KR102236955B1 - Vcs soft starter for current switch type - Google Patents

Abstract

An embodiment of the present invention relates to a soft starter device by switchgear type. The soft starter device by switchgear type comprises: a silicon controlled rectifier (SCR); an SCR gate driving unit; a current transformer (CT); a power supply control unit; a switchgear; a control unit; and an enclosure. Depending on the type of the switchgear, the soft starter device by switchgear type is implemented in the form of any one of a single enclosure or upper and lower enclosures.

Description

Soft starter device by current switch type {VCS SOFT STARTER FOR CURRENT SWITCH TYPE}

The present invention relates to a soft starter device for each type of current switch, as a soft starter device.

As a general power source, induction motors are widely distributed not only to power at various factories and workplaces, but also to small power sources such as agriculture and home use.

Currently, about 70% of the electric energy consumed in the domestic industry is consumed by various electric motors, and 90% of them are occupied by induction motors, which are widely used in industrial fields.

However, induction motors require a large starting current of about 4 to 8 times the rated current during direct starting. Such a large starting current may cause a voltage drop in the KEPCO power system, adversely affecting other load facilities, and has been a cause of increasing the capacity of power receiving facilities.

In addition, the impact torque generated by direct-on start damages gears or other parts of the facility, and high starting current generates arcs at the main contact point of the magnetic contactor, which may cause phase loss due to contact damage.

In industrial sites, in order to reduce the large starting current that occurs during direct start of the induction motor, the Y-Δ starting method, the reactor starting method, the starting compensator (condolfer) starting method, the inverter starting method, and the SOFT-START method A method of limiting the starting current by using a lamp is used.

Among them, the soft starter method uses power semiconductors such as SCR, thyristor, triac, or high-power transistor. The starting current can be started from almost zero by using the same solid-state device as the transistor. In addition, it is widely used because it can be used in a wide range of speed control. That is, it is possible to limit the magnitude of the starting current, provide a variety of starting patterns according to the conditions of the load, there is an advantage in that it is easy to monitor the operation state and simple operation.

However, the starting method of the induction motor using the conventional soft starter method has a problem such as inability to drive the induction motor according to the type of voltage.

Accordingly, the present applicant made it possible to drive a stable soft starter through various technical proposals such as prior literature (Korean Patent No. 10-1758189).

Korean Patent Registration No. 10-1758189

An object of the present invention is to provide a housing structure for stable operation and maintenance when various types of soft starters are actually implemented as hardware devices.

An embodiment of the present invention is a silicon controlled rectifier (SCR) in which two reverse-parallel diodes are provided, respectively, in which a forward switch and a negative switch are disposed in parallel; An SCR gate driver driving the gate of the SCR; A CT (Current Transformer) interposed between an input power terminal and one end of the SCR and used for measuring an input voltage and an input current of a soft starter; A PT (Potential Transformer) that cuts off the input current by operating when an instantaneous input current error occurs by branching from the input power terminal, and a CPT (Potential Transformer) that converts the input voltage input from the PT into a control voltage for SOFT STARTER control and outputs it to the UPS. Control Potential Transformer), a power supply control unit including an uninterruptible power supply (UPS), which is a device that regulates power supply to peripheral devices by limiting the case where the voltage of the electric circuit is cut off or suddenly rises or falls; A current switch for blocking a current applied from the input power terminal to the CT when a preset overload or short circuit condition is satisfied; A control unit for receiving the current passing through the CT through an optical cable and controlling the gate of the SCR according to the measured amount of current to control on/off of the voltage applied to the induction motor; In the soft starter device for each type of current switch including; the SCR, SCR gate driving unit, CT, power supply control unit, current switchgear, and control unit mounted, in accordance with the type of the current switch, either a single enclosure or upper and lower enclosures It may be characterized by being implemented in the form of an enclosure.

The current switch includes: a K-type current switch implemented as a vacuum contactor (VC) that opens and closes the current applied from the input power terminal to the CT in a vacuum state; SWG type current switch, each separately provided with a disconnect switch, a fuse, and a vacuum circuit breaker (VC); A VCS type current switch implemented with a fuse combination type VCS (Vaccum Contactor Switch), a vacuum circuit breaker with a built-in fuse; VCB type current switch implemented as a circuit breaker (VCB; Vacuum Circuit Breaker); Depending on the type of the current switch, implemented as any one of the K type current switch, SWG type current switch, VCS type current switch, and VCB type current switch, either a single enclosure or upper and lower enclosures. It can be characterized by being implemented in a form.

