KR20080046413A - Motive power supply apparatus for actuator - Google Patents

Abstract

A motive power supply device for an actuator is provided to drive the actuator safely and smoothly by supplying a charged power on a condenser to the actuator at a time. A motive power supply device for an actuator includes a transformer(303), a leakage detection unit(304), a breaking actuator(306), a breaking actuator driving unit(305), an insulated resistance detection unit(307), a power supply unit(309), a recovering actuator(312), a recovering actuator driving unit(311), a control unit(308), and a charged voltage detection unit(315). The transformer is installed on paths of a power side. A start power supply unit charges a power to be supplied to the recovering actuator when the paths are broken. The start power supply unit is an electric dual layer condenser.

Description

    Motive Power Supply Apparatus for Actuator}

1 is a block diagram showing an embodiment of a power supply device in a conventional vehicle shut-off and automatic return-type leakage detection device.

Figure 2 is a block diagram showing an embodiment using a rechargeable battery in the automatic return device of a conventional intelligent earth leakage breaker.

Figure 3 is a block diagram showing an embodiment of the starting power supply device for the actuator of the present invention.

Figure 4 is a flow chart showing the operating state of the starting power supply device for the actuator of the present invention.

* Description of the main parts of the drawings

301, 302: track 303: current transformer

304: earth leakage detection unit 305: blocking actuator drive unit

306: cutoff actuator 307: Mistrip and insulation resistance detection unit

308 control unit 309 power supply unit

310: electric double layer capacitor 311: recovery actuator drive unit

312: recovery actuator 315: charge voltage detector

The present invention is an automatic leakage circuit breaker which is installed in order to prevent damage to the product, damage or human life due to electric shock due to a short circuit or lightning, etc. Automatic recovery of the blocked power after the cause of the interruption is eliminated so that the power can be re-supplied quickly, thereby minimizing the damage to important products and facilities that operate using electricity. In the circuit breaker, the present invention relates to a starting power supply device for an actuator for supplying starting power to an actuator such as a micromotor or a solenoid that provides power for automatically restoring a blocked power source after being charged.

As is well known, a ground fault interruption and an automatic recovery type earth fault detection device which detects a ground fault in such a ground fault detection device, shuts off the power supply, and resumes the power supply when the ground fault is terminated. No. 0310503 (the name of the design: car cut-off and automatic return-type short-circuit detection device; referred to as 'quoting design 1'), which is shown in Figure 1.

As shown here, a current transformer 12 is installed in the line 10 and 11 on the power side, and the operating power is supplied from the power supply unit 13 receiving AC 220V power through the line 10 and 11. The first control unit 14 receiving the signal according to the current difference from the current transformer 12 while receiving the operation power is supplied to measure whether a short circuit occurs in a state where power is supplied. Are the leakage currents flowing before the power is supplied by the ground fault detectors 16 and 18, respectively, while the switching elements 15 and 17 are coupled to the two load side lines 10 and 11, which are the rear ends of the current transformer 12, respectively. The second control unit 19 to output a signal according to each of the above, and receives a power leakage generation signal by the current value from the earth leakage detectors 16, 18 while receiving the operating power through the first control unit 14 In this case, the switching elements 15 and 17 are selectively It is as hayeoseo adapted to that end automotive features and auto-resetting short-circuit detection device.

In addition, the Republic of Korea Utility Model Registration No. 20-0382085 (the name of the design: automatic return device of the intelligent earth leakage breaker; referred to as "quoting proposal 2"), which is shown in Figure 2.

As shown therein, the 'quote 2' includes a voltage supply unit 2 for distributing the voltage supplied through the circuit breaker 1 to each unit; A voltage detector (3) for detecting whether a voltage is output from the voltage supply (2); A charging circuit unit (4) for charging the storage battery (5) by rectifying the AC voltage supplied through the voltage supply unit (2) to a DC voltage in a normal operation of the earth leakage breaker (1); A battery 5 which is normally charged by the voltage output from the charging circuit unit 4 and supplies a driving voltage to each part when the earth leakage breaker 1 trips; An overload detector 6 for determining an abnormal state of various loads by detecting an overcurrent; A control unit (7) for generating a driving or non-driven signal to the actuator driver (8) in response to the state of the overload detector (6) when the non-voltage detection signal is input from the voltage detector (3); An actuator driver (8) for driving the actuator (9) by a predetermined number of revolutions in response to an output signal of the controller (7); It is an automatic return device of an intelligent earth leakage breaker, comprising an actuator (9) that is rotated by a predetermined angle in response to the output signal of the actuator driver (8), and then turns on the earth leakage breaker (1). .

