KR200195884Y1 - A high voltage discharge equipment for education - Google Patents

Abstract

The present invention relates to a high-pressure discharge experimental apparatus for education for testing the discharge phenomenon by the high pressure.

The apparatus of the present invention is a high-pressure generating means for generating a predetermined discharge voltage; Measuring means for measuring a voltage value and a current value of the high voltage power supply generated by the high voltage generating means; When the switch is on, the bed needle discharge chamber for generating a bed needle discharge phenomenon by applying a high pressure of the high pressure generating means between the precipitation electrode and the precipitation electrode; When the switch is turned on, the bed discharge chamber for applying a high pressure of the high pressure generating means between the precipitation electrode and the old electrode to cause a bed discharge discharge phenomenon; When the switch is turned on, the high-pressure discharge chamber for applying the high pressure of the high-pressure generating means between the old electrode and the old electrode to cause the bulbous discharge phenomenon; And a bedboard discharge chamber for applying a high pressure of the high pressure generating means between the precipitation electrode and the plate electrode to cause a bedboard discharge phenomenon when the switch is turned on.

According to the present invention, after generating a high voltage by electric or manual, the discharge phenomenon occurring between the electrodes of various structures can be observed by varying the electrode interval.

Description

High Pressure Discharge Experiment Equipment {A High Voltage discharge equipment for education}

The present invention relates to a high-pressure discharge experimental apparatus for education for testing the discharge phenomenon by the high pressure.

As is widely known, discharge is a state in which charge moves in a gas (or liquid) due to the loss of electricity or movement of ions caused by the collision of electrons and electrons and gas molecules under a strong electric field. It is referred to as, it is divided into corona discharge, glow discharge, arc discharge and the like. Corona discharge refers to a phenomenon in which insulation breaks only in a portion where a large potential gradient near the surface of the conductor is applied to a high-voltage conductor and discharge continues, and glow discharge refers to a kind of magnetic flux discharge. Arc discharge is a phenomenon that finally occurs when discharged in the gas, abundant electron emission from the cathode is a large discharge current and small voltage drop.

Such discharge phenomenon is widely used in real life, for example, it is widely used in the field of processing technology, such as lighting equipment such as fluorescent lamps and electric discharge processors. Therefore, the discharge experiment apparatus is required to perform a systematic education on the discharge phenomenon, the conventional discharge experiment apparatus has a problem that is difficult to be widely used because it is large and expensive. Moreover, since the device is large and uses high voltage and high current, it is dangerous to operate only a specific person.

The present invention has been made to solve the above problems, and to provide a high-pressure discharge test device that is compact and inexpensive and easy to operate.

In addition, another object of the present invention is to provide a high-pressure discharge experiment apparatus that can easily experiment with various discharge phenomena.

The present invention to achieve the above objects, high pressure generating means for generating a predetermined discharge voltage; Measuring means for measuring a voltage value and a current value of the high voltage power supply generated by the high voltage generating means; When the switch is turned on, the bed needle discharge chamber for applying a high pressure of the high pressure generating means between the precipitation pole and the precipitation pole to cause bed needle discharge phenomenon; When the switch is on, the bed discharge chamber for applying a high pressure of the high pressure generating means between the precipitation electrode and the old electrode to cause a bed discharge discharge phenomenon; When the switch is turned on, the high-pressure discharge chamber for applying the high pressure of the high-pressure generating means between the old electrode and the old electrode to cause the bulbous bulb discharge phenomenon; And a bedboard discharge chamber for applying a high pressure of the high pressure generating means between the precipitation electrode and the plate electrode to cause a bedboard discharge phenomenon when the switch is turned on.

The high-pressure generating means is configured to generate high pressure by electric or manual operation, and the bulb-column discharge chamber is provided with a transparent cylinder to test discharge in a liquid.

In this way, the present invention can be easily observed and experimented with the discharge phenomenon generated in bed needles, bed spheres, bulbs, bed sheets, can be manufactured simply and inexpensively.

1 is an external view of the high-pressure discharge test apparatus according to the present invention,

2 is a circuit diagram of a high-pressure discharge test apparatus according to the present invention,

3 is a schematic diagram of a bed needle discharge chamber of the high-pressure discharge experiment apparatus according to the present invention,

4 is a schematic view of the bed discharge chamber of the high-pressure discharge test apparatus according to the present invention,

5 is a schematic view of the bulb discharge chamber of the high-pressure discharge test apparatus according to the present invention,

6 is a schematic view of the bedboard discharge chamber of the high-pressure discharge experiment apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