When the current switch is implemented as a K-type current switch, the enclosure is implemented as a single enclosure having one door, and the SCR, SCR gate driver, CT, power supply control unit, K-type current switch, It may be characterized in that the control unit is located.

When the current switch is implemented as a SWG type current switch, the enclosure is implemented as an upper and lower enclosure including an upper and lower enclosures each having separate doors, and a disconnect switch is positioned on the upper enclosure, A fuse and vacuum circuit breaker (VC), SCR, SCR gate driving unit, CT, power supply control unit, and control unit may be located in the lower enclosure.

When the current switch is implemented as a VCS type current switch, the enclosure is implemented as a single enclosure having one door, and the SCR, SCR gate driver, CT, power supply control unit, VCS type current switch, It may be characterized in that the control unit is located.

When the current switch is implemented as a VCB type current switch, the enclosure is implemented as a single enclosure having one door, and the SCR, SCR gate driver, CT, power supply control unit, VCB type current switch, It may be characterized in that the control unit is located.

According to an embodiment of the present invention, various types of soft starter devices can be provided depending on the type of current switch.

In addition, according to the embodiment of the present invention, it is possible to stably operate and maintain various types of soft starter devices.

1 is a conceptual diagram of a soft starter device.
2 is a block diagram of a configuration of a soft starter device for each current switch type according to an embodiment of the present invention.
3 is a diagram showing a current switch type according to an embodiment of the present invention.
4 is a circuit diagram of a K-type current switch according to an embodiment of the present invention.
5 is an exemplary photograph showing a case having a K-type current switch according to an embodiment of the present invention.
6 is a circuit diagram of a SWG type current switch according to an embodiment of the present invention.
7 is an exemplary photograph showing a case having a SWG type current switch according to an embodiment of the present invention.
8 is a circuit diagram of a VCS type current switch according to an embodiment of the present invention.
9 is an exemplary photograph showing a case having a VCS type current switch according to an embodiment of the present invention.
10 is a circuit diagram of a VCB type current switch according to an embodiment of the present invention.
11 is an exemplary photograph showing a case having a VCB type current switch according to an embodiment of the present invention.

Hereinafter, advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in a variety of different forms, and is provided to completely inform the scope of the invention to those of ordinary skill in the art to which the present invention pertains. As such, the invention is only defined by the scope of the claims. In addition, in describing the present invention, when it is determined that related known technologies or the like may obscure the subject matter of the present invention, a detailed description thereof will be omitted.

1 is a conceptual diagram of a soft starter device, FIG. 2 is a block diagram showing a configuration of a soft starter device for each current switch type according to an embodiment of the present invention, and FIG. 3 is a diagram showing a current switch type according to an embodiment of the present invention. 4 is a circuit diagram of a K-type current switch according to an embodiment of the present invention, FIG. 5 is an exemplary photograph showing a case having a K-type current switch according to an embodiment of the present invention, and FIG. A circuit diagram of a SWG type current switch according to an embodiment, FIG. 7 is an exemplary picture showing a case having an SWG type current switch according to an embodiment of the present invention, and FIG. 8 is a VCS type current switch according to an embodiment of the present invention. 9 is an exemplary photograph showing a case having a VCS type current switch according to an embodiment of the present invention, FIG. 10 is a circuit diagram of a VCB type current switch according to an embodiment of the present invention, and FIG. It is an exemplary photograph showing a case having a VCB type current switch according to an embodiment of the present invention.

The soft starter device is a device that drives an alternating current (AC)-based electric motor using a power device (SCR) as shown in FIG. 1, and a reduced voltage is continuously applied to the motor to start the motor smoothly. In addition, the soft starter device is a device that smoothly starts the motor through voltage phase control, and is transferred to the bypass circuit after the start is completed. Therefore, in the soft starter device, two types of CONTACTORs are used, the bypass circuit CONTACTOR and the inlet CONTACTOR. In the present invention, the type of the enclosure is distinguished according to the inlet CONTACTOR, which is an input protection facility.

First, a soft starter device for each current switch type will be described with reference to FIG. 2.

