KR200356565Y1 - three phase troidal electric power curtailment that is not cut off the electricity - Google Patents

Abstract

The present invention relates to a three-phase trolley power saver, comprising a display lamp to check whether the power is applied from the outside, a blower fan to control the temperature inside the power saver, and the primary coil part 2 In the three-phase power saver using a troidle coil, characterized in that the coil coil unit is wound to uniformly wound trolley coil is coupled to each phase (R, S, T) of the input power source, each phase ( When bypass is achieved by combining the trolley secondary coil part having a contact in parallel with the trolley primary coil part coupled to R, S, and T), the bypass in the uninterrupted state is determined by the resistance coefficient of the trolley primary coil. When the abnormal current or power is detected in the overload relay configured to be coupled to the front end of the primary coil part, a bypass is made by the contact conversion of the magnetic relay. It solves the momentary power failure that occurs when it loses, and it also has an uninterruptible three-phase, uninterruptible troidle that has the effect of protecting the load-side electrical equipment or the power saver from electrical shock caused by the surge voltage caused by the contact change of the magnetic relay. Relates to a power saver.

Description

Uninterruptible Trojan 3 Phase Power Saver {three phase troidal electric power curtailment that is not cut off the electricity}

The present invention relates to an uninterruptible trolley 3-phase power saver, and more particularly, parallel to the trolley secondary coil portion having a contact to the trolley primary coil coupled to each phase (R, S, T) applied from the outside It solves the momentary power failure that occurs when bypass is made by contact change of magnetic relay, and also load-side electric equipment from electric shock caused by surge voltage caused by contact change of magnetic relay. B relates to an uninterruptible trojan 3 phase power saver having an effect of protecting the power saver.

In general, a three-phase saver using a trolley coil constitutes a voltmeter displaying a voltage value by measuring an input voltage of each phase (R, S, T, N) from an external power source as shown in FIG. A current meter configured to measure the current of the power applied from the outside to display a current value; a display lamp configured to check whether the external power is applied; and a blower fan to control the temperature inside the power saver. In addition, the first coil unit and the secondary coil unit is wound around the coiled Troidle coil is configured to reduce power by being coupled to each phase (R, S, T, N) of the input power source.

However, the power consumption of the electric load is proportional to the input voltage, and if the voltage is lowered more than necessary to reduce the power consumption, the power consumption is reduced, but it may have a fatal adverse effect on the performance and life of the electric device.

In order to reduce the electric shock applied to the load side according to the change of the voltage and current values, a reference value of the voltage and current is set, and a relay is driven to change according to the change of the voltage and current values of the power source on the input side. The entire circuit has been configured to bypass input power according to relay contact conversion.

However, the bypass configuration of relay contact conversion method is an instantaneous power failure state when the entire circuit is turned off at the moment of relay contact conversion and the input power applied to the load does not flow momentarily. Sensitive electrical devices have occurred such as turning off or resetting.

Three-phase power is mainly used in industrial sites. When the production line made by automatic process is suddenly turned off or reset, the efficiency of automation process line is lost due to loss of automation line data, sudden surge voltage and current. In addition to lowering the cost, the production line was suddenly stopped or restarted, causing frequent problems such as industrial accidents.

The present invention is conceived in view of the various problems occurring in the conventional Troidler 3-phase power saver as described above, a contact a point in the troidle primary coil coupled to each phase (R, S, T) applied from the outside By configuring the Troidle secondary coil part having a parallel coupling structure, if an abnormal current or power is detected in the overload relay configured at the front end of the primary coil part, the instantaneous power failure occurred when the bypass is made by the contact conversion of the magnetic relay. In addition, the present invention provides an uninterruptible trolley three-phase power saver having an effect of protecting a load-side electric device or the power saver from an electric shock generated by a surge voltage caused by a contact change of a magnetic relay.

1 is a configuration diagram showing the configuration of a conventional Troyder power saver.

Figure 2a is a block diagram showing an embodiment of the present invention uninterruptible trolley three-phase power saver.

Figure 2b is a schematic view showing an embodiment bypassed by the present invention uninterruptible trolley three-phase power saver.

♣ Explanation of symbols for the main parts of the drawing

10: Troyder primary coil portion 20: Troyder secondary coil portion

30: thermal relay (THR)

Referring to the three-phase power saver uninterruptible trolley of the present invention for achieving the above object is as follows.

The display lamp is configured to check whether the power is applied from the outside, the blower fan is configured to control the temperature inside the power saver, and the coil coil of the primary coil and the secondary coil is wound around the input power. In the three-phase power saver using a troidle coil, characterized in that configured to save power by being coupled to each phase (R, S, T), the first trolley nose coupled to each phase (R, S, T) When the bypass is made by combining the trolley secondary coil portion 20 having a contact to part 10 in parallel, it is configured to be bypassed in an uninterrupted state by the resistance coefficient of the trolley primary coil.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2a is a block diagram showing an embodiment of the present invention uninterruptible trolley three-phase power saver, Figure 2b is a block diagram showing an embodiment bypassed by the present invention uninterruptible trolley three-phase power saver.

