CH233063A - Circuit diagram for monitoring distribution systems for electricity, steam, water and the like. - Google Patents

Description

  

  Circuit diagram for monitoring distribution systems for electricity, steam, water and the like. It is common to increase the over looks on the front panels of the control panels for monitoring distribution systems, e.g. B.

    for local or Network maintenance and for load distribution systems, the scheme of the switchgear respectively. the supply network in a blind or. To represent luminous circuit diagram.

   These circuit diagrams consist of one or more fields, for each of which a one-piece front panel is used; their application assumes that the systems do not change significantly in their scope, since changes can only be made with difficulty. Now, however, particularly in times of strong economic development, it can happen that the supply systems change significantly as a result of expansions and modifications.

       In this case, the well-known circuit diagrams, which are composed of many small parts like a mosaic, are used to represent the supply system.

   These mosaic diagrams can be changed easily, but they are very expensive due to the extremely large number of necessary mosaic stones. It also causes considerable structural difficulties to design larger circuit diagrams with the necessary accuracy as mosaic pictures. Since the dimensional deviations of all mosaic stones in a row add up over the length of the entire table,

   It is difficult to adhere to the necessary precision when making the table, especially since the individual particles must again be so precisely against one another that there are no gaps between them and the impression of a completely homogeneous surface is obtained.



  These difficulties can now be largely eliminated in that, according to the invention, the circuit diagram has at least one field with a front panel consisting of one piece and at least one mosaic-like field. The fact that you only train parts of the circuit diagram as a mosaic picture makes it possible to keep these partial circuit diagrams or fields so small in terms of their dimensions that they can be produced without difficulty.

   The invention is based on the idea that, for example, the power plants and the transformer stations, that is to say the parts, are to be displayed in the choice of the parts which are to be displayed on the basic fields, i.e. the fields with a one-piece front panel and which are to be displayed on the mosaic-like display field For example, an electrical supply system in which the generators and transformers are located, are rarely subject to any changes, as the installation of a new machine BEZW. a new large transformer rarely occurs.

   The main changes in a network, on the other hand, consist in the laying of new feed lines, be it overhead lines or cables that have to be laid, for example, to reinforce existing lines or to feed new customers.



  Since the normal control panel measuring instruments cannot easily be accommodated in the mosaic field due to their size difference compared to the elements of the mosaic field, these measuring instruments can be arranged above or below the mosaic-like partial circuit diagrams in a basic field.



  In the figure, an embodiment of the invention is shown, which shows a circuit diagram consisting of seven fields.



  The circuit diagram consisting of the basic fields: A, B, <I> D, E, G </I> and the mosaic-like fields C, F, is powered by a power plant that has two generators and their symbols are denoted by 1. The two generators feed the busbar 4 via the transformers 2. Furthermore, the network is fed from a high-voltage remote control via the transformers 2 and the busbars 5 shown in the lower part of the central switch panel A.

    The generators and transformers are in the middle panel A is provided, which is designed as a Leueht- or blind image and whose front panel is made of a cohesive piece be. In addition to the generators and transformers, measuring instruments 3 are also housed in this switchboard field, which allow the 3Tessung of the power supplied to the network, the voltage and the like.

    In addition, the control holder for the circuit breakers, the coupling switches and the disconnectors, which respectively connect the generators. Transformers with the busbars respectively. allow the coupling of the busbars, shown. The operating switches for the circuit breakers are indicated by square symbols. One of these symbols, namely the dome holder of the upper busbar, is labeled 7.

   The disconnector symbols are represented by small circles inserted in the busbars. Two of these disconnector symbols are denoted by 6 in the busbar 4. The correspondingly trained symbols also recur in the mosaic-like composed fields C and F of the circuit diagram. Under a mosaic-like circuit diagram field is meant one whose front surface is composed of a number of congruent front surface owning elements a.



  The two double busbars 4 and 5 are extended so far that they also appear in the right and left outer fields F, C of the switchboard. In the case of the outer panel parts B-C-D and E-F-G is in the middle a sub-circuit diagram C respectively composed of individual NEN parts like a mosaic. 'F is used, in which the individual switching stations and connecting lines are shown. Because the busbars of the two supply stations are still in the mosaic circuit diagram fields C.

   F are introduced, there is the possibility of subsequently created branches, which are to be connected to these busbars, conveniently displayed in one of the mosaic fields.



  Above and below the mosaic-like partial circuit diagrams C, F, the switchboard has basic fields B, D, G, E, in which measuring instruments 3, which belong to the individual feed lines, are arranged. The individual measuring instruments are located above or below the feed lines to which they are assigned.

   In order to be able to accommodate the brass instruments cheaply and to have enough space available for their installation, the branches in the mosaic fields will be staggered so that there is always enough space between two branches to above or below the branch to be able to accommodate a measuring instrument.

  the left mosaic-like partial circuit diagram C one will therefore not arrange the two parallel connecting lines between the left switching station and the busbar 4 next to each other, but rather so that between the two connections first: the connection to the busbar 5 is inserted.

   In order to be able to arrange the measuring instruments easily in the desired position, recesses are provided in the control panel across and below the individual control panel fields C, F at the height at which the instruments are to be arranged. The measuring instruments are inserted into these recesses; the parts of the recesses not filled by the instruments are closed by screens.

      The invention is not limited to the application for electrical supply networks be. It can also be used for distribution networks for other flowing media, e.g. B. steam, water and the like, use. In this case, the power plants and substations are replaced by steam generators or pumping stations.

 

Claims (1)

PATENT CLAIM: Circuit diagram for monitoring distribution systems for electricity, steam, water and the like, characterized in that it has at least one field with a front panel consisting of one piece and at least one, mosaic-like field. SUBClaims 1. Circuit diagram according to patent claim, for electrical distribution systems, characterized by that the busbar symbols are provided in the single-story front panel. Field of the circuit diagram are led into the mosaic-like field of the circuit diagram and that the outgoing lines from the busbars are shown in the mosaic-like composite field. 2. Circuit diagram according to patent claim, characterized in that measuring instruments are arranged in a circuit diagram field provided with a single-storey front plate and connected in the vertical direction to a mosaic-like damage image field.