KR20200025057A - Switchboard with overheat monitoring device for fire prevention - Google Patents

Abstract

The present invention relates to a switchgear installed with a fire prevention superheat monitoring device, and more specifically, to a screw fastening part for connecting the busbars installed therein, or to a screw fastening part for connecting the parts connecting the busbars and a plurality of power devices. The temperature sensor is installed in the screw fastening part and the display panel is attached to the front of the door of the switchgear to display the temperature of the screw fastening part so that the heat is generated due to the loosening of the screw to prevent the risk of fire. When the temperature of the fastening part is above a certain temperature, an alarm is generated, and when the temperature is higher, the breaker trips and the switchgear is protected from a fire, and the fire switch is equipped with a fire prevention overheating monitoring device for long-term use.

Description

Switchboard with overheat monitoring device for fire prevention}

The present invention relates to a switchgear installed with a fire prevention superheat monitoring device, and more specifically, to a screw fastening part for connecting the busbars installed therein, or to a screw fastening part for connecting the parts connecting the busbars and a plurality of power devices. The temperature sensor is installed in the screw fastening part and the display panel is attached to the front of the door of the switchgear to display the temperature of the screw fastening part so that the heat is generated due to the loosening of the screw to prevent the risk of fire. When the temperature of the fastening part is above a certain temperature, an alarm is generated, and when the temperature is higher, the breaker trips and the switchgear is protected from a fire, and the fire switch is equipped with a fire prevention overheating monitoring device for long-term use.

In general, switchboards are capable of delivering high-voltage power in a wide range of power consumers, including residential areas, buildings, schools, factories, ports, airports, water and sewage treatment plants, substations, heavy industry plants, subways, chemical complexes, and mills. It is installed in the power distribution system that converts to low pressure and supplies it to the facility and is used for power monitoring, control and protection.

The switchgear can be classified into a switchgear used for a switchgear of 36 kW or 72 kW by capacity and an extra high voltage plate usable for power 229 kW, 24 kW, and 258 kW.

The interior of such a switchgear may be generally divided into a high side and a low voltage side. In detail, the side of a power distribution unit receiving electric power from a power provider, KEPCO, and the power receiving unit are installed. It can be classified as a power distribution facility equipped with a breaker that protects the entire facility from an accident such as a transformer or a power failure that supplies electricity to a voltage or capacity required by a factory or a user.

In such a switchgear, breakers, breakers, transformers, transformers, busbars and other power equipment in most cases it is very necessary to detect the temperature by measuring the temperature. For example, switchgear, breaker, and the like each include a pull-out and withdrawal terminal block, it is necessary to determine the degradation due to overheating by detecting the temperature for this.

In addition, between busbars and busbars, or busbars such as busbars and branch lines, and connection parts such as cables, etc., the contact resistance increases due to the looseness of the connection part or foreign substances, which causes overheating and leads to a fire. have.

In particular, all the electricity is supplied through the converter, and if the contact resistance increases due to loosening of the screw at some point of the converter, heat is generated, which causes the surrounding wire coating to melt and short circuit due to dielectric breakdown. This short circuit will lead to a fire.

Because of this risk, the electrician must monitor the loosening of the electricity supply system from time to time, but it is not only difficult to monitor itself from time to time, but even if there is a willingness to monitor, it is difficult to find the place where these screws are combined. Since the inspection of the fastening part can be inspected only when it is in a disconnected state, there is a problem that it is impossible to actually monitor such screw loosening even if the need is recognized.

And although there are many parts that need to detect the temperature by using the temperature sensor in this way, the excessive wiring problem of the contact type temperature sensor and the delay and error of the temperature detection and calculation processing, in particular each sensor Due to each DC bias power supply problem, the mounting of the sensor is very limited, so the switchgear is vulnerable to fire.

