KR20020078673A - Electrostatic Measurement Apparatus - Google Patents

Abstract

PURPOSE: An apparatus for removing static electricity is provided to measure correctly intensity of static electricity by using an electrostatic sensor for measuring the static electricity of an electrification plate. CONSTITUTION: An electrostatic sensor portion is used for measuring intensity of static electricity and integrating and amplifying the measured static electricity. The electrostatic sensor portion is formed with an electrification plate(31), a sensor(32), a pulse generator(33), and a switching portion(34). The electrification plate(31) is electrified by static electricity of an object. The sensor(32) is used for sensing the static electricity of the electrification plate(31). The pulse generator(33) is used for outputting a pulse signal according to a predetermined interval. The switching portion(34) is used for connecting the electrification plate(31) to a ground according to the pulse signal of the pulse generator(33). An effective value output portion(40) is used for converting a measured value of the electrostatic sensor portion to an effective value.

Description

Electrostatic Measurement Apparatus

The present invention relates to an electrostatic measuring device, and more particularly, by measuring and displaying the intensity of static electricity generated in each object in a production line of a laboratory, a laboratory, or a specific industry, a user can easily measure the intensity of static electricity in each object. The present invention relates to an electrostatic measuring device for identifying.

In general, static electricity refers to a charge that is charged on a stationary state or extremely slow in movement. When an object made of different materials comes into contact, charged particles such as electrons or ions move almost instantaneously in a contact interface. Then, when the objects are separated, most of the charge returns, but some remain on the surface of the object to become static.

As a unique physical phenomenon in the vicinity of the static electricity, when a charge is present, the electrostatic energy possessed by the charge is emitted to the surrounding space, so that an area where the action of static electricity is applied to the surrounding space, that is, an electric field is formed to attract or repel a minute object It will affect the surroundings. All such disasters caused by static electricity are troubles caused by these phenomena, and static electricity generated in industrial sites is harmful to human body, causing industrial equipment and products to be destroyed, fire explosion, electric shock, and dust adsorption. Damage and product reliability and productivity degradation. For example, when static electricity acts on a living body, an electric shock may occur, and when acting as heat, a fire and an explosion accident or destruction of a semiconductor device may occur, and when acting as an electromagnetic wave, noise may occur. )

Due to the above reasons, there is a need to measure static electricity and to remove the static electricity, and an electrostatic measuring apparatus has been proposed. The static electricity measuring device measures an intensity of static electricity charged in a certain charged material, and is classified into an analog method and a digital method.

1 is a circuit diagram showing the configuration of a static electricity measuring device according to the prior art.

Referring to FIG. 1, reference numeral 1 denotes an electrostatic sensor that is disposed to face an object to be measured, and measures an intensity of static electricity, and 2 denotes a value measured by the electrostatic sensor 1 as a first resistor R1. It represents the buffer that is received through the output value as the effective value, 3 represents a magnification adjuster for adjusting the measurement magnification by adjusting the strength of the driving power is connected to the battery power (Vcc), 4 is the user can confirm the measured results The indicator indicates a numerical value so that 5 represents an amplifier for amplifying the signal output from the buffer 2 to a desired size and providing the indicator 4 to the indicator 4, and 6 represents a plurality of resistors R2 and R3. The reference voltage providing unit provides the amplifying unit 5 as a reference voltage by dividing the battery power supply Vcc through the power supply unit, and 7 is provided to the amplifying unit 5 to check the voltage of the battery. Blocking the output signal of the buffer 2, and shows a switching unit connecting the battery power source (Vcc) to the amplification unit (5).

The multiplier 3 is composed of a plurality of resistors and switches, when the transfer contact of the switch is connected to the A terminal, the total resistance is the same as the fourth resistor (R4), the transfer contact is connected to the B terminal In this case, the total resistance becomes equal to the sum of the fourth resistor and the fifth resistor (R4 + R5), so that the magnification can be adjusted.

In addition, the switching unit 7 is composed of a switching element, when the transfer contact is connected to the X terminal, the output signal of the buffer 2 is input to the amplifier 5, the transfer contact is the Y terminal When connected to the battery unit (Vcc) is connected to the amplifier 5 to check the voltage of the battery.