The soft starter device 100 may include an SCR 160, an SCR gate driver 150, a CT 183, a power supply control unit 120, a current switch 182, and a control unit 130. In addition, a line inductor 184, an output control unit 140, and a bypass vacuum circuit breaker 141 may be further included.

In the SCR (Silicon Controlled Rectifier) 160, a forward switch and a negative switch provided with two anti-parallel diodes, respectively, are arranged in parallel.

The SCR gate driver 150 drives the gate of the SCR 160. Accordingly, it operates as a forward switch or a negative direction switch according to the output of the SCR gate driver 150 to conduct or cut off the voltage supplied to the SCR 160.

Therefore, the input power terminal 110 to which AC power is input, the SCR 160 composed of a forward switch for conducting a current in a positive direction and a negative switch for conducting a current in a negative direction, and the input power terminal 110 It has a configuration of an induction motor 200 electrically connected. Therefore, when the input power terminal 110 and the induction motor 200 are directly connected to each other, direct-in motoring is performed. In this case, an overcurrent is introduced into the induction motor 200 and may damage the induction motor. In order to appropriately control the overcurrent generated in this way to perform acceleration/deceleration, the speed control by phase control is performed using the SCR 160, which is a power semiconductor element.

The CT (Current Transformer) 183 is interposed at one end of the input power supply terminal 110 and the SCR 160 and is used for measuring input voltage and input current of a soft starter.

A line inductor (184) is interposed at one end of the CT (183) and the SCR (160) to suppress a rapid current change of the current input to the SCR (160). That is, by configuring the Line Inductor 160 at the input terminal of the SCR 160, it performs a function of suppressing a change in di/dt value to supply a stable current.

In addition, the output control unit 140 is operated to suppress a change in voltage input to the induction motor 200. In addition, a bypass vacuum contactor 141 that ensures the operation of the induction motor 200 in the event of a failure of the SCR 160 is connected in parallel to the input/output terminals of the SCR 160, so that the bypass vacuum circuit breaker 141 ) And the output of the SCR 160 is operated to output to the induction motor 200. For reference, reference numeral 143 denotes an induction motor connection terminal, 142 denotes a main cable, and 144 denotes an optical cable.

The power supply control unit 120 includes a potential transformer (PT) 121 that measures a voltage that is branched from the input power terminal 100 and is input, and an input voltage that is branched from the input power terminal separately from the PT 121 and is input. CPT (Control Potential Transformer; 122) converts (down transfer; 11kV → 120V) to a control voltage for SOFT STARTER control and outputs it to the UPS 123, and the voltage of the electric circuit is cut off or suddenly rises from the CPT 122. It includes an uninterruptible power supply (UPS) 123, which is a device that regulates power supply by limiting the case of falling or going down. That is, the power supply control unit 120 divides the power input from the input power terminal 110 into two, and one that has passed through the CPT 122 is input to the UPS 123 and the output of the UPS 123 is The other is input to the soft starter control unit 130 and the branched other is directly input to the control unit 130 through the PT 121.

The controller 130 receives the current that has passed through the CT 183 through an optical cable and controls the gate of the SCR 160 according to the measured amount of current to control on/off of the voltage applied to the induction motor 200. The control unit 130 operates as a control part that controls a soft starter, and includes a driving control command detection unit that detects a driving command by receiving a driving control command from a driver through a fieldbus.

In addition, the control unit 130 is a device used to change the amount of current from the input power that has passed through a circuit breaker for system protection such as the SCR 160 at the input power terminal 110, and is used for measuring SOFT STARTER current. The current passed through the CT (Current Transfomer) 183 is input through the optical cable 181 to measure the current. Accordingly, the CT 183 must be interposed at one end of the input power terminal 110 and the SCR 160.

The controller 130 receives the first output voltage passed through the PT 121, the second output voltage of the UPS 123, and the third output voltage of the CT 183, and compares the reference voltage and the reference current with the SCR gate. By controlling the driving unit 150, the forward switch or the negative direction switch is controlled to be operated. That is, the current passing through the CT 183 is input through the optical cable 181 and the gate of the SCR 160 is controlled according to the measured amount of current to control the on/off of the voltage applied to the induction motor 200. The gate of the SCR 160 is driven by the SCR gate driving unit 150, and the control unit 130 measures the measured amount of current and the power input from the power supply control unit 120 to drive the SCR 160. The gate control signal is output to the SCR gate driver 150 through the optical cable 151 and controlled. The optical cable 151 is used to prevent noise during signal transmission.