Nevertheless, failure to predict or maintain the internal components of the switchgear can result in significant property damage due to insulation breakdown, especially insulation breakdown, and seemingly visual, olfactory or simple temperature measurement. Because it is very difficult to predict, the overheating of the internal installation equipment of the switchgear is monitored in real time, or a plurality of temperature measurement values for each insulation device, for example, R phase, S phase, T phase for the bus bar There is a demand for technology development that manages each temperature change and panel internal temperature individually and then integrates them.

In addition, since the high-voltage current flows in the switchgear and the narrow space environment, there are many difficulties in processing the connection wires of the respective sensors without being easy to install dozens of sensors.

Patent Registration 10-1457878, Registration Patent 10-1528833

An object of the present invention is to solve the above problems, the screw fastening portion for connecting the busbars installed therein or the screw fastening portion for connecting the parts connecting the busbars and a plurality of power devices are loosened The temperature sensor is installed in the screw connection part and the display panel is attached to the front of the door of the switchgear to display the temperature of the screw connection part, and the temperature of the screw connection part is constant. It is to provide a switchgear equipped with a fire prevention overheating monitoring device that generates an alarm when the temperature is higher and a breaker trips at a higher temperature to protect the switchgear from fire and to enable long-term use.

This object of the present invention is formed by a case having a front door and a rear door, vertical and horizontal brackets installed vertically and horizontally to divide the space inside the case up and down or back and forth, and the vertical and horizontal brackets. A plurality of power devices arranged in a space, a plurality of busbars installed in the case and connected to each other by a screw fastening part or connected to the power devices by a screw fastening part, and a temperature for sensing a temperature of each screw fastening part A sensor panel attached to a surface of the front door and displaying a temperature of a screw connection detected from a temperature sensor and displaying an overall operating state and hysteresis of the switchgear, an alarm to generate an alarm sound when an abnormal situation is detected. Receiving the temperature signal detected from the temperature sensor, if the abnormal situation of the temperature is determined It is achieved by a switchgear installed with a fire prevention overheating monitoring device according to the present invention comprising a control panel for instructing the display panel and the alarm overheating alarm situation and controlling the overall operation of the switchgear.

The switchgear equipped with a fire prevention superheat monitoring device according to the present invention is a screw fastening part for connecting the busbars installed therein or a screw fastening part for connecting the parts where the busbars and a plurality of power devices are connected, As a result of the increase in contact resistance, a temperature sensor is installed to monitor the temperature of the screw connection part in real time to prevent the risk of fire due to heat generation and a display panel is attached to the front of the door of the switchgear to display the temperature of the screw connection part. When the temperature of the screw fastening part is higher than a certain temperature, an alarm is generated, and if the temperature is higher, the breaker trips, and the switchgear is protected from a fire, thereby having an excellent effect of enabling long-term use.

1 is a perspective view of a switchgear equipped with a fire prevention superheat monitoring apparatus according to a first embodiment of the present invention;
2 is a schematic longitudinal cross-sectional view of a switchgear equipped with a fire prevention superheat monitoring device according to a first embodiment of the present invention;
3A and 3B are longitudinal cross-sectional views of busbars connected to a switchgear and a busbar and a power device connected to a fire prevention superheat monitoring device according to a first embodiment of the present invention;
Figure 4 is a block diagram of a control unit of the switchgear is installed a fire prevention overheat monitoring device according to a first embodiment of the present invention

As illustrated in FIG. 1, the switchgear A having the fire prevention superheat monitoring device according to the first embodiment of the present invention includes a case 1 having a front door and a rear door and a space inside the case. Vertical and horizontal brackets 2 and 2 'installed vertically and horizontally to divide vertically or horizontally, and a plurality of power devices 3 arranged in a space formed by the vertical and horizontal brackets; A plurality of busbars 5 installed therein and connected to each other by a screw fastening part 4 or connected to the power devices and a screw fastening part 4 ', and a temperature sensor for sensing a temperature of each screw fastening part ( 6) And, the display panel (7) attached to the surface of the front door and detected the temperature of the screw connection detected from the temperature sensor and displays the overall operating status and hysteresis situation, and generates an alarm when an abnormal situation is detected alarm( 8) and a control unit 9 for receiving the temperature signal detected from the temperature sensor and instructing the display panel and the alarm to indicate an overheat alarm situation when the temperature abnormality is determined.