In the prior art configuration, the battery power source (Vcc) uses 9 V. When the battery power source (Vcc) is discharged and the voltage is changed according to the usage period of the electrostatic measuring device, the measured value of the measured value is changed. This causes a problem that the reliability of the measurement results is degraded.

In addition, since the voltage Vcc of the battery power source is displayed on the indicator 4 as a guide, it is difficult for general users to understand the replacement time of the battery, which makes the use of the static electricity measuring device inconvenient.

In addition, since the magnification is adjusted using a resistor and the voltage of the battery is changed according to the discharge, a zero point is changed every measurement, which causes a problem of lowering the reliability of the electrostatic measuring device system.

In addition, in the electrostatic measuring apparatus using the conventional rotating sector method, since the motor must be driven, the power consumption increases and the weight of the product increases.

The present invention has been made to solve the above problems, the object is to arrange the charging plate to face the object to be measured so that the charge is made according to the static electricity, so as to detect the static electricity of the charging plate in the sensor By providing an accurate measurement value to the user to provide an electrostatic measuring device that can improve the reliability of the measurement results.

In addition, another object of the present invention is to connect the charging plate to the ground at regular intervals to automatically adjust the zero point, and to output all the signals detected by the sensor as RMS value to improve the reliability of the measurement results To provide an electrostatic measuring device that can be made.

1 is a view showing a circuit configuration of a static electricity measuring device according to the prior art

2 is a block diagram schematically showing the configuration of an electrostatic measuring apparatus to which the present invention is applied.

3 is a view showing a configuration of an electrostatic sensor unit according to a preferred embodiment of the present invention

<Description of Symbols for Main Parts of Drawings>

10: battery power 20: switching unit

30: electrostatic sensor unit 31: charging plate

32 sensor 33 pulse generator

34 switching means 40 effective value output unit

50: converter 60: reference voltage providing unit

70: oscillation circuit portion 80: display portion

90: voltage comparison circuit

According to a feature of the present invention for achieving the above object, it is disposed so as to face the object to be measured, the electrostatic sensor unit for measuring and integrating and amplifying the intensity of static electricity, and inputs the value measured in the electrostatic sensor unit An effective value output unit for receiving and converting an effective value into an output value, a converter unit operating according to a specific oscillation frequency and comparing the effective value output from the effective value output unit with a reference voltage and outputting a resultant signal; A reference voltage providing unit providing an oscillation unit, an oscillation circuit unit providing a specific oscillation frequency to the converter unit, and a display for displaying the intensity of static electricity in digital or analog values according to a signal output from the converter unit. And the low voltage state is determined by comparing the voltage of the battery with the reference voltage. A voltage comparison circuit for outputting a signal to be displayed on the display unit; The electrostatic sensor unit is disposed so as to face the object to be measured, the charging plate is charged according to the static electricity of the measurement object, a sensor for detecting the static electricity of the charging plate, and a pulse generator for outputting a pulse signal at regular intervals; And switching means for automatically adjusting the zero point by connecting the charging plate to the ground according to the pulse signal output from the pulse generator.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

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

2 is a block diagram schematically showing a configuration of an electrostatic measuring apparatus to which the present invention is applied, and FIG. 3 is a diagram showing a configuration of an electrostatic sensor unit according to a preferred embodiment of the present invention.

Referring to FIG. 2, reference numeral 10 denotes a battery power source, 20 denotes a switching unit connected to an output terminal of the battery power source 10 to determine whether to supply a driving voltage to the entire system, and 30 denotes a measurement target. The electrostatic sensor unit is disposed to face the object to be integrated and amplifies by measuring the intensity of the static electricity, and 40 represents an effective value output unit which receives the value measured by the electrostatic sensor unit 30, converts it into an effective value, and outputs the converted value. .

Further, reference numeral 50 denotes a converter unit operating according to a specific oscillation frequency and comparing the effective value output from the effective value output unit 40 with a reference voltage and outputting a resultant signal, and 60 denotes the reference to the converter unit 50. The reference voltage providing unit provides a voltage, 70 represents an oscillation circuit unit providing a specific oscillation frequency to the converter unit 50, and 80 represents a user of the strength of static electricity in accordance with a signal output from the converter unit 50. Indicates a display unit that displays digital or analog figures so that you can check.