1: power generation room 2: discharge room

3: driving handle 10: bed needle discharge chamber

12: bed discharge chamber 14: old ball discharge chamber

16: bedboard discharge chamber 22: precipitation electrode

23: old electrode 24: plate electrode

32: front 34: female thread

36: external thread 50: transparent cylinder

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

As shown in FIG. 1, the high pressure discharge test apparatus according to the present invention includes a power generation chamber 1 having a high pressure generating means and various circuit devices therein, and a discharge chamber 2 located above the power generation chamber 1. And a voltmeter 25 and an ammeter 26 for monitoring the discharge voltage and current, and a lamp 27 and a voltmeter 25 which are lit by the power generation power and indicate operation. Is provided with a voltmeter switch (S5) for connecting to or disconnecting the high voltage generating means, and an ammeter switch (S6) for connecting or disconnecting the ammeter (26) to the high voltage generating means. The drive handle 3 is provided. In this case, the driving handle 3 may be installed at the front side, and when the driving handle 3 is turned, the shaft of the generator rotates to generate high pressure.

The discharge chamber 2 is divided into a bed needle discharge chamber 10, a bed bulb discharge chamber 12, an old cod discharge chamber 14, and a bed plate discharge chamber 16, and a corresponding discharge is formed on the front of each discharge chamber. Switches S1 to S4 for manipulating the discharge of the yarn are provided.

2 is a circuit diagram of the high-pressure discharge test apparatus according to the present invention, the device is a high-pressure generating means 20, a bed needle discharge switch (S1), a pair of settling poles 22 located in the bed needle discharge chamber (10) , A pair of spheres located in the bed discharge switch (S2), the settling pole (22) located in the bed discharge chamber (12) and the old electrode (23), old ball discharge switch (S3), old ball discharge chamber (14) Electrode 23, bed plate discharge switch (S4), the settling pole 22 and the plate electrode 24, the voltmeter switch (S5), voltmeter (V: 25), ammeter switch (S6), located in the bed plate discharge chamber, It consists of an ammeter A: 26 and a lamp R: 27.

High pressure generating means 20 is implemented using a generator or a transformer that is manually operated by the rotation of the generator or drive handle by the electric power, one end of the high-pressure coil (T1) is connected to the ground through the capacitor (C1) The mechanical intermittent contact CT1 is connected in parallel to the capacitor C1. When the mechanical intermittent contact CT1 is turned off, the capacitor C1 may be charged. When the mechanical intermittent contact CT1 is turned off, the charge charge of the capacitor C1 is discharged through the mechanical contact CT1. At this time, if using a manual generator, there is an effect that can also experiment the principle of power generation with the discharge phenomenon.

The bed needle discharge switch S1 applies or blocks high pressure to the settling pole 22 of the bed needle discharge chamber. When the bed needle discharge switch S1 is turned on, the bed needle discharge switch S1 and the settling pole 22 are separated from each other. The discharge phenomenon appears between the precipitation electrodes 22. The bed bulb discharge switch S2 applies or blocks high pressure to the precipitation pole 22 of the bed bulb discharge chamber 12, and when the bed bulb discharge switch S2 is turned on, The discharge phenomenon appears between the old electrodes.

The ward bulb discharge switch S3 applies or blocks a high voltage to the ward electrode 23 of the ward bulb discharge chamber 14, and when the ward bulb discharge switch S3 is turned on, the ward electrode (in the ward bulb discharge chamber 14) is turned on. A discharge phenomenon appears between the 23 and the old electrode 23. At this time, a pair of sphere electrodes of the bulb discharge chamber is installed in the transparent cylinder 50, and when the liquid or gas is injected into the transparent cylinder 50, the discharge phenomenon in the liquid or gas can be tested. The bedboard discharge switch S4 applies or blocks high pressure to the settling electrode 22 of the bedboard discharge chamber 16, and when the bedboard discharge switch S4 is turned on, the bedboard discharge switch S4 is settled in the bedboard discharge chamber 16. The discharge phenomenon appears between the 22 and the plate electrode 24.

When the voltmeter switch S5 is turned on, the high pressure of the high pressure generating means 20 is measured by the voltmeter 25, and when the ammeter switch S6 is turned on, the current of the high voltage generating means 20 is measured on the ammeter 26 and In addition, the lamp 27 is turned on. At this time, when the discharge experiment is performed (that is, when any discharge chamber switch is turned on), the ammeter switch S6 should always be turned off, and the voltmeter switch S5 may be turned on or off. When the arbitrary discharge chamber switch is turned on while only the voltmeter switch S5 is turned on, since the voltage value for discharging is displayed on the voltmeter 25, the relationship between the discharge voltage and the discharge phenomenon may be observed. It is also possible to check the relationship between the discharge voltage and the electrode gap by precisely adjusting the electrode gap with the screw.

