KR100856858B1 - Sudden Pressure Relay for power transformer - Google Patents

Abstract

The present invention relates to an impact pressure relay for a power transformer, comprising: installing an impact pressure relay housing in communication with an inside of a transformer; and installing a frame between the transformer and the impact pressure relay; In the shock pressure relay for a power transformer, the diaphragm is installed in the shock pressure relay for installing a micro-switch at the valve to operate the operating terminal of the micro-switch by the diaphragm when the internal pressure of the transformer is rapidly increased. A needle valve is installed outside the frame to equalize the pressure between the transformer internal pressure and the sensing chamber inside the impact pressure relay housing, and an LED indicator connected to the micro switch contact terminal is installed on the upper surface of the housing. It is done.

Transformer, shock, gas, pressure, needle valve, sensitivity, indicator

Description

Shock Pressure Relay for Power Transformers {Sudden Pressure Relay for power transformer}

1 is a view illustrating the main measurement and protection device of a general power transformer.

Figure 2 is a perspective view of the main portion of the impact pressure relay for a power transformer according to the prior art.

3 is a cross-sectional view of a shock pressure relay for a power transformer according to the prior art.

4 is a cross-sectional configuration of an impact pressure relay for a power transformer according to the present invention.

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

1: transformer 100: shock pressure relay

110: relay housing 120; frame

130: diaphragm 140: equalizer hole

150: micro switch 160: connector

200: needle valve 201: needle valve housing

202: needle valve body 300: display means

301 indicator housing 302 LED

303: Tempered Glass

The present invention relates to a power transformer protection device, and more particularly, to a shock pressure relay (SPR) for a power transformer to detect a sudden change in the gas pressure of the transformer to output an alarm signal.

In general, power transformer is the most widely used equipment among industrial power equipment, and it is the most essential equipment in power transmission system or distribution system. It is used to supply electric power to industrial facilities, factories or homes.

In such a power transformer, there are various protection devices and safety devices. Among them, an impact pressure relay (SPR) is used as a device for detecting a sudden increase (impact pressure) of a pressure in a gas inside the transformer.

FIG. 1 is a diagram illustrating a main measurement and protection device of a general power transformer. As shown in FIG. 1, a main body of a transformer 1 includes a winding temperature indicator (WTI) and a Buchholtz relay (BHR). ), An oil level gauge (OLG), a gas detector relay (GDR), an impact pressure relay (SPR), a discharge safety device (PRD), and an impact hydraulic relay (FPR) are installed.

FIG. 2 is a perspective view of essential parts showing a structure of an impact pressure relay for a power transformer according to the prior art, and FIG. 3 is a cross-sectional schematic view showing a structure of an impact pressure relay for a power transformer according to the prior art. As shown here,

A shock pressure relay (SPR) 100 is installed in communication with the housing of the power transformer 1, and the shock pressure relay 100 has a sensing chamber formed by a housing 110 fixed to the transformer housing. A flange 120 is formed on the lower surface of the housing 110 to form a boundary with the inside of the transformer 1, and a hole into which the operating terminal of the micro switch 150 is fitted is formed in the flange 120, and the micro switch 150 is installed inside the housing 110 at the top of the flange 120. In addition, a diaphragm 130 having a disc shape is installed at a lower surface of the flange 120 to seal the hole, and an equalizer hole 140 is formed at the diaphragm 130 to form a transformer 1. Is configured to equalize the pressure of the housing 110 and the pressure inside the sensing chamber. Each terminal of the micro switch 150 is connected to the connector 160 exposed to the outside of the housing 110 is configured. Although not described in the drawings, it is configured to test the operating state of the impact pressure relay by installing a test plug.

The diaphragm 130 is deformed when it is pressurized in the form of an arc-shaped leaf spring, and forms an equal pressure hole 140 so that the pressure in the housing 110 and the pressure in the transformer 1 are balanced.

The impact pressure relay for a power transformer according to the prior art configured as described above operates the micro switch 150 when the gas pressure in the transformer 1 rises (impact pressure) to detect that the impact pressure is applied and other transformer protection measures. Can be taken.