The case 1 is composed of a front side space portion and a rear side space portion based on the frame of the center, the front opening and closing door 11 is installed on the front portion of the front space portion, the rear opening and closing door 12 is installed. . The front and rear opening and closing doors (11, 12) is provided with a locking device is configured to prevent the safety accident by preventing the opening of the door by anyone other than the person concerned.

In addition, the front safety door (11a) is further provided inside the front opening and closing door (11). The front opening and closing door 11 is provided with control circuits such as the power distribution and distribution power situation in the switchgear, an operation button of the breaker and a protection relay, and frequently open the front opening and closing door 11 to check the control circuit. do.

The front safety door (11a), when the front opening and closing door (11) is opened to prevent contact with the connecting portion installed on the inside, made of a metal panel as a whole, the main part is provided with a transparent window so that you can check with the naked eye do.

Accordingly, the user opens the front opening / closing door 11 and has an advantage of visually identifying the main connection part through the transparent window provided in the front safety door while preventing a safety accident by the front safety door 11a.

As shown in FIG. 2, the horizontal bracket 2 and the vertical bracket 2 ′ are installed vertically and horizontally to divide the space inside the case 1 vertically or vertically and divide the space. 3) are arranged on the horizontal and vertical brackets 2, 2 'or on the support plate 21 mounted on the horizontal and vertical brackets 2, 2'.

The power devices 3 include a load switch 31, the load switch 31 is connected to the power received through the inlet, the load breaker 31 (LBS (load breaker switch)) is the It is connected to the busbar power line connected through the bushing through the enclosure and performs the function of opening or energizing the power under no load.

An instrument transformer current transformer 32 is installed at the rear end of the load switch 31, and PT and CT are combined inside the instrument transformer current transformer 32 to transform high voltage and high current into low voltage and low current, respectively. And, the transformer transformer current transformer 32 is installed to be connected to the maximum capacity meter indicating the maximum power capacity. In addition, an arrester for grounding a surge voltage may be installed between the load switch 31 and the transformer transformer current transformer 32.

A vacuum circuit breaker 33 (VCB) is an opening and closing device connected to a rear end of the transformer current transformer 32 to cut off power against abnormal current such as an overload and a short circuit accident, and the vacuum circuit breaker 33 As a configuration for generating a low interrupt signal, a protective relay is installed, and an instrument transformer 34 is installed in parallel with the vacuum circuit breaker 33 to provide a high voltage to a predetermined level.

The instrument transformer 34 (PT (potential transformer)) is a device for transforming the voltage of the high-voltage circuit to a low voltage, the current flowing through the rear end of the vacuum circuit breaker 33 to a current of a predetermined level to provide to the protection relay Current transformer 35 is installed.

The current transformer (CT) 35 is a device that is connected in series to a circuit to convert a large current of a high voltage circuit into a small current, and a voltage and a current supplied to a power line under the load switch 31. The mold transformer 36 is installed to output the reduced pressure to a predetermined level.

The mold transformer 36 is molded by insulating the transformer body with an epoxy resin, and each of the mold transformers 36 is provided at an input / output terminal of the mold transformer 36 to install a power fuse to block a transient current. A plurality of busbars 5 are provided at the rear end of 36 to distribute power.

Such a plurality of busbars 5 are provided with a screw fastening portion 4 connected to each other for power transmission or screw fastening portion 4 'for power transmission of the busbar 5 and the power devices 3. ) Is provided to transfer power.

As shown in FIG. 3A, when the screw fastening part 4 is fastened to the busbars 5 that need to be connected to each other, the lower busbar 51 and the upper busbar 52 are connected to the bolt 41 and the bolt 41. It is fastened by the nut 42, and the temperature sensor 6 is provided in contact with the upper bus bar 52.