3 is a schematic diagram of a bed needle discharge chamber of the high-pressure discharge experiment apparatus according to the present invention. Referring to FIG. 3, each of the settling electrodes 22 includes a female screw 34, a male screw 36, and a needle 38, which is connected to the head of the male screw 36 by soldering. The electric wire 32 is connected to the female screw 34, and the male screw 36 is inserted into the female screw 34. And the needle 38 connected to the head of the male screw 36 is able to move back and forth by the rotation of the male screw 36 to adjust the distance between the two settling poles. Therefore, when the discharge phenomenon is experimented with the device according to the present invention, the discharge phenomenon in each case can be tested while varying the magnitude of the voltage and the distance between the two electrodes.

4 is a schematic diagram of a bed bulb discharge chamber of the high-pressure discharge test apparatus according to the present invention.

Referring to FIG. 4, each electrode 22, 23 is composed of a female screw 34, a male screw 36, a needle 38 or a sphere 40, and the needle 38 or sphere 40 is made of a metal male screw. It is connected to the head of the head 34 by soldering, an electric wire 32 is connected to the female screw 34, and the male screw 36 is inserted into the female screw 34. And the needle 38 or sphere 40 connected to the head of the male screw 36 is able to move back and forth by the rotation of the male screw 36 to adjust the spacing between the needle and the sphere. Therefore, when the discharge phenomenon is experimented with the device according to the present invention, the discharge phenomenon in each case can be tested while varying the magnitude of the voltage and the distance between the two electrodes.

5 is a schematic view of the bulb discharge chamber of the high-pressure discharge test apparatus according to the present invention.

5, each sphere electrode 23 is composed of a female screw 34, a male screw 36, a sphere 40, the sphere 40 is connected to the head of the male screw 36 by soldering, The electric wire 32 is connected to the female screw 34, and the male screw 36 is inserted into the female screw 34. And the sphere 40 connected to the head of the male screw 34 is able to move back and forth by the rotation of the male screw to adjust the distance between the sphere and the sphere. Therefore, when the discharge phenomenon is experimented with the device according to the present invention, it is possible to experiment the discharge phenomenon in each case by varying the magnitude of the voltage and the distance between the two electrodes.

In addition, the old electrodes 23 are provided in the transparent cylinder 50. The transparent cylinder 50 is able to put a liquid or gas through the injection port 52. Therefore, the discharge experiment between the sphere and the sphere may be performed after the liquid or gas is injected into the transparent cylinder 50 (that is, the liquid discharge experiment or the air discharge experiment).

6 is a schematic view of the bedboard discharge chamber of the high-pressure discharge experiment apparatus according to the present invention.

Referring to FIG. 6, the precipitation electrode 22 is composed of a female screw 34, a male screw 36, and a needle 38, and the plate electrode 24 is composed of a metal plate 42 connected to an electric wire 32. The needle 38 is connected to the head of the male screw 36 by soldering, the wire 32 is connected to the female screw 34, and the male screw 36 is inserted into the female screw 34. And the needle 38 connected to the head of the male screw 36 is able to move up and down by the rotation of the male screw to adjust the gap between the needle and the plate.

When the insulator is placed on the metal plate, and the discharge test is performed by applying a high pressure, this immediately becomes an insulation breakdown test for the insulator.

As described above, according to the present invention, after generating a high voltage by electric or manual, the discharge phenomenon occurring between the electrodes of various structures can be observed by varying the electrode interval. In particular, the device of the present invention has a simple structure and can be manufactured in a small size, can reduce the manufacturing cost, easy to operate because the operation is easy, there is an effect that can be conducted in liquid discharge test, air discharge test and dielectric breakdown test. .

Claims (3)

High pressure generating means for generating a predetermined discharge voltage; Measuring means for measuring a voltage value and a current value of the high voltage power supply generated by the high voltage generating means; When the switch is turned on, the bed needle discharge chamber for applying a high pressure of the high pressure generating means between the precipitation pole and the precipitation pole to cause bed needle discharge phenomenon; When the switch is on, the bed discharge chamber for applying a high pressure of the high pressure generating means between the precipitation electrode and the old electrode to cause a bed discharge discharge phenomenon; When the switch is turned on, the high-pressure discharge chamber for applying the high pressure of the high-pressure generating means between the old electrode and the old electrode to cause the bulbous bulb discharge phenomenon; And When the switch is turned on, including a bed plate discharge chamber for generating a bed plate discharge phenomenon by applying a high pressure of the high pressure generating means between the precipitation electrode and the plate electrode High pressure discharge test device, characterized in that a variety of discharge experiments with a single device. The high pressure discharge test apparatus according to claim 1, wherein the bulb discharge chamber further comprises a transparent cylinder configured to place the sphere electrodes therein and to inject liquid or gas. The apparatus of claim 1, wherein each of the electrodes has a wire connected to a female screw, a male screw is screwed to the female screw, and a needle or a sphere is connected to one end of the male screw by soldering.