Also, reference numeral 90 denotes a voltage comparison circuit unit for comparing the voltage of the battery power supply 10 with a reference voltage to determine a low voltage state and outputting a signal so that the result is displayed on the display unit 80.

In the above configuration, the battery power supply 10 that supplies the driving voltage to the system uses one 9V battery and the driving voltage operates at 5V, even when the battery is discharged due to long use and the output voltage is lowered. It is desirable to enable precise measurement by automatically adjusting the zero point during operation to maintain the same zero point. In addition, the switching unit 20 is turned on / off according to a user's operation to determine the driving of the system including the operation of the electrostatic sensor unit 30 so that the battery power supply 10 is supplied only during the electrostatic measurement. do.

In addition, the electrostatic sensor unit 30 is disposed so as to face the object to be measured, the charging plate 31 which is charged according to the static electricity of the measurement object, and the sensor 32 for sensing the static electricity of the charging plate 31. ), A pulse generator 33 for outputting a pulse signal at predetermined time intervals, and the charging plate 31 connected to the ground according to the pulse signal output from the pulse generator 33 so as to automatically adjust the zero point. It comprises a switching means 34. At this time, when the switching means 34 is ON, the charging plate 31 is completely discharged to perform a function of resetting.

Referring to the operation of the electrostatic measuring device according to the present invention having the configuration as described above are as follows.

First, the user turns on the switching unit 20 to determine the supply of the driving voltage, and immediately after the display unit 80 is turned on, when the system is initialized, the user supplies the power. Check and start the static measurement. At this time, when the user maintains the distance of 1 inch (inch) the electrostatic sensor unit 30 to the electrical charge to be measured, the charge is charged to the charging plate 31 according to the strength of the static electricity, the sensor 32 ) Detects the static electricity of the charging plate 31. During the above operation, the switching means 34 is turned on in accordance with the pulse signal output from the pulse generator 33, so that the charging plate 31 is connected to the ground and the zero point is automatically adjusted. .

Thereafter, the voltage value output from the electrostatic sensor unit 30 is converted into an effective value while passing through the effective value output unit 40 and input to the converter unit 50. The converter unit 50 operates according to a specific oscillation frequency provided by the oscillation circuit unit 70, and compares an effective value output from the effective value output unit 40 with a reference voltage provided from the reference voltage providing unit 60. As a result, the result signal is output to the display unit 80. In this case, the display unit 80 displays a digital value so that the user can check the strength of the static electricity.

While the invention has been shown and described in connection with specific embodiments thereof, it is well known in the art that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the claims. Anyone who owns it can easily find out.

In the static electricity measuring apparatus of the present invention as described above, the charging plate is disposed to face the object to be measured so that charging is performed according to the static electricity, and the static electricity of the charging plate is sensed by the sensor so as to accurately measure the user. It is effective to improve the reliability of the measurement result by providing it to.

In addition, it is possible to improve the reliability of the measurement result by connecting the charging plate to the ground at regular intervals so that the zero point is automatically adjusted and outputting all signals detected by the sensor as RMS values. .

Claims (1)

An electrostatic sensor unit arranged to face the object to be measured and integrated and amplified by measuring the intensity of the static electricity, an effective value output unit which receives the value measured by the electrostatic sensor unit, converts it into an effective value, and outputs a specific oscillation; A converter unit operating according to a frequency and comparing the rms value output from the rms output unit with a reference voltage and outputting a resultant signal; a reference voltage providing unit providing a reference voltage to the converter unit; An oscillation circuit unit providing an oscillation frequency, a display unit displaying digital or analog values so that the user can check the strength of static electricity according to the signal output from the converter unit, and comparing the battery voltage with a reference voltage The voltage ratio for outputting the signal so as to determine and display the result on the display unit. In the static electricity measuring device comprising a circuit unit, The electrostatic sensor unit is disposed so as to face the object to be measured, the charging plate is charged according to the static electricity of the measurement object, a sensor for detecting the static electricity of the charging plate, and a pulse generator for outputting a pulse signal at regular intervals; And switching means for automatically adjusting the zero point by connecting the charging plate to ground according to the pulse signal output from the pulse generator.