KR100447785B1 - Test circuit of apparatus for preventing electric shock - Google Patents

Abstract

The present invention relates to a test circuit of an electric shock prevention device, which is portable and detects the abnormality of the automatic electric shock prevention device and can provide the operator with detailed information of the abnormality of the automatic electric shock prevention device quickly. Present the test circuit.

Description

Test circuit of apparatus for preventing electric shock

The present invention relates to a test circuit of an electric shock prevention device of an arc welder, and more particularly, to a test circuit for checking the abnormality of the electric shock protection device used to prevent an accident due to electric shock during the electric arc welding operation of the AC arc welder. .

Arc welding machine is the arc welding between the coated electrode and the welded object caught by the holder to generate arc in the gap between the coated electrode and the welded material. It is a device that welds to a pool and fuses as part of a base material to make a weld metal.

In general, arc welders are often used in a state where the energized portion of the holder is exposed or a part of the cable is exposed during operation. As a result, a gable in which the operator's body part is in contact with or exposed to the energized portion of the holder is exposed. There are frequent electric shock accidents that come in contact with some. In particular, in the case of an AC arc welding machine using an AC voltage, a high voltage is output to the output side (that is, the voltage between the holder wire and the earth wire) due to the voltage applied to the input side during operation, so that there is a high risk of electric shock disaster accident. Therefore, when there is no load, an automatic electric shock prevention device is installed in the welding machine so that the voltage (voltage between the secondary holder wire and the earth wire) output to the output side is 25 V or less, thereby preventing an electric shock accident of the operator.

The automatic electric shock prevention device is specified in the AC arc welding machine section of Article 33 of protection devices for harmful and dangerous machinery, appliances, etc., and its use is compulsory.

The employer is surrounded by conductive materials such as metal inside the ship or tank, boiler body, etc., so that a part of the body can be easily contacted with conductive materials during welding work. It is mandatory to install automatic lightning protection at the welder in these high liquid wet areas. In addition, the automatic electric shock prevention device used in the above places should be a performance-proofed product, and the output side no-load voltage of the AC arc welding machine is automatically 25 V or less within 1 second after the arc generation stops (30 V or less in case of power supply voltage fluctuation). Must descend.

Therefore, the automatic electric shock prevention device has a device for controlling the main circuit of the welding machine, and forms a main circuit only when welding in accordance with the operation of the welding rod, and operates to lower the no-load voltage on the output side of the welding machine. That is, the output side no-load voltage of the welding machine outputs the no-load voltage (25V or less) at normal when the automatic electric shock prevention device is in operation.The dwell time is the main contact is opened after the welding rod is separated from the base material. The time until the voltage reaches the no-load voltage of the automatic lightning protection device, which shall normally be within 1.5 seconds.

As described above, the automatic electric shock prevention device is used as an essential device for protecting the worker from electric shock accidents during welding work, but malfunctions often occur due to a defect in the device or a circuit damage caused by long time use. Done. Since the malfunction of the automatic electric shock prevention device immediately leads to an electric shock disaster accident of the worker, a new method for detecting the malfunction of the automatic electric shock protection device should be proposed.

Recently, as a method for detecting malfunction of the automatic electric shock prevention device, a method of configuring a predetermined malfunction detection circuit in the automatic electric shock prevention device and installing a predetermined lamp externally to inform the worker through the lamp in case of malfunction It is used. That is, the malfunction detection method of the conventional automatic electric shock prevention device is determined to be bad when the reference voltage is higher than the reference voltage based on a predetermined reference voltage (25 V at no load), and when it is lower than the normal voltage, it is determined to be normal to the worker through an externally installed lamp. This is how you tell.

However, this method not only does not know the exact value (error generating voltage) when detecting the malfunction of the automatic electric shock prevention device, but also causes an increase in the overall product cost because a malfunction detection circuit must be provided for each automatic electric shock prevention device. . In addition, since the automatic electric shock prevention device must be replaced when the malfunction detection circuit breaks due to a predetermined cause, many losses have occurred economically.

Therefore, the present invention has been made to solve the above problems, it is portable and automatic electric shock that can detect the presence of the abnormality of the automatic electric shock prevention device to quickly provide the operator with detailed information of the abnormality of the automatic electric shock prevention device The purpose is to provide a test circuit for the prevention device.

