KR200253596Y1 - Power tester - Google Patents

Abstract

The present invention relates to a tester for diagnosing a failure of a wiring system or an electric device such as an automobile. In particular, when diagnosing a failure of an electric device such as a starter motor or a generator, the present invention is not only connected to the wiring system, The present invention relates to a power tester that can supply power to diagnose a driving state.

Description

Power tester

The present invention relates to a power tester capable of inspecting the disconnection of an electrical device wiring system such as an automobile and controlling and supplying the power required for driving the devices in a simple configuration.

Starting motors, various motors, headlights, fans, and various wirings of automobiles are tested in various ways to check for abnormalities in case of failure.

As the most common method for testing the fixing of these electrical devices, simple testers for testing the presence of disconnection in the wiring system are used.

The disconnection tester may supply a predetermined power to the test object to check whether the power supply is conducted, and inspect the disconnection. When the disconnection is confirmed, the wiring may be replaced or repaired.

However, the starter motors, various motors, headlamps, fans, and the like of the above-described automobiles often cause physical failure of each device as well as the abnormality of the wiring system. In such a case, it is difficult to accurately diagnose the cause of the failure only by confirming the abnormality of the wiring system. Therefore, even if a fault occurs, devices that have no problem in the wiring system should be separated or disassembled from the installed position to check the problem.

Many of the devices mounted in automobiles, etc., are very precisely mounted due to space constraints, and therefore require considerable skill and time to separate or disassemble the devices. However, if you remove or disassemble and inspect the electric devices such as the starter motor, it often happens that nothing is wrong. In other words, it is a result of wasting a lot of time and effort by separating the device that could be maintained without removing or disassembling.

The present invention is to solve the problems as described above, and during the inspection of the abnormality of the electrical system wiring system, such as a vehicle, supplying a controlled power to each device as needed to more accurately determine the abnormality of each device This provides a power tester that can diagnose the condition of each device without unnecessary disassembly or disassembly.

In addition, the present invention may be in a state in which a load is not generated due to a failure of the electric devices when the electric devices are powered or in an unsuitable state for supplying power. If excessive current is supplied to the electric device at this time, the circuit system of the electric device will be fatally damaged. Therefore, the present invention is to provide a power test to protect the circuit system of the electrical device by automatically blocking the flow of current when a certain amount of current flows when supplying power during the inspection.

1 is a block diagram of a power tester according to the present invention.

2 is a perspective view of a power tester according to the present invention.

3 is a driving circuit diagram of a power tester according to the present invention.

Figure 4 is a state of use of the power tester according to the present invention.

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

12: battery 14: test pin

16: power switch 18: disconnect switch

20a, 20b, 20c: LED1 (power indicator lamp), LED2, LED3

22a, 22b: Lamp 1, Lamp 2 24: Lamp changeover switch

26a, 26b: transistor 1, transistor 2

28a, 28b: (+) ground creep, (-) ground creep

30: ground creep

110: power supply means 120: power supply means

130: power control means 140: lighting means

150 display means

The present invention and the power supply means to achieve the above object; Power applying means for directly applying power of the power supply means to a test object; Selective connection between the (+) polarity and the (-) polarity of the power supply means by a switching operation, and if the current supplied from the power supply means to the target object is a predetermined amount or more is made of a cutoff switch that can cut off the supply of current Power control means; Lighting means connected to the power supply means for illuminating a tester object; And a display means connected to a power supply line which is a line for supplying power from the power supply means to the power applying means, the display means for displaying whether the power state controlled by the power control means is normally conducted. .

The present invention provides a power tester, characterized in that the power supply means is a battery power of 6 ~ 24V to achieve the above object.

The present invention provides a power tester, characterized in that the power supply means is a test pin in the form of an awl to facilitate connection to the wiring system or the electrical device of the test object to achieve the above object.

In order to achieve the above object, the present invention provides a power control switch capable of selectively connecting the positive and negative polarities of a battery power source by a switching operation, and the positive power switching switch (+). When the polarity is connected, when the current flowing to the test pin is a certain amount or more, it is made of bimetallic material to provide a power tester characterized in that the switch is automatically cut off by the temperature change caused by the current change.

In order to achieve the above object, the lighting means is connected to a power supply means so that the lamp is installed on both sides of the top of the tester, and when the voltage of the battery which is the power supply means is 12V, the lamp is directly connected to the lamp. In the case of 24V, it provides a power tester comprising a lamp selector switch for switching operation so as to be connected by reducing the pressure through the resistor (R1).