Proposition 1 can check whether there is a short circuit even before the power is supplied because the switch is turned off.When a short circuit occurs, the power supply is not made, and the power supply is provided only when the cause of the short circuit is solved. In addition, it is possible to supply power only when the cause of the short circuit is solved by judging whether there is a short circuit even when a short circuit occurs while the power is being supplied. However, since the AC power supply on the power supply side is used to supply the first and second control units and the switching elements, components necessary for decompression and rectification and a separate switch fuse required for safety are required, which increases the size of the product and increases the manufacturing cost. In the proposal 2, the earth leakage circuit breaker may be damaged by lightning, surge or leakage. When the load is normal, the controller checks the load status using the power supply of the battery which maintains the state of normal charging. When the load is normal, the operator operates the actuator to restore the ELB trip phenomenon so that the equipment can be operated stably. It can solve the trouble of turning on the earth leakage breaker (ELB) and also prevent the communication failure and various damages that can be caused by not operating the unmanned communication equipment for a long time. There is a risk of explosion due to overheating due to overcharging, failure due to overdischarging, limit of lifespan due to repetition of charging and discharging, and installation of expensive storage batteries increases the price of the product.

The object of the present invention is to solve the above problems,

When the power cut off due to overcurrent or lightning is automatically restored after the power is applied, it is charged by using the power supplied as the actuator's starting power supply device. It can be manufactured in small size so that power can be supplied as starting power, and since there is almost no limit to the number of charge and discharge, it provides semi-permanent life, no heat generation during charging, and provides a low-cost starting power supply for actuator It is to.

In order to achieve the above object, the present invention operates a ground fault detecting unit for determining whether a ground fault occurs in two lines on the load side, and in the event of a ground fault, operates a ground fault blocking actuator to cut off the supply of power and to terminate the ground fault. In this state, the recovery actuator can be operated so that the supply of power can be automatically resumed, and it is charged with a power supply normally used for use as the starting power of the recovery actuator that operates when the power is restored. It is characterized in that it is provided with an electric double layer capacitor to be used as a starting power supply device for use if necessary.

Accordingly, the present invention provides sufficient and limited power by supplying the electric charges charged to the electric double layer capacitor at a time, thereby preventing the actuator from being burned or unstable, thereby ensuring the reliability of operation and charging the various actuators. This is a useful effect that can be widely used for various applications of supplying power with limited power.

The present invention will be described with reference to the accompanying drawings.

Fig. 3 is a block diagram showing the configuration of the starting power supply device for the actuator of the present invention. As shown here, the current transformer 303 is provided on the lines 301 and 302 on the power supply side so as to detect a current difference between the two lines 301 and 302 while the power is supplied to detect a short circuit condition. An electric leakage detecting unit 304 for determining an electric leakage by comparing the current value detected at 303 with a preset current value, and a blocking actuator for blocking the lines 301 and 302 connected to the load 314 in the case of electric leakage. 306, a disconnection actuator driver 305 for driving the same, a mis-strip and insulation resistance detector 307 for detecting the occurrence of mis-strip and insulation resistance when the line connected to the load 314 side is cut off, and a line A power supply unit 309 for reducing and rectifying the power applied from the 301 and 302 to an appropriate voltage and supplying the entire circuit, and a restoring actuator 312 for restoring the blocked lines 301 and 302, and restoring Actuator (31 2) charging power for supplying the recovery actuator 312 when the recovery driving unit 311 for driving the circuit, the control unit 308 for controlling the operation of the entire circuit, and the lines 301 and 302 are shut off. It is provided with an electric double layer capacitor 310 and a charging voltage detector 315 which is a starting power supply device for.

Referring to the working state of the present invention configured as described above is as follows.

