method allows the cabling to be carried out without logic blocks that are inserted into the frame after the cabling has been laid.

Claims (1)

SUBJECT OF THE INVENTION Grate logic cabling, characterized in that the logic blocks (24) in the grate and between the grates (4, 8, 9) are interconnected by flat cables (19) terminated with connector socket covers (22) guided by horizontal troughs (20) and 21), and connected to the interface blanket (27) or interface boards (30) by means of a cable line (29).