1 is a detailed circuit diagram illustrating a test circuit of an electric shock prevention device according to an embodiment of the present invention.

2A and 2B are flowcharts for explaining the operation of the test circuit shown in FIG.

<Explanation of symbols for the main parts of the drawings>

10: welding machine 20: automatic electric shock prevention device

In order to achieve the above object, the present invention is a circuit for testing the abnormality of the automatic electric shock prevention device of the welding machine, the circuit comprising: a voltmeter for displaying the secondary voltage of the welding machine; A first relay configured to be excited according to the secondary voltage of the welding machine to blink the first indicator to display the abnormality of the automatic electric shock prevention device at no load; A second relay configured to be energized according to the primary voltage of the welder to light a second indicator light to indicate whether the welder is operated under load; A timer for setting an operation time of the automatic electric shock prevention device when switching from the load to the no load; And a third indicator indicating whether there is an abnormality in the automatic electric shock prevention device according to the operation of the timer.

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

1 is a block diagram of a test circuit of an automatic electric shock prevention device according to an embodiment of the present invention.

Referring to FIG. 1, the test circuit of the automatic electric shock prevention device of the present invention includes a voltmeter (V), a frica relay (FR), a relay (R1), a timer (T), a red light (R), and a green light (G). And it consists of a yellow light (Y), it is possible to carry separately from the automatic electric shock prevention device (20).

In detail, a voltmeter (V) for measuring the secondary voltage of the welder 10 at no load and the primary voltage of the welder 10 at load and displaying the measured voltage value, and the secondary voltage at no load. And the relay R1 that are excited according to the primary voltage on load, the red light R that is turned on in the excited state of the frica relay FR, the relay R1 that is excited according to the primary voltage under load, and the relay R1. It consists of a green light (G) that lights up according to the excitation of). In addition, the test circuit of the automatic electric shock prevention device further comprises a yellow light (Y) and a timer (T) according to the test method, the yellow light (Y) is the first of the test (TEST1) of the Frika relay (FR) It is determined whether there is an abnormality or whether the automatic electric shock prevention device 20 operates within a predetermined time during the second test TEST2. The timer T sets the operating time range of the automatic electric shock prevention device 20 and is usually set to 0.5 seconds to 1.5 seconds.

The voltmeter V is connected between the secondary ends (between the holder wire and the earth wire) of the welding machine 10, and the furica relay FR is connected in parallel with the voltmeter V so that the non-contact R1-b of the relay R1 is connected. And according to the non-contact Tb of the timer T, the operating voltage is usually set to AC 6V to 25V. In addition, the relay R1 is connected between both ends of the primary side of the welding machine 10, and the timer T is connected to the power supply terminal so that the ratio of the non-contact FR-b of the frica relay FR and the relay R1 is reduced. Excitation is performed according to the contacts R1-b. In addition, the red light R is an indicator for determining whether the automatic electric shock prevention device 20 operates normally at no load, and is connected between the power supply terminals and flashes according to the contact point FR-a of the frica relay FR. The green light G is connected to both ends of the primary side of the welding machine 10 and is an indicator for determining whether the automatic electric shock prevention device 20 under load is normally operated. The green light G is turned on in accordance with the contact R1-a of the relay R1. . The yellow light (Y) is connected between the power terminals, and lights up according to the contact point FR-a of the frica relay FR during the first test TEST1, and the timer T of the timer T during the second test TEST2. It lights up according to the contact Ta.

The operation of the test circuit of the automatic electric shock prevention device configured as described above will be described in detail with reference to the flowcharts of FIGS. 2A and 2B.

First, as shown in FIG. 1, the first terminal A1 of the automatic electric shock prevention device 20 is connected to one end of the power supply terminal, and the second terminal A2 is connected to the primary side of the welding machine 10. The third terminal A3 is connected to the terminal connected to the primary side of the welding machine 10 among the power terminals, and the fourth terminal A4 is connected to the holder wire on the secondary side of the welding machine 10, and the fifth terminal A5. ) Is connected to the earth wire on the secondary side of the welder 10.

In this state, as shown in FIGS. 2A and 2B, after the power supply of the welding machine 10 is turned off, the primary wirings B3 to B5 of the test circuit of the automatic electric shock prevention device are connected to the power supply terminal and the welding machine ( 10 is connected to the primary side, and the secondary wirings B1 and B2 are connected to the secondary side of the welding machine 10 (S1 and S2).