In addition, the screw fastening portion 4 'to which the busbar 5 and the power device 3 are connected is connected to the connection end 53 and the connection end 53 of the power device 3 such as, for example, a circuit breaker. The bus bar 54 is fastened by the bolt 41 and the nut 42, and has a structure in which the temperature sensor 6 is installed in contact with the bus bar 54.

The temperature sensor 6 may use a thermistor, surface wave temperature sensor, or various temperature sensors. The temperature sensor 6 is installed in a plurality of places in which the screw fastening portions 4 and 4 'are installed to detect the required temperature in real time and send it to the controller 9. When the temperature displayed on the temperature sensor 6 is above a certain temperature, for example, 60 ° C., an alarm signal is generated by the display panel 7 and the alarm 8, and when the temperature reaches 80 ° C., the breaker is tripped to operate the switchgear. This will stop the switchboard to protect the switchboard from fire.

The installation position of the temperature sensor 6 can be displayed at each unique position and can be known as a specific position on the display panel 7. For example, B1, B2, B3... It may be displayed as shown on the display panel 7 by indicating the position of the temperature sensor 6 in the control unit 9 or.

The display panel 7 is attached to the surface of the front door 11 and displays the temperature of the screw fastening portions 4 and 4 'detected by the temperature sensor 6, and the display panel 7 is It displays the operation status and history of the overall switchgear, and the display panel 7 makes it easy to grasp the history of the replacement or repair of the parts of the switchgear, and the history of the replacement or repair of the parts. It can be updated through the display panel 7.

The alarm 8 is a buzzer that generates an alarm sound when an abnormal situation is detected. When the temperature displayed on the temperature sensor 6 reaches 60 ° C., an alarm is generated to recognize an alarm to surrounding workers. To check the switchboard. When the alarm 8 detects an abnormal situation, the alarm 8 is displayed to the outside. In the present embodiment, a method of generating an alarm sound has been proposed. However, the alarm 8 may be realized through a speaker, a lamp, a screen, and the like.

The controller 9 receives a detection signal for the temperature of the screw fastening portions 4 and 4 'from the temperature sensor 6 and displays the temperature when the screw fastening portions 4 and 4' rise above a predetermined temperature. It sends out to the panel 7 and the alarm 8 to perform a function to perform a predetermined operation. The control unit 9 performs an operation of tripping the power device 2, that is, the circuit breaker when the temperature of the screw connection parts 4 and 4 'reaches a predetermined temperature, for example, 80 ° C., to safely switch the switchgear from the fire. It performs the function of preventing.

The controller 9 includes a filter amplifier 91, an A / D converter 92, a processor 93, and a storage 94. The filter amplifier 91 amplifies the detection signal transmitted from the temperature sensor 6 and removes noise. The A / D converter 92 digitally processes the detection signal passing through the filter amplifiers 91 and transmits the digital signal to the processor 93. The processor 93 diagnoses an abnormality sign that causes an accident such as a fire or an electric shock from the detection signals of the detection devices. The storage unit 94 stores the detection signals of the temperature sensors, the history of the switchgear A having the live display device, the protection relay, and the alarm 8, and a reference value for diagnosing an abnormality that causes an accident. do.

The controller 9 receives a detection signal from the temperature sensor 6 and controls the operation of the power devices 3 of the switchgear including the alarm 8. In addition, a diagnosis of abnormality that causes an accident such as fire or electric shock is diagnosed from the detection signals of the temperature sensors 6. When an abnormal symptom is diagnosed, the control unit 9 displays the display panel 7 and generates an alarm signal through the alarm unit 9 so that the overheat state of the busbar 5 inside the switchboard A can be solved quickly. Make sure