The impact pressure relay 100 is installed at an upper portion communicating with the inside of the transformer 1, and the diaphragm 130 operated by the gas pressure of the transformer 1 is installed at a lower surface of the impact pressure relay 100. When the diaphragm 130 to operate the micro switch 150 installed in the housing of the impact pressure relay 100, the diaphragm 130 is formed in the isostatic pressure hole 140 when the pressure change is gentle The pressure is balanced through the equalizer hole 140. If the gas pressure in the transformer 1 rises sharply, the diaphragm 130 receives the pressure because the amount of gas exiting the chamber of the impact pressure relay 100 through the isostatic hole 140 is limited. This deformed and pressed the operating terminal of the micro switch 150, the micro switch 150 is contacted to detect that the impact gas pressure is generated.

The conventional impact pressure relay as described above has a structure in which one iso-pressure chamber 140 is formed in the diaphragm 130 between the sensing chamber and the transformer formed by the housing 110 of the impact pressure relay, and the chamber and the transformer pressure. Will be adjusted to be equal.

However, the equalizer hole 140 formed in the diaphragm 130 is formed at the time of initial design, and there is no means for arbitrarily adjusting the size. Therefore, there is a problem that the detection sensitivity to the sudden rise of the gas pressure cannot be adjusted arbitrarily, and even if the same size holes are formed in the production of the product, even if the same size holes are not formed, it cannot be controlled. There was a disadvantage that it is difficult to guarantee. In addition, if the sensitivity is different depending on the transformer capacity, there was also the inconvenience that each isobar hole should be formed differently.

In addition, the conventional shock pressure relay does not have its own display means, so that the contact signal of the micro switch can be connected to the equipment of the transformer management room so that the shock pressure is generated only in the management room, and it is difficult to know whether the shock pressure is generated at the transformer installation site. There was this.

Accordingly, it is an object of the present invention to provide an impact pressure relay for a power transformer that enables the gas pressure detection sensitivity to be adjusted in the impact pressure relay for a power transformer.

In addition, the present invention is to provide a display means for indicating whether the impact pressure is generated by using the contact signal of the micro switch of the shock pressure relay to be able to check directly in the field.

In order to achieve the object of the present invention, the impact pressure relay (SPR) for a power transformer is not a method of communicating an equal pressure hole in the diaphragm so that the pressure between the chamber and the transformer is equal, but fixedly installing the diaphragm. This is accomplished by installing a needle valve in the frame and allowing the sensitivity to be adjusted using the needle valve.

In addition, the present invention is characterized in that the micro-switch contact terminal of the impact pressure relay is connected to the LED switch to light up when the micro switch detects the impact pressure.

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

3 is a configuration diagram showing the structure of the impact pressure relay for a power transformer according to the present invention.

A shock pressure relay (SPR) 100 is installed in communication with the housing of the power transformer 1, and the shock pressure relay 100 has a sensing chamber formed by a housing 110 fixed to the transformer housing. A flange 120 is formed on the lower surface of the housing 110 to form a boundary with the inside of the transformer 1, and a hole into which the operating terminal of the micro switch 150 is fitted is formed in the flange 120, and the micro switch 150 is installed inside the housing 110 at the top of the flange 120. In addition, a disk-shaped diaphragm (Diaphragm) 130 is installed on the bottom surface of the flange 120, and each terminal of the micro switch 150 is exposed to the outside of the housing 110. It is configured to be connected to the connector 160.

In the impact pressure relay having the above configuration, a through hole is formed in the flange 120 on the outer side where the diaphragm 130 is installed, and a needle valve 200 is installed in the through hole so that the inside of the transformer and the housing are provided. And isostatically pressurize the pressure inside the sensing chamber, which is defined by. In addition, the display means 300 is displayed on the upper surface of the housing 110, which is displayed when the impact pressure is detected by the contact signal of the micro switch 150.

