JP3228002U - Distribution network ground failure detection system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a distribution network grounding failure detection system which not only has high safety but also has high positioning accuracy of a failure point. A distribution network grounding failure detection system includes a box 2 connected to a distribution network line, a transformer 4 installed in the box 2, a high voltage vacuum AC contactor 3, a high voltage resistor 5, and a signal source device. .. When the transformer 4 detects that the zero sequence voltage exceeds a predetermined value, the high voltage vacuum AC contactor 3 of the corresponding phase closes. As a result, the signal source device generates one DC pulsating current signal and superimposes it on the load current of the faulty phase line. A fault indicator is provided on the distribution network line and the fault indicator automatically flops after detecting the DC pulsating current signal to indicate the outlet, branch and segment where the ground fault point is located. [Selection diagram] Fig. 1

Description

The present invention relates to the technical field of electric power equipment, and particularly to a power grid grounding failure detection system.

Most of the current commercially available grounding failure detection systems, except for individual low resistance grounding systems, are grounded or not grounded by arc suppression coils and are called ineffective grounding systems, where failures are accurately positioned. It is difficult to do, and the current commercially available fault point detector is affected by the space electromagnetic field, and its applicability and accuracy are not preferable.

The technical problem to be solved by the present invention is to provide a distribution network grounding failure detection system that realizes accurate positioning of failures.
In view of this

In order to solve the above technical problems, the present invention adopts the following technical solutions. The distribution network ground failure detection system includes a box connected to the distribution network line, a transformer installed in the box, a high-voltage vacuum AC contactor, a high-voltage resistor and a signal source device, and the transformer is a zero sequence of buses. Used to detect voltage, when a high voltage diode is connected in series to the high voltage resistor and grounded, and the transformer detects that the zero sequence voltage exceeds a predetermined value, the high voltage of the corresponding phase The vacuum AC contactor closes, which connects the high voltage diode and high voltage resistor between the faulty phase line and the other healthy phase line via ground, and the signal source device produces one DC pulsating current signal. , Used to superimpose with the load current of the faulty phase line, the grid line is provided with a fault indicator, and the fault indicator automatically flops after detecting the DC pulsating current signal to reach the ground fault point. Indicates the outlet, branch and segment where it is located.

Preferably, the high voltage vacuum AC contactor is provided with an overload protection module.
Preferably, the control circuit of the three-phase high voltage vacuum AC contactor is electrically interlocked.

Preferably, a lightning arrester is installed in the box.
Preferably, the box is installed in an overhead pole tower.
Preferably, a wall bushing is provided at the top of the box to allow the distribution network line to pass through.

Preferably, the signal source device is provided with a delay circuit, and when the transformer detects a ground failure, the delay circuit controls the signal source device so as to emit a DC pulsating current signal with a delay of 10 seconds.

Preferably, the signal source device is also provided with a short message warning module, and after the signal source device emits a DC pulsating current signal, the short message warning module transmits a warning short message to a designated terminal.
Preferably, the signal source device is also provided with a fault recording module.
Preferably, the signal ground and the protection ground of the signal source device are provided separately.

In the technical solution used in the present invention, when the transformer detects that the zero sequence voltage exceeds a predetermined value, the signal source is one DC pulsating current signal with a special discipline in the load current of the faulty line. The special current flows through the fault line, ground fault point and ground and returns to the signal source, the fault indicator on the line automatically flops, and the outlet, branch and where the ground fault point is located Indicates a segment. Therefore, the above technical solution has the following beneficial effects.

It is highly safe and the signal generated by the signal source does not affect the normal operation of the substation main transformer, ground transformer, arc suppression coil and line (loading and shutting off one resistive load). The signal source is completely separated from the primary line when the system operates normally. At the same time, because the signal produced by the signal source is low frequency and purely resistant, resonance can be eliminated, overvoltages can be suppressed, and overvoltage damage to the system can be reduced.

The accuracy is high, and the signal source causes a current signal with obvious characteristics to flow through the faulty line, and the fault indicator on the line will only indicate fault if it detects that particular current signal, and therefore The accuracy is extremely high without being affected by the system operation method, topology structure, and neutral point grounding method.
Specific technical solutions of the present invention and their beneficial effects will be described in detail in the following specific embodiments in combination with drawings.

The present invention will be further described below in combination with the drawings and specific embodiments.
It is a structural schematic diagram of this invention. It is a principle diagram of the circuit for performing the failure detection of this invention.

The technical solutions in the embodiments of the present invention will be clearly and completely described below in combination with the drawings of the embodiments of the present invention, and the embodiments clearly described are only a part of the embodiments of the present invention. , Not all embodiments. The following description for at least one exemplary embodiment is merely descriptive in practice and is not considered as any limitation on the present invention and its application or use. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without the need for creative effort belong to the scope of protection of the present invention.
One of ordinary skill in the art can understand that the following embodiments and features of the embodiments may be combined with each other if they do not collide.