Referring to the operation of the switchgear (A) with a fire prevention superheat monitoring device according to the present invention having such a configuration below, first, if the switchgear (A) is operated to operate properly after a certain time, the switchgear (A) Since vibration is generated in accordance with the operation of the bolt bar (5), the screw fastening part 4 of the busbar or the screw fastening part (4 ') of the power device (3) is released, the bolt (41) Since the separation distance S is generated between the nut 42 and the surface of the busbar 5, when vibration is continuously applied, the static electricity is stored between the separation distances, and when static electricity is accumulated to a certain size, the static electricity is accumulated. Due to heat generation, the temperature of the screw fastening parts 4 and 4 'is increased, and the temperature sensor 6 detects the temperature of the screw fastening parts 4 and 4' and thus increases the temperature. Will be sent out.

When the temperature of the screw fastening part 4, 4 'sent out is 50 degreeC or more, this is detected by the control part 9, and the state of "temperature abnormality" is displayed on the display panel 7, and an alarm ( 8) It generates an alarm to notify external workers so that they can take quick action. In this way, the status of 'temperature abnormality' is displayed on the display panel 7, and even though an alarm is generated through the alarm 8, no action is taken and the switchgear A is continuously operated so that the screw fastening part When the temperature of (4,4 ') reaches 80 ° C., the control unit 9 senses this and operates the power device 3 to stop the operation of the switchgear A, thus preventing the fire generated from the switchgear A. Will be prevented.

The switchgear is equipped with a fire prevention superheat monitoring device according to the present invention is not limited to the above-described embodiment, it can be carried out in various modifications within the scope of the technical idea of the present invention.

The switchgear equipped with a fire prevention superheat monitoring apparatus according to the present invention will be said to be an invention that is industrially applicable since it is possible to repeatedly manufacture the same product in the manufacturing industry of the switchgear.

1: Case 2, 2 ': Vertical and horizontal bracket
3: power device 4, 4 ': screw connection part
5: busbar 6: temperature sensor
7: display panel 8: alarm
9: control unit

Claims (2)

In the switchgear (A) equipped with a fire prevention superheat monitoring device,
The switchgear A, in which the fire prevention superheat monitoring device is installed, includes a case 1 having a front door and a rear door,
Vertical and horizontal brackets 2 and 2 'installed vertically and horizontally to divide the space inside the case up and down or back and forth;
A plurality of power devices 3 arranged in a space formed by the vertical and horizontal brackets, and installed inside the case and connected to each other by a screwing part 4 or by the power devices and the screwing part 4. A plurality of busbars 5 connected by '),
A temperature sensor 6 for sensing the temperature of each screw connection part;
A display panel 7 attached to the surface of the front door and displaying the temperature of the screw connection detected by the temperature sensor and displaying the overall operating status and hysteresis;
An alarm 8 which generates an alarm sound when an abnormal situation is detected;
Receiving a temperature signal detected from the temperature sensor and when the abnormal state of the temperature is determined, the overheat monitoring for fire prevention, characterized in that it comprises a control unit 9 for instructing the display panel and the alarm overheat alarm situation and control the overall operation Switchgear with device
The method of claim 1,
When the screw fastening portion 4 is fastened to the busbars 5 that need to be connected to each other, the lower busbar 51 and the upper busbar 52 are fastened by bolts 41 and nuts 42, The temperature sensor 6 is installed in contact with the upper bus bar 52,
The screw fastening portion 4 ′ is connected to the connection end portion 53 of the power device 3 and the bus bar 54 connected to the connection end portion 53 by the bolt 41 and the nut 42. The temperature sensor 6 is installed in contact with the bus bar 54,
The control unit 9 receives a detection signal for the temperature of the screw fastening portions 4, 4 'from the temperature sensor 6, when the temperature of the screw fastening portions 4, 4' rises above a predetermined first temperature, This is sent to the display panel 7 and the alarm 8, and performs an operation to trip when the temperature rises above the second temperature,
The controller 9 includes a filter amplifier 91, an A / D converter 92, a processor 93, and a storage 94.

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