In addition, when the input voltage is less than the reference voltage (eg, 750V), the controller 130 operates in a preset low-voltage control mode. Conversely, when the input voltage is equal to or higher than the reference voltage (eg, 750V), the controller 130 operates in a preset high-voltage control mode.

The current switch 182 is a switch that cuts off a current when an overload or a short circuit is performed so as to open and close the current applied to the CT 183 from the input power terminal. Therefore, when a preset overload or short circuit condition is satisfied, the current applied from the input power terminal to the CT 183 is cut off.

The enclosure is a box-shaped body having an internal space, and the SCR 16, the SCR gate driver 150, the CT 183, the power supply control unit 120, the current switch 182, and the control unit 130 are inside the enclosure. It is located in space.

In the present invention, the shape of the enclosure is made different according to the type of the current switch 182, which is the inlet CONTACTOR, which is an input protection facility. This current switch 182 may be implemented as a K type current switch, SWG type current switch, VCS type current switch, and VCB type current switch, as shown in FIG. 3, and depending on the type of such current switch, a single enclosure or It should be implemented in the form of one of the upper and lower enclosures. It will be described in detail below.

1) Enclosure structure with K-type current switch

As shown in FIG. 4, the K-type current switch is a switch implemented in the form of a vacuum circuit breaker (VC) that opens and closes the current applied from the input power terminal to the CT in a vacuum state.

In this way, when the current switch 182 is implemented as a K-type current switch, the enclosure is implemented as a single enclosure having one door, as shown in FIG. 5. SCR, SCR gate driver, CT, power supply control unit, K-type current switch, and control unit are located in such a single enclosure. If there is a need to replace the vacuum circuit breaker (VC), it is necessary to monitor other SCR, SCR gate driver, CT, and power supply controller, so they are placed together in one single enclosure.

2) Housing structure with SWG type current switch

As shown in FIG. 6, the SWG type current switch is a switch provided with a disconnect switch, a fuse, and a vacuum circuit breaker (VC) separately for opening and closing of the current applied from the input power terminal to the CT. . That is, the SWG type current switch is provided with a disconnect switch and a fuse in addition to the vacuum circuit breaker (VC).

In this way, when the current switch 182 is implemented as a SWG type current switch, as shown in FIG. 7, the enclosure is implemented as a single enclosure having one door and includes an upper and lower enclosures each having separate doors. It is implemented as a top and bottom enclosure. The upper enclosure includes a disconnect switch that opens and closes the current applied from the input power terminal to the CT, and the lower enclosure includes a fuse, a vacuum circuit breaker (VC), SCR, SCR gate driver, CT, and power supply control. Make sure that the unit and the control unit are included.

In addition to the vacuum circuit breaker (VC), the SWG type current switch has a separate disconnect switch in order to further enhance the protection of incoming facilities.In the upper enclosure having a separate door for the convenience of operation and quick opening and closing of this disconnect switch. It is to place the cut-off switch.

3) Enclosure structure with VCS type current switch

As shown in FIG. 8, the VCS type current switch is a switch implemented with a fuse combination type VCS (Vaccum Contactor Switch), which is a vacuum circuit breaker with a built-in fuse to open and close the current applied from the input power terminal to the CT.

The fuse combination type VCS is interposed between the branch point of the input power terminal branched to the power supply control unit and one end of the CT, and the fuse combination type VCS is higher than the rated current cutoff value (KA value) of the VC (Vaccum Contactor). Make sure to have the rated current cutoff value (KA value). Therefore, as the fuse combination type VCS of the present invention is applied, the KA value is high, so that the accidental spread can be reduced in the event of an accident. For example, if the fuse combination type VCS of the present invention of 40KA is used, accidents within 40KA can be prevented from spreading. If the existing VC is applied, the KA value of the system is only 4KA. In this case, if an accident of 31.5KA occurs, the accident spreads to the upper stage because there is no device to block it. On the other hand, if the fuse-combined VCS of the present invention is in the system, the fuse is blown, so that accidents do not spread.