As shown in FIGS. 1 and 2, the distribution network grounding failure detection system includes a box 2 connected to the distribution network line, a transformer 4 installed in the box 2, a high voltage vacuum AC contactor 3, and a high voltage resistor 5. And a signal source device, the transformer 4 is used to detect the zero sequence voltage of the bus, and is connected to the high voltage resistor 5 in series with a high voltage diode to be grounded.

The signal source is installed at the neutral point of the substation ground transformer (otherwise it is connected to the bus / outlet) or line. As shown in FIG. 2, when a single-phase (for example, C-phase) ground failure occurs at any point of the line, when the transformer 4 detects that the zero sequence voltage exceeds a predetermined value, the corresponding phase height is high. The voltage vacuum AC contactor closes, which connects the high voltage diode and the high voltage resistor 5 between the faulty phase line and the other healthy phase line via ground. The signal source generates one DC pulsating current signal and weights it with the load current of the faulty phase line, the grid line is provided with a fault indicator, and the fault indicator automatically detects the DC pulsating current signal. Flop to indicate the outlet, branch and segment where the ground fault is located.

In the above technical solution, the signal generated by the signal source does not affect the normal operation of the main transformer, grounding transformer, arc suppression coil and line of the substation (for loading and unloading one resistive load). The signal source is completely separated from the primary line when the system operates normally. At the same time, because the signal produced by the signal source is low frequency and purely resistant, resonance can be eliminated, overvoltages can be suppressed, and overvoltage damage to the system can be reduced. Therefore, it is highly safe.

In the above technical solution, a signal source, a current signal with obvious characteristics flows into the faulty line, and the fault indicator hanging on the line indicates failure only when the special current signal is detected, and therefore the system. It is not affected by the operation method, topology structure, and neutral point grounding method. Therefore, the accuracy is extremely high.

Further, the high voltage vacuum AC contactor 3 is provided with an overload protection module for realizing overload protection. Moreover, the control circuit of the three-phase high-voltage vacuum AC contactor is electrically interlocked.

Here, the box 2 is installed in the overhead pole tower. A wall bushing 1 for passing a distribution network line is provided on the upper part of the box. In order to realize lightning protection, a lightning arrester 6 is installed in the box 2.

Specifically, the signal source device is provided with a delay circuit, and when the transformer detects a ground failure, the delay circuit controls the signal source device so as to emit a DC pulsating current signal with a delay of 10 seconds. The signal source device is also provided with a short message warning module, and after the signal source device emits a DC pulsating current signal, the short message warning module transmits a warning short message to a designated terminal. Further, the signal source device is also provided with a failure recording module. The signal ground and the protection ground of the signal source device are provided separately.

Although the above is only a specific embodiment of the present invention, the scope of protection of the present invention is not limited to this, and those skilled in the art include the contents described in the above specific embodiment of the present invention. It should be understood that it is not limited to this. Any modifications that do not deviate from the functional and structural principles of the present invention are included in the claims.

1-Wall bushing 2-Box 3-High voltage vacuum AC contactor 4-Transformer 5-High voltage resistor 6-Lightning arrester

Claims (10)

A distribution network grounding failure detection system equipped with a box connected to the distribution network line, a transformer installed in the box, a high-voltage vacuum AC contactor, a high-voltage resistor and a signal source device, and the transformer is a bus. It is used to detect the zero-sequence voltage, and when a high-voltage diode is connected in series to the high-voltage resistor and grounded, and the transformer detects that the zero-sequence voltage exceeds a predetermined value, the corresponding phase The high-voltage vacuum AC contactor closes, which connects the high-voltage diode and high-voltage resistor between the faulty phase line and the other healthy phase line via ground, and the signal source device delivers a single DC pulsating current signal. It is used to generate and superimpose with the load current of the faulty phase line, the grid line is provided with a fault indicator, and the fault indicator automatically flops after detecting the DC pulsating current signal to cause a ground fault. A grid grounded fault detection system characterized by indicating pointed outlets, branches and segments. The distribution network grounding failure detection system according to claim 1, wherein the high-voltage vacuum AC contactor is provided with an overload protection module. The power grid grounding failure detection system according to claim 2, wherein the control circuit of the three-phase high-voltage vacuum AC contactor is electrically interlocked. The distribution network grounding failure detection system according to claim 1, wherein a lightning arrester is installed in the box. The distribution network grounding failure detection system according to claim 1, wherein the box is installed in an overhead pole tower. The distribution network grounding failure detection system according to claim 1, wherein a wall bushing for passing a distribution network line is provided in the upper part of the box. The signal source device is provided with a delay circuit, and when the transformer detects a ground failure, the delay circuit controls the signal source device so as to emit a DC pulsating current signal with a delay of 10 seconds. Item 4. The distribution network grounding failure detection system according to any one of Items 1-6. The signal source device is also provided with a short message warning module, and the short message warning module sends a warning short message to a designated terminal after the signal source device emits a DC pulsating current signal. Item 7. The distribution network grounding failure detection system according to Item 7. The power grid grounding failure detection system according to claim 7, wherein the signal source device is also provided with a failure recording module. The distribution network grounding failure detection system according to claim 7, wherein the signal ground and the protection ground of the signal source device are provided separately.