In order to achieve the object of the present invention, the display means is connected to the positive polarity of the battery power by the power switching switch (+) LED (2) is emitted when the positive current flows to the tester pin, and by the power switching switch LED3 which emits light when the (+) polarity and (-) polarity of the battery power supply are cut off, and when the test object is disconnected with a predetermined current flowing through the test pins by the resistors R3 and R8, It provides a power tester, characterized in that consisting of.

The present invention is a power tester, characterized in that the lamp further comprises a transistor turned on by the resistor (R6) and the resistor (R7) so that the lamp is conducted when the battery current flows through the power supply line.

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

The present invention, as shown in Figure 1, the power supply means 110, the power supply means 120 is connected to the test object from the power supply means to supply power through a power supply line, the power supply means and power Overload power control means 130 is connected to the power supply line between the applying means 120 selects the polarity of the current flowing through the power supply means to the test object, and is cut off when a predetermined amount or more of current flows to the test object. And a lighting means 140 connected to the power supply means for illuminating the test object, and display means 150 for confirming that power is normally blocked or supplied according to each state.

Referring to the embodiment of the power tester configuration designed in accordance with the configuration of the present invention in detail, as shown in Figure 2, each of the above-described components are installed in a case that can be grasped lightly by hand.

The uppermost part of the case 10 is formed with a test pin (14-power applying means) that is in contact with the test object to supply power to the battery 12, which is a power supply means, and the lowermost part is connected to the battery 12 power supply. The electric wire is inserted into and connected to the respective components, and the lamp 1 22a and the lamp 2 22b, which are capable of illuminating the test object as a luminaire, are formed on both sides of the uppermost part of the case 10 in a symmetrical direction. .

In the center of one side of the case 10, a button-type power changeover switch 16 is formed which selects the polarity of the battery 12 power and conducts current to the test pin 14, and the power changeover switch 16 When is in the middle, it is not connected to any polarity. When it is pushed upward, the positive pin is connected to the test pin 14, and when it is pushed downward, it is connected to the negative polarity.

On the upper portion of the power conversion switch 16, LED2 22b and LED3 22c are formed which can confirm whether the polarity selected as the display means is normally connected. Here, the LED2 22b emits light when a positive current flows through the test pin 14, and the LED322c emits light when the electric device is disconnected.

The lower portion of the power conversion switch 16 is formed with an LED1 (22a-power indicator lamp) to confirm whether the tester of the present invention is normally connected to the power supply of the battery 12.

The side of the case 10 has a lamp switching switch for converting the voltage to a voltage set in the lamp manufactured to be used only at a constant voltage when the battery 12 is 12V and 24V.

One end of the wire (connected with the battery power source) connected to the bottom of the case 10 has a positive ground creep 28a and a negative earth ground for easy connection to the positive and negative polarities of the battery 12 power source. The creep 28b is formed, respectively, and the ground creep 30 is formed in one side.

The configuration as described above is described based on the circuit diagram of FIG. 3.

As shown in FIG. 3, the circuit diagram includes a battery 12, a test pin 14, a power conversion switch 16, a disconnect switch 18, an LED1 20a, an LED2 20b, and an LED3 20c. And lamp 1 22a, lamp 2 22b, lamp changeover switch 24, transistor 1 26a, transistor 2 26b and a plurality of resistors R1 to R8.

The battery 12 power source is used in the range of 6 to 24V, and the test pin 14 is a part connected to the battery 12 power source and directly connected to the test object.

The power conversion switch 16 is connected to the power supply line to selectively apply the positive and negative polarities of the battery 12 power to the test pin 14 by the switching operation.

The cutoff switch 18 is connected to a power supply line to block the flow of current when excessive current flows to the test object when the current of the battery 12 power flows through the test pin 14. Here, the cutoff switch 18 is made of a bimetallic material, and the resistance is changed according to the change of the amount of current, and the principle that the thermal change is generated by the resistance change is applied.

LED1 (20a) is emitted through the resistor (R4) when the tester of the present invention is normally stopped at the positive and negative polarity of the battery (12) power source, LED2 (20b) of the power conversion switch 16 Connected to the negative polarity of the battery 12 power supply by the switching operation (downward), the light is emitted when a negative current flows to the test pin 14 through the power supply line, and the LED3 20c is switched to the power source switch 16. It is connected to the (+) polarity of the battery power supply by the switching operation (upward) of and emits light when a positive current flows to the test pin 14 through the power supply line.