Normally, the power supply unit 309 is connected to the lines 301 and 302 to receive AC power to supply a predetermined voltage drop and rectification to supply circuits of each unit, and simultaneously supply a charging current to the electric double layer capacitor 310. The voltage charged in the electric double layer capacitor 310 is sensed in real time by the charging voltage detector 315 while being charged and applied to the control unit 315, and the control unit 315 is provided to the electric double layer capacitor 310 only up to a predetermined required voltage. It is possible to charge and to control the charging stop when more voltage is charged. In addition, the power source is connected to the load 314 side with the contact point 313 turned on to supply power to the load 314 side. The current path 301 is provided by the current transformer 303 provided in the lines 301 and 302. The induced voltage, which varies according to the magnitude of the current flowing through the 302, is detected by the leakage detecting unit 304 and applied to the controller 308, and the controller 308 compares it with a preset current value to determine whether an electrical leakage or overload is present. If it is detected differently from the set current and is determined to be a short circuit or an overload, it generates and outputs a control signal for immediately blocking the contact 313 for safety of the load 314 side. As such, when the control unit 308 outputs the cutoff signal S1 for blocking the contact point 313, the cutoff actuator driver 305 as the switching element operates to operate the cutoff actuator 306. 313 is to turn off the on state that the contact is to cut off the supply of power. In addition, when a mis-strip is generated by the surge or insulation resistance detection unit 307 due to surge or brain impulse, the controller 308 generates and outputs a recovery signal S2 to restore power. As such, when the control unit 308 outputs the recovery signal S2 for connecting the contact point 313, the recovery actuator driver 311 made of a switching element operates to use the charged power connected to the electric double layer capacitor 310. By operating the recovery actuator 312 to operate by doing so is to restore the open contact 313 is connected to the on state. In addition, when the ground fault detection unit 304 detects a ground fault and outputs the ground fault interruption signal S1, the controller 308 generates a contact resistance between the lines 301 and 302 and the ground through the mist strip and the insulation resistance detection unit 307. In this case, the insulation resistance value at this time is an example. If a resistance value of 0.2 megohm or less is detected, the state of short circuit is continued. Therefore, the recovery signal S2 is not output. It is determined that it is not in the state to output the recovery signal (S2) to operate the recovery actuator driver 311, thereby connected to the electric double layer capacitor 310, the recovery actuator 312 operating by the charged power is driven to shut off Contacts 301 and 302 are connected to restore power so that power can be supplied to the load 314.

When a short circuit occurs in the control unit 308 of the present invention, the shutoff actuator 306 shuts off the power supply, or when the short circuit state is released, the restoring actuator 312 operates to restore the power supply. A description with reference to the flowchart of FIG. 4 is as follows.

Step 401 is the start of the program, step 402 is the operation of the initial manual lever to determine whether the circuit breaker is turned on or off, and step 402a is the manual lever of the earth leakage breaker. The step of terminating when the power supply is turned off, and the step 403 is to check the voltage charged in the electric double layer capacitor 310 when the power supply is on by operating the manual lever of the earth leakage breaker. Step 404 is a step of continuing charging because the electric double layer capacitor 310 is not yet fully charged, and step 403a is a step of full charging of the electric double layer capacitor 310 to end charging. Step 405 is a step of checking the states of the tracks 301 and 302 to detect a mist strip generated by the effects of surge or brain impulse, and step 405a is a step (4). 05 is a step of outputting the recovery signal (S1) in order to restore the power to the on state by operating the circuit breaker when the detected result is a strip, step 405b is a recovery signal (outputted in step 405a) The recovery actuator 312 operated by the charged power connected to the electric double layer capacitor 310 by S1) is driven, and the step 406 is a result of detecting that the result detected in the step 405 is not a mist strip. In this case, the insulation resistance between the lines 301 and 302 and the ground is checked secondly, and when the resistance value is 0.1 to 0.2 megohm or more, it is determined that it is not a short circuit state and the process returns to step 402. 407 determines that a short circuit has occurred when the insulation resistance value between the lines 301 and 302 and the ground is 0.1 to 0.2 megohm or less, and cuts off the signal immediately to cut off the power supplied to the load 314 side. Output) In step 408, the blocking actuator 306 is driven by the blocking signal S1 output in step 407.

In this way, the present invention uses the charge charged in the electric double layer capacitor to the power of the actuator to drive the power automatically shut off due to overload or surge surge, so that the charged charge is supplied at a time. With limited power supply, the actuator can operate smoothly and safely, and the reliability of the operation can be ensured, which can be widely used in various applications for supplying power charged to various actuators with limited power. It is.

Claims (2)

Current transformer 303 provided on the lines 301 and 302 on the power supply side, an electric leakage detecting unit 304, a blocking actuator 306, a blocking actuator driving unit 305, a mist strip and insulation resistance detecting unit 307, Charging power for supplying the recovery actuator 312 when the power supply unit 309, the recovery actuator 312, the recovery actuator driver 311, the control unit 308, and the lines 301 and 302 are blocked. A starting power supply device for operating the actuator, and a charging voltage detection unit 315, characterized in that the starting power supply device for an actuator. The method according to claim 1, The starting power supply device described above is an electric double layer capacitor 310, the starting power supply device for an actuator.

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