In this way, when the current switch 182 is implemented as a VCS type current switch, the enclosure is implemented as a single enclosure having one door, as shown in FIG. 9. SCR, SCR gate driver, CT, power supply control unit, VCS type current switch, and control unit are located in a single enclosure. If it is necessary to replace the fuse combination type VCS, it is necessary to monitor the other SCR, SCR gate driver, CT, and power supply controller, so they are placed together in one single enclosure.

4) Enclosure structure with VCB type current switch

The VCB type current switch is a switch implemented as a circuit breaker (VCB) to open and close the current applied from the input power terminal to the CT as shown in FIG. 10. The circuit breaker (VCB) is a switch that cuts off a circuit in a vacuum extinguishing method in a vacuum interrupter inside the circuit breaker by an external separate relay when an abnormal current such as an overpower short circuit or a ground fault occurs. Circuit breaker (VCB) has a very high dielectric strength, and the shape of the circuit breaker is small and light, and since it does not use oil, there is little risk of fire.

As described above, when the current switch is implemented as a VCB type current switch made of a circuit breaker (VCB), the enclosure is implemented as a single enclosure having one door, as shown in FIG. 11. SCR, SCR gate driving unit, CT, power supply control unit, VCB type current switch, and control unit are located in such a single enclosure. When there is a need to replace the circuit breaker (VCB), it is necessary to monitor the other SCR, SCR gate driver, CT, and power supply controller, so they are placed together in one single enclosure.

The embodiments in the description of the present invention described above are presented by selecting the most preferable examples to aid the understanding of those skilled in the art from among various possible examples, and the technical idea of the present invention is not necessarily limited or limited only by this embodiment. , Various changes and modifications and other equivalent embodiments are possible within the scope of the technical spirit of the present invention.

110: input power stage 120: power supply control unit
182: current switch 183: CT
160: SCR 130: control unit

Claims (6)

delete delete delete SCR (Silicon Controlled Rectifier) in which two reverse-parallel diodes are disposed in parallel with a forward switch and a negative switch are disposed in parallel; An SCR gate driver driving the gate of the SCR; A CT (Current Transformer) interposed between an input power terminal and one end of the SCR and used for measuring an input voltage and an input current of a soft starter; A PT (Potential Transformer) that cuts off the input current by operating when an instantaneous input current error occurs by branching from the input power terminal, and a CPT ( Control Potential Transformer), a power supply control unit including an uninterruptible power supply (UPS), which is a device that regulates power supply to peripheral devices by limiting the case where the voltage of the electric circuit is cut off or suddenly rises or falls; A current switch for blocking a current applied from the input power terminal to the CT when a preset overload or short circuit condition is satisfied; A control unit for receiving the current passing through the CT through an optical cable and controlling the gate of the SCR according to the measured amount of current to control on/off of the voltage applied to the induction motor; In the soft starter device for each type of current switch, including; the SCR, SCR gate driving unit, CT, power supply control unit, current switch, and a control unit mounted enclosure,
Depending on the type of current switch, it is implemented in the form of either a single enclosure or an upper and lower enclosure,
The current switch, SWG type current switch; A VCS type current switch implemented with a fuse combination type VCS (Vaccum Contactor Switch), which is a vacuum breaker with a built-in fuse; And a VCB type current switch implemented as a circuit breaker (VCB). It is implemented as any one of the types,
The SWG type current switch, the VCS type current switch, and the VCB type current switch are implemented in the form of either a single enclosure or an upper and lower enclosure according to the type of a current switch implemented by any one of
When the current switch is implemented as a SWG type current switch,
The enclosure includes an upper enclosure and a lower enclosure each having a separate door,
The upper enclosure includes a separate disconnect switch for quickly opening and closing the current applied from the input power terminal to the CT,
The lower enclosure includes a fuse, a vacuum circuit breaker (VC), an SCR, an SCR gate driver, a CT, a power supply control unit, and a control unit.
The method of claim 4,
When the current switch is implemented as a VCS type current switch,
The enclosure is implemented as a single enclosure having one door, and the SCR, SCR gate driver, CT, power supply control unit, VCS type current switch and control unit are located within a single enclosure. Starter device.
The method of claim 4,
When the current switch is implemented as a VCB type current switch,
The enclosure is implemented as a single enclosure having one door, and the SCR, SCR gate driver, CT, power supply control unit, VCB type current switch and control unit are located within a single enclosure. Starter device.

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