WO2014090319A1 - Current transformer and load interrupter having such a current transformer - Google Patents

Abstract

The present invention relates to a current transformer system having a current transformer, which detects a current flowing through the current transformer and converts said current into a measurement voltage, and evaluation electronics which, on the basis of the measurement voltage, determine at least one of the characteristic variables from the group G consisting of I, I_n, I_st, I_min, I_TR, I_MAX, U, U_n, f, f_n, PF, where I = electrical current flowing through the current transformer; I_n = stated reference current intensity for which the current transformer has been designed; I_st = lowest stated value of I at which the current transformer measures electrical active energy with a power factor of one; I_min = value of I above which the deviation is within the error limits; I_TR = value of I above which the deviation is within the lowest error limits corresponding to the accuracy class stated for the current transformer system; I_MAX = maximum value of I at which the deviation is within the error limits; U = electrical voltage applied to the current transformer; U_n = stated reference voltage; f = frequency of the voltage applied to the current transformer; f_n = stated reference frequency; PF = power factor = cosφ = cosine of the phase shift φ between I and U.

Description

 Current transformer and load disconnector with such

The present invention relates to NH fuse-switch disconnectors or NH-fuse switch-disconnectors having a housing with a bottom surface and at least one feeding contact and at least one outgoing contact.

Such high-voltage (NH) fuse-load disconnectors or NH-fuse-switch-disconnectors have long been known and serve to provide fused outgoing busbars which can be disconnected under load. The devices generally include one or more fuse bases disposed within the housing. Corresponding fuse links are, for example, mounted on a switch cover, so that when the switch cover is closed, the fuse links are inserted into the fuse bases and connect between the respective - connectable with the busbar - feed contacts and the outgoing contacts. When opening the switch cover, the fuse inserts are pulled out of the fuse bases so that the connection is interrupted.

In principle, the present invention can also be used in open distribution strips, in which the fuse links can be pulled out of the open housing with a suitable tool. The term NH fuse switch strip should therefore also include the open distribution strips.

For some applications, it is desirable to measure the current flow through the provided output. For this purpose, current transformers are usually used. Current transformers work like transformers, i. an alternating current flowing through the outgoing connection (primary conductor) induces, in a secondary conductor provided by the current transformer, a secondary current which is galvanically isolated from the primary circuit and which can be evaluated to measure the primary current. Thus, the measurement takes place without contact.

For example, plug-on current transformers are known which have a primary conductor (for example in the form of an electrically conductive cylindrical part) and a secondary conductor surrounding it. During assembly, the current transformer is mounted on the feed contact so that the primary conductor contacts the feed contact and the primary conductor of the current transformer receives the current flowing through the feed contact. The known current transformer systems have in common that the connection of the secondary conductor to appropriate evaluation facilities is cumbersome, since each current transformer must be connected by means of two connecting cables and at the same time to ensure a short-circuit safe installation.

It has therefore been proposed for the above-mentioned N H-Sicherungslastschaltleisten in DE 10 2007 051 419, at the bottom of the housing, a current transformer module consisting of three different current transformers, which are each associated with a feed contact to provide. But even in this embodiment, if necessary, a corresponding electronic evaluation device with a display device in each case to be connected to the desired current transformer. Evaluation devices and in particular display devices are expensive and can not be mounted in the control cabinets, but are only connected as needed to the corresponding current transformer.

In any case, it is necessary for a field technician to connect the current transformer to the evaluation and display device to determine how much power is being tapped from the corresponding outlet. The known embodiments also allow only the display of a single parameter, such. B. the detected current. The display of other parameters is either not possible or only possible as an alternative, so that a simultaneous monitoring of several parameters can not be performed.

Based on the described prior art, it is an object of the present invention to provide an NH fuse switch disconnectors or NH fuse switch strip of the type mentioned above, which allows a determination of the relevant parameters in a simple manner.