In the needle valve 200, a through hole is formed in the frame 120 at a position outside the diaphragm 130 of the frame 120, and the needle valve housing 201 is sealingly coupled to the through hole. The needle valve housing 201 includes a needle insertion hole of a needle type and a plurality of vent holes 201a formed in a lateral direction from the middle thereof, and a needle body 202 is inserted into the needle insertion hole. It is configured to adjust the flow rate of the gas by the forward and backward.

In addition, the display means 300, the indicator housing 303 is inserted and installed to be sealed on the upper surface of the housing 110 of the impact pressure relay, the LED 302 is installed in the indicator housing 301, Tempered glass 303 is installed on the upper portion of the housing 301, and a connecting bolt for connecting with the contact terminal of the micro switch 150 is installed on the lower surface of the housing 301.

That is, the indicator housing is formed by connecting a conductive wire between the contact terminal of the micro switch 150 and the connecting bolt formed on the lower surface of the housing 301, and the housing 110 of the impact pressure relay must be maintained as a sensing chamber. 301 is provided with a sealing process.

In the shock pressure relay according to the present invention configured as described above, when the gas pressure inside the transformer 1 rises, gas flows through the needle valve 200 into the sensing chamber inside the housing 110 of the impact pressure relay. Gas flows so that the gas pressure is the same.

If the gas pressure is gently increased, the pressure between the two sides becomes the same due to the gas flowing through the needle valve 200. However, if the gas pressure in the transformer is rapidly increased, the needle valve 200 is increased. The pressure difference is increased as the pressure increases relative to the amount of gas flowing through the sensing chamber. For example, if the pressure inside the transformer is P _A and the pressure inside the sensing chamber is P _B , the two pressure differences P _A − When the pressure difference is large enough to allow P _B to operate the diaphragm 130 to operate the operating terminal of the micro switch 150, the micro switch 150 is operated to generate an alarm output. At this time, the LED 302 of the display means 300 is also lit to indicate that the impact pressure detection.

When the contact of the micro switch 150 is turned on and outputs an alarm signal for shock pressure detection, the transformer control panel connected to the connector 160 recognizes that the shock pressure of the transformer is generated, and the transformer protection measures are performed. .

As described in detail above, the impact pressure relay for a power transformer according to the present invention is an isostatic device for smoothing the gas pressure between the inside of a transformer and the inside of an impact pressure relay, and the needle valve is provided with an isostatic pressure. Compared to forming a hole and isostatic, there is an effect that the sensitivity can be easily adjusted. In addition, in the present invention, by further comprising a display means for displaying the impact pressure detection state in the impact pressure relay, there is an effect that can be directly confirmed even at the site where the transformer is installed.

Claims (3)

Install the shock pressure relay housing in communication with the inside of the transformer, install a frame between the transformer and the shock pressure relay, install a diaphragm on the bottom of the frame, and install a micro switch on the top of the frame to rapidly increase the internal pressure of the transformer. As a shock pressure relay for a power transformer to activate the operating terminal of the micro switch by the diaphragm to detect the impact pressure, And a needle valve provided at an outer side of the frame on which the diaphragm is installed to equalize the pressure between the transformer internal pressure and the sensing chamber inside the impact pressure relay housing. The method of claim 1, wherein the needle valve, A needle valve sealingly coupled to a through hole formed at an outer position where the diaphragm 130 is installed in the frame 120 and having a needle-type needle insertion hole therein and a plurality of vent holes 201a formed in the lateral direction from the middle thereof. A housing 201; Impact pressure for the power transformer, characterized in that the needle valve body 202 is coupled to the needle insertion hole inside the needle valve housing 201 to adjust the flow rate of the gas by adjusting the forward and backward relay. The method of claim 1, wherein the impact pressure relay, An indicator housing 303 having a through hole formed on an upper surface of the housing 110 of the impact pressure relay and being inserted to be inserted into the through hole; An LED 302 installed inside the indicator housing 301 and connected to the contact terminals of the micro switch 150 to be turned on when the micro switch is operated; Shock pressure relay for a power transformer, characterized in that it further comprises a display means made of transparent tempered glass (303) installed on top of the LED (302).

Images