Subsequently, after the power supply of the welding machine 10 is turned ON, the no-load voltage output to the secondary side of the welding machine 10 is checked to check whether the automatic electric shock prevention device 20 operates normally at no load. Measure using and compare the measured value with the reference voltage (25V) (S5 and S6).

At this time, when the value measured by the voltmeter (V) is higher than the reference voltage (25V), the automatic relay prevention device to the operator by maintaining the state that the red light (R) is turned off by the excitation relay FR (dis) 20) is not operated normally under no load (S7 and S8). On the other hand, if the value measured by the voltmeter (V) is less than or equal to the reference voltage (25V) (that is, between 6V to 25V), the frica relay (FR) is excited to cause the red light (R) to blink repeatedly to the operator. Automatic electric shock prevention device 20 tells that the normal operation at no load (S9 and S10). In addition, the welding operation is performed to check whether the automatic electric shock prevention device 20 operates normally at the time of load. At this time, the relay (R1) is excited, the red light (R) is turned off and the green light (G) is turned on as the Furica relay (FR) is not excited to inform the worker that the welding machine 10 is in use (S11). To S13).

Subsequently, a first test TEST1 for checking whether the frica relay FR is normally excited is performed. In other words, the yellow light (Y) is turned on when the frica relay (FR) is excited during loading, thereby informing the operator that the frica relay (FR) is abnormally excited, and when the frica relay (FR) is not excited, the yellow light ( By keeping Y) off, the worker is informed that the Frika relay FR is normally excited (S15 to S17). In addition, a second test TEST2 is performed to check whether the automatic electric shock prevention device 20 operates normally within a time (usually 0.5 second) set in the timer T. FIG. That is, after switching the state of the welding machine 10 from a load state to a no load state, the excitation time T1 of the frica relay FR is compared with the time T2 preset in the timer T (S18-S20). ). Subsequently, when the excitation time T1 of the frica relay RF is greater than the time T2 set in the timer T, the yellow light Y is turned on to allow the operator to operate the automatic electric shock prevention device 20 normally. On the other hand, if the excitation time T1 of the frica relay RF is less than the time T2 set in the timer T, the yellow light Y remains off to prevent the operator from automatically electric shock. Informs that the device 20 is operating normally (S21 to S23).

As described above, the present invention measures the voltage between the secondary holder wire and the earth wire of the welding machine at no load of the welding machine, and when the measured value is 25V or less, the red light is repeatedly blinked so that the automatic electric shock prevention device operates normally at no load. In the event of a load, the green light is turned on by the rated voltage applied to the primary wiring of the welding machine, and the red light is turned off to inform the worker that the welding machine is in use. In addition, when the voltage output to the secondary wiring of the welding machine is higher than 25V through the first and second tests TEST1 and TEST2, the yellow light blinks or lights to inform the worker that the electric shock protection device is abnormally operated. .

The present invention detects the abnormality of the automatic electric shock prevention device and provides the operator with detailed information of the abnormality of the automatic electric shock prevention device so that the worker can quickly determine whether the automatic electric shock prevention device is abnormal. As a result, it is possible to manage the automatic electric shock prevention device properly and to prevent safety accidents and manage the equipment efficiently.

In addition, the present invention is designed to be portable separately from the automatic electric shock prevention device, so that it can be easily moved, and can test the presence or absence of abnormalities of the multiple automatic electric shock prevention devices with one test circuit, There is no need to provide an abnormality detection circuit, so there are many advantages economically.

Claims (4)

In the circuit for testing the abnormality of the automatic electric shock prevention device of the welding machine, A voltmeter for displaying the secondary voltage of the welder; A first relay configured to be excited according to the secondary voltage of the welding machine to blink the first indicator to display the abnormality of the automatic electric shock prevention device at no load; A second relay configured to be energized according to the primary voltage of the welder to light a second indicator light to indicate whether the welder is operated under load; A timer for setting an operation time of the automatic electric shock prevention device when switching from the load to the no load; And And a third indicator for displaying an abnormality of the automatic electric shock prevention device according to the operation of the timer. The method of claim 1, And wherein the third indicator flashes according to the excitation state of the first relay under load. The method of claim 1, Wherein the first relay is excited at 6V to 25V. The method of claim 1, And the timer is set to 0.5 to 1.5 seconds.