According to the invention, this object is achieved by a current transformer system having a current transformer, with which the current flowing from the feed contact to the outgoing contact can be detected and converts it into a measuring voltage, and evaluation electronics, which on the basis of the measuring voltage at least one of the parameters from the group G, which consists of I, In, t, Imin, ITR, IMAX, U, U _n , f, f _n , PF, where I = the current flowing through the current transformer; l _n = specified reference current intensity for which the current transformer was designed; Ut = lowest declared value of I at which the power converter measures an active electrical energy at power factor one; l _min = value of I above which the deviation is within the error limits; l _tr = value of I above which the deviation is within the lowest error limits that correspond to the accuracy class specified for the current transformer system speak; l _max = maximum value of I where the deviation is within the error limits; U = voltage applied to the current transformer; U _n = specified reference voltage; f = frequency of the voltage applied to the current transformer; f _n = specified reference frequency; PF = power factor = coscp = cosine of the phase shift φ between I and U.

In other words, the current transformer system has not only the actual current transformer, but at the same time an evaluation, which determines at least one of the parameters of the group G. In a preferred embodiment, the transmitter determines at least two of the parameters from the group G and best all of the above parameters.

The current transformer system may preferably have a bus system connection terminal, via which the current transformer system can be connected to a bus system, so that the determined characteristic quantities can be transmitted via this.

It is thus possible to connect the fuse load disconnector and fuse switch strip with a bus system, so that via a also connected to the bus computer, which may be located for example in the utility and therefore does not necessarily have to be in the vicinity of the cabinet, the corresponding parameters are read can. As a result, several parameters can be monitored simultaneously over a longer period without the presence of a technician is required.

In particular, if multiple disconnectors or bars to be monitored, each NH fuse switch disconnector or NH fuse switch and best each departure contact the fuse switch disconnector or fuse switch bar assigned its own identification address, so at a remote location, for example, at the power company, with advantage The parameters for each individual outgoing contact can be easily recorded without it being necessary for a technician to connect the corresponding evaluation electronics on site in advance.

Alternatively or in combination, it is also possible that the current transformer system has a connection for a display device. The display device can then display the corresponding parameters on a display. It is understood that the connection for a display device not only has to transmit the determined characteristics, but also has to provide the power supply for the display device. As a result, if required, a technician can also read out the desired parameters on site. In a further preferred embodiment, the current transformer system even has a display device for displaying the determined characteristics, so that it is not necessary to connect a corresponding display. Furthermore, it has been shown that the current transformer is possible to arrange surrounding the outgoing contact, since the corresponding bus system and possibly a display device can be easily connected here. In other words, the output contact - or an element connected directly to the output contact - serves as the primary conductor for the current transformer. The current transformer system is either included in the housing of the fuse load disconnector or the fuse switch strip or has its own housing, in which the individual components of the current transformer system are added. Furthermore, it is also possible that the power converter system is partially disposed in the housing of the fuse load disconnector and partially in a separate housing or that the power converter system is arranged in two separate housings. For example, the actual current transformer could be arranged in a separate housing from the transmitter, in which case the two housings, ie the housing of the current transformer and the housing of the transmitter must be connected to each other. This can be done for example by appropriate connection contacts. In a preferred embodiment, a triggering monitoring for the at least one fuse link is provided, which is preferably also disposed in the housing. The trip monitoring can also be read out via the bus connection.

As a result, even from a remote location, for example at the location of the energy supplier, it can now be ascertained which fuse link has triggered, so that troubleshooting is considerably simplified.

Further advantages, features and possible applications will become apparent from the following description of a preferred embodiment and the accompanying figures. Show it:

Figure 1 is a schematic representation of a NH fuse switch disconnector with the current transformer system according to the invention, Figure 2 is a sectional view of a housing of a first inventive current transformer system, and FIG. 3 shows a sectional view of housings of a second current transformer system according to the invention.

FIG. 1 shows a schematic representation of an NH fuse switch disconnector 1. This has a housing 2, in which three fuse links 3, 3 'and 3 "are arranged, on whose underside three outgoing connections 4, 5, 6 can be seen, and a current transformer block 9, which is fastened to the underside of the isolator The current transformer system 9 has a connection 8 with which the converter system can be connected to a bus system, ie a data transmission system. to show the determined characteristics.