In general, as shown in FIG. 1, the three-phase power saving device of the trolley is configured by coupling the contact a of the relay to the tip of the primary coil part, and is applied to each phase (R, S, T, N) power from the outside. The input voltage value and the current value of the applied power are measured and detected by a voltage / current detector configured of a voltmeter and an ammeter, and a power lamp and a cooling fan are driven, and the measured and detected voltage value and current value are greater than or equal to a set reference value. When power of good voltage / current value flows, current flows to contact b of the electro magnetic contactor-MC-2 through the contact point b of the thermal relay-THR included in the electronic switch circuit. . At this time, the electro magnetic contactor (MC) -1 is driven so that the power is passed through the troidle coil to save power. Then, the contact point a of the electro magnetic contactor (MC) -1 is turned on to indicate that a power saving lamp is in progress.

In addition, when the bypass is performed, each phase (R, S, T) power source is applied from the outside, and the input voltage value and the current value of the applied power source in the voltage / current detection unit composed of a voltmeter and an ammeter. In addition to the measurement detection and display, the power lamp and the cooling fan are driven, and when the measured current is higher than the set reference value, the interlock switch b of the thermal relay (THR) included therein is turned OFF. The interlock switch a contact is turned on so that current flows through the interlock switch a contact to the b contact of the electro magnetic contactor-MC-1. At this time, the electro magnetic contactor (MC) -2 is driven so that the power is bypassed to the load side without passing through the trolley coil. In addition, the contact display lamp indicating that the bypass function is being performed is turned on when the contact a of the magnetic contactor (MC) -2 is turned on.

As described above, when the relay opening and closing contact is configured at the tip of the troidle primary coil, when the bypass is achieved, the instantaneous power failure state occurs when the contact is converted on the entire circuit.

As shown in FIG. 2A, when the power supply of each phase R, S, and T is applied from the outside, the present invention uninterruptible trolley three-phase power saver is a thermal relay (thermal relay). relay-THR) (30) is detected and compared with the reference set value and applied to the trolley primary coil unit (10). When the power lamp W indicating whether the external power source is turned on and the voltage and current value of the external power source are similar to the reference setting value, the magnetic contactor (thermal relay-THR) -b contact point (eg, The electro magnetic contactor-MC-1 is driven so that an externally applied power source passes through the trolley primary coil part and the contact point of the electro magnetic contactor-MC-1 of the electro magnetic contactor-MC-1 is ON. Then, power is applied to the load side through the trolley secondary coil portion 20. At this time, the contact point (electro magnetic contactor-MC) 1-a is turned on, the power saving lamp (G) indicating a power saving state is turned on.

If the abnormal voltage and the abnormal current are detected in the thermal relay-THR 30, the thermal relay-THR-b contact is turned off as shown in FIG. 2B, and the thermal relay ( The thermal relay-THR) -A contact is turned on to drive the electro magnetic contactor-MC-2, and the electromagnetic contactor by which the electro magnetic contactor-MC-2 is bypassed by driving. (electro magnetic contactor-MC) 2-a contact is turned ON to bypass. The electro magnetic contactor (MC) 1-a contact is turned OFF to turn off the power saving lamp (G), and the electronic contactor ( The electro magnetic contactor-MC) 2-a is turned on so that the bypass lamp R indicating the bypass state is turned on.

In this case, as shown in FIG. 2, the present invention is coupled to the trolley secondary coil portion 20 having a contact point in parallel to the trolley primary coil portions 10 coupled to the respective phases R, S, and T. In addition, even when the bypass is made, only the trolley secondary coil portion 20 is turned off, and the external power is continuously applied to the load side through the trolley primary coil portion 10, and the contact point of the electro magnetic contactor-MC2 is When converted, the external power is gradually bypassed through the contact point of the electro magnetic contactor (MC) 2 due to the resistivity of the primary coil part.

As described above, according to the uninterruptible three-phase power saving device of the present invention, a troidle secondary coil part having a contact point in parallel to a primary coil portion coupled to each phase (R, S, T) applied from the outside in parallel By combining, when the abnormal current or power is detected in the overload relay configured to the front end of the primary coil portion, the instantaneous power failure occurred when the bypass is made by the contact conversion of the magnetic relay, and also occurs by the contact conversion of the magnetic relay. It has an effect of protecting the load-side electric device or the power saver from the electric shock generated by the surge voltage.

Claims (1)

The display lamp is configured to check whether the power is applied from the outside, the blower fan is configured to control the temperature inside the power saver, and the coil coil of the primary coil and the secondary coil is wound around the input power. In the three-phase power saver using a troidle coil, characterized in that configured to save power by being coupled to each phase (R, S, T), the troidle coupled to each phase (R, S, T) 1 When the bypass is made by combining the trolley secondary coil portion 20 having a contact to the chacoil portion 10 in parallel, it is configured to be bypassed in an uninterrupted state by the resistivity of the troidle primary coil. Uninterruptible Trojan 3-phase power saver.