In other words, the LED2 (20b) in the above is a function that can confirm the presence or absence of disconnection, the light is emitted when the conduction and when the disconnection does not emit light.

Lamp 1 22a and Lamp 2 22b are connected to a battery 12 power source to illuminate the test object during operation. Lamp 1 22a and Lamp 2 22b are 12V lamps, and the voltage of the battery 12 power source is increased. When the battery 12 is powered at 24V, the lamp 12 is illuminated by direct connection of the power supply of the battery 12 without the resistor R1 by the switching operation (first state) of the lamp switching switch 24 at 12V. By the switching operation of the switch 24, the power of the battery 12 is reduced to 12V through the resistor R1 and then connected and illuminated.

Transistor 1 26a and transistor 26b are turned on only when current flows through the power supply line by resistors R6 and R7 so that lamp 1 22a and lamp 22b can be illuminated. will be. That is, when the battery 12 voltage is 12V, the transistor 126a is turned on and turned on through the resistor R6. When the battery 12 voltage is 24V, the transistor 226b is turned on through the resistor R7. It is conducting.

The method of using the power test according to the present invention as described above with reference to Figure 4 as follows.

Connect the (+) ground creep colored in red to the (+) polarity of the battery power supply, connect the (-) polarity colored in black to the (-) polarity of the battery power supply, and connect the ground creep to the vehicle body, etc. In this state, the test pin is contacted with the test object to diagnose the failure.

After checking whether the test object is disconnected while the power change switch is located in the center, if the power change switch is raised upward, the positive current of the battery power is applied to the test object (starting motor, generator, etc.) through the test pin. Test object is driven. If the test object is not driven beyond the test object or an excessive current is applied to the test object by a user's mistake of operation, the blocking switch made of a bimetal material is turned off to block the flow of current.

Since no further diagnosis can be made when the cutoff switch is turned off in the above state, the test can be carried out after pressing the fingertip to return to the original position.

In order to maintain the reliability of the product and the safety of the user, the power test of the present invention should be stored and used with care of high temperature or excessive shock, and the battery should be turned off when switching from 12V to 24V. The adjusted 24V should be used with an upward adjustment.

As described above, according to the tester of the present invention, when diagnosing the failure of the electric devices mounted on the automobile, it is possible to check the disconnection of the wiring system, and operate by supplying power to a load such as a starting motor during the disconnection inspection. By minimizing the unnecessary separation or disassembly can be minimized, and the tester of the present invention is equipped with a disconnect switch that can properly cut off the power supply can prevent damage to the electrical device due to overload during the inspection.

Claims (7)

Power supply means; Power applying means for directly applying power of the power supply means to a test object; Selective connection between the (+) polarity and the (-) polarity of the power supply means by a switching operation, and if the current supplied from the power supply means to the target object is a predetermined amount or more is made of a cutoff switch that can cut off the supply of current Power control means; Lighting means connected to the power supply means for illuminating a tester object; And a display means connected to a power supply line, which is a line for supplying power from the power supply means to the power supply means, to display whether the power state controlled by the power control means is normally conducted. The method of claim 1, The power supply means is a power tester, characterized in that the battery power of 6 ~ 24V. The method of claim 1, The power supply means is a power tester, characterized in that the test pin in the form of an awl to facilitate connection to the wiring system or the electrical device of the test object. The method of claim 1, The power control means includes a power switching switch that can selectively connect the positive and negative polarities of the battery power by a switching operation, and a current flowing to the test pin when the positive polarity is connected by the power switching switch. Is a bimetallic material when a certain amount or more is a power tester, characterized in that consisting of a cutoff switch that is automatically cut off by a temperature change caused by a current change. The method of claim 1, The lighting means is connected to the power supply means and the lamp is installed on both sides of the upper end of the tester, and if the voltage of the battery, the power supply means 12V to be connected directly to the lamp, and in the case of 24V through the resistor (R1) A power tester, characterized in that consisting of a switch for switching lamps to be connected by reducing the pressure. The method of claim 1, The display means has a positive polarity (+) of the battery power is connected by a power switch, the LED2 is emitted when a positive current flows to the tester pin, and the positive and negative (-) of the battery power by the power switch The power tester, characterized in that the polarity is cut off, and the LED (3) is emitted when the state is conducted by checking the disconnection of the test object with a predetermined current flowing through the test pin by the resistor (R3) and the resistor (R8). The method of claim 5, The lamp further comprises a transistor turned on by a resistor (R6) and a resistor (R7) so that when the battery current flows through the power supply line.