FIG. 2 shows a sectional view through the current transformer system of FIG. 1. The housing 2 has a passage opening 10 for receiving the corresponding outgoing contact. Furthermore, an outgoing terminal 1 1, 12 is shown, the lower part 1 1 is in electrical contact with the inserted in the through hole 10 outgoing contact. The upper part 12 can be moved by means of the screw 13 in the direction of the first part 1 1, so that a corresponding cable, which is to be attached to the outgoing contact, between the two parts 1 1 and 12 can be clamped. The housing has a chamber 14 in which the corresponding evaluation electronics can be placed.

FIG. 3 shows an alternative embodiment. Significant difference to the embodiment shown in Figures 1 and 2 is that the transmitter 15 is no longer housed in the housing part 14, but in a separate housing. At the top of the housing of the transmitter 15, a metallic contact block 19 is provided. The current transformer 16, which surrounds a bus bar 17, is connected to a terminal contact 18. The terminal contact 18 is resiliently biased to the terminal block 19, so that an electrical connection between the transmitter 15 on the one hand and the current transformer 16 on the other. In this embodiment, it is now possible to replace either the transmitter 15 or the current transformer housing, without the other part must be removed. LIST OF REFERENCE NUMBERS

1 NH fuse switch disconnector

2 housings

 3, 3 ", 3" fuse links

4 outlet connection

5 outlet connection

6 outlet connection

7 display device

8 connection

 9 housing

 10 E n g lis h opening

1 1 output terminal

 12 output terminal

 13 screw

 14 chamber

 15 evaluation electronics

16 current transformers

 17 busbar

 18 connection contact

19 terminal block

Claims

P a n t a n s p r e c h e Current transformer system comprising a current transformer, which detects a current flowing through the current transformer and converts it into a measuring voltage, and an evaluation, which based on the measuring voltage at least one of the parameters of the group G, which consists of I, l _n , Ut, Imm, ITR , IMAX, U, U _n , f, f _n , PF, where  I = the electric current flowing through the current transformer; l _n = specified reference current intensity for which the current transformer was designed;  Ut = lowest declared value of I at which the power converter measures an active electrical energy at power factor one; Imin = value of I above which the deviation is within the error limits; l _tr = value of I above which the deviation is within the lowest error limits that correspond to the accuracy class specified for the CT system; l _max = maximum value of I where the deviation is within the error limits;  U = voltage applied to the current transformer; U _n = specified reference voltage;  f = frequency of the voltage applied to the current transformer; f _n = specified reference frequency;  PF = power factor = coscp = cosine of the phase shift φ between I and U. Current transformer system according to claim 1, characterized in that the evaluation determines at least two of the parameters from the group G. Current transformer system according to claim 1 or 2, characterized in that the current transformer system has a bus system terminal, via which the current transformer system is connectable to a bus system and the determined characteristics can be transmitted. Current transformer system according to one of claims 1 to 3, characterized in that a connection for a display device is provided. Current transformer system according to one of claims 1 to 4, characterized in that a display device is provided for displaying the determined characteristics. 6. Current transformer system according to one of claims 1 to 5, characterized in that the current transformer system comprises a converter housing, in which the individual components of the current transformer system are added. 7. NH fuse switch disconnector or NH fuse switch strip with a housing having a bottom surface and at least one feed contact, which projects beyond the bottom surface, and at least one outgoing contact, and at least fuse link, which connects the input contact with the outgoing contact in the inserted state, characterized in that a current transformer system according to one of claims 1 to 6 is provided. 8. NH fuse load disconnector or NH fuse switch strip according to claim 7, characterized in that the current transformer is arranged surrounding the outgoing contact. 9. NH fuse switch disconnector or NH fuse switch strip according to one of claims 7 to 8, characterized in that three supply contacts and three outgoing contacts are provided and the current transformer system comprises three current transformers, each current transformer is disposed a outgoing contact surrounding. 10. NH fuse switch disconnectors or NH fuse switch strip according to one of claims 7 to 9, characterized in that a tripping supervision is provided for the at least one fuse link in the converter housing.