KR200448017Y1 - Drain apparatus for stator - Google Patents

Abstract

The present invention relates to a generator stator cooling water discharge device, which is connected to both ends of the stator cooling water system, the first and second main valves for opening or closing the stator cooling water system; First and second opening / closing valves connected to the first and second main valves to control air for opening the first and second main valves; A drain pipe connected to the first and second main valves to discharge moisture from the stator cooling water system; An air injection pipe coupled between one of the first and second main valves and the stator cooling water system to inject air; An air injection valve for opening and closing the air injection pipe to control injection of a dry air; A pressure switch installed at the air injection pipe to sense a pressure in the stator cooling water system; And a controller configured to control the operation of the air injection valve and the first or second opening / closing valve to discharge moisture from the stator cooling water system through the drain pipe in response to the pressure sensing of the pressure switch. As a result, the cooling water discharge operation can be simplified, the time delay can be prevented, and the maintenance time of the generator can be secured. Therefore, the downtime of the generator can be shortened and the economic loss can be reduced.

Generator, Stator, Coolant, Discharge, Dry Air, Moisture, Main Valve, Solenoid Valve, Pressure Switch

Description

Drain apparatus for stator

The present invention relates to a generator stator coolant discharge device, and more particularly, to a generator stator coolant discharge device for automating the discharge of the stator coolant to shorten the coolant discharge time.

Generally, the stator of the generator is cooled by the cooling water system, but during the period of planned preventive maintenance, etc., in order to dry preserve the generator stator windings, all the cooling water in the pipe of the cooling water system must be removed.

1 is a block diagram of a conventional generator stator cooling water discharge device.

The conventional cooling water discharge device 1 includes a pair of main valves 15 connected to both ends of a pipe of a stator cooling water system, a drain pipe 20 connected to each main valve 15, and a stator cooling water system 10. It includes a ball valve 25 installed in the inlet pipe 22 for injecting dry air. The inlet pipe 22 is connected between the main valve 15 on one side and the stator cooling water system 10.

In order to discharge the coolant, first, the air valve is injected into the stator coolant system 10 by opening the ball valve 25 in a state where each main valve 15 is closed. When the pressure of the dry air is more than a certain level, the ball valve 25 is closed and one of the main valves 15 is opened. Then, moisture is discharged through the drain pipe 20 together with the air.

Then, each main valve 15 is closed again, and then the ball valve 25 is opened to inject the dry air until the pressure is constant into the stator cooling water system 10. The other one of the main valves 15 is opened to allow moisture to be discharged through the drain pipe 20 together with the air.

Thus, the conventional cooling water discharge device 1, when injecting dry air to completely discharge the cooling water, the operator must open and close the ball valve 25 one by one, not only cumbersome, but also the cooling water discharge operation by a long time, The disadvantage is that it takes about 72 hours.

It is an object of the present invention to provide a generator stator cooling water discharge device that facilitates the operator's convenience and reduces the discharge work time, thereby ensuring maintenance time and reducing the generator downtime to reduce economic losses. .

The object includes: first and second main valves connected to both ends of the stator cooling water system to open or close the stator cooling water system; First and second opening / closing valves connected to the first and second main valves to control air for opening the first and second main valves; A drain pipe connected to the first and second main valves to discharge moisture from the stator cooling water system; An air injection pipe coupled between one of the first and second main valves and the stator cooling water system to inject air; An air injection valve for opening and closing the air injection pipe to control injection of a dry air; A pressure switch installed at the air injection pipe to sense a pressure in the stator cooling water system; And a controller configured to control the operation of the air injection valve and the first or second opening / closing valve to discharge moisture from the stator cooling water system through the drain pipe in response to the pressure sensing of the pressure switch. Can be achieved by the generator stator cooling water discharge device.

Here, when the pressure sensed by the pressure switch is a predetermined value or more, closes the air injection valve, opens the first or second opening and closing valve to open the first or second main valve, Alternatively, the second open / close valve may be alternately opened.

According to the generator stator cooling water discharge device according to the present invention, the air injection valve, the first and second opening and closing valves are composed of a solenoid valve, by having a pressure switch that is on and off in accordance with the pressure, the process of injecting air, and When the pressure is reached, the process of alternately opening the first main valve and the second main valve is automatically performed by using a controller. Therefore, since no manpower is required, the cooling water discharge operation is simplified, and it is possible to prevent the hassle or time delay that occurred when manually controlled by the operator. Accordingly, maintenance time of the generator can be secured, and economical loss can be reduced by shortening the downtime of the generator.

The present invention as described above will be described in more detail based on the accompanying drawings.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. And the following terms are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user, operator, etc. Accordingly, the meaning of each term should be interpreted based on the contents throughout the present specification. will be.

2 is a block diagram of a generator stator cooling water discharge device according to the present invention.

The cooling water discharge device 101 is configured to automatically discharge cooling water for cooling the stator of the generator, and includes the first and second main valves 115a and 115b, the first and second opening and closing valves 130a, 130b), the air injection valve 125, the pressure switch 140, the controller 150.

The first and second main valves 115a and 115b are respectively coupled to both ends of the stator cooling water system 10, and each of the main valves 115a and 115b includes a drain pipe 120 for discharging the cooling water and a main valve ( Opening and closing pipes 117 through which air for driving the 115a and 115b are connected are connected.

The first and second open / close valves 130a and 130b are installed at free ends of the opening and closing pipes 117 connected to the first and second main valves 115a and 115b, respectively, and are opened by the controller 150 to open the outside air. Is provided to the first or second main valve (115a, 115b). Solenoid valves are used to enable the first and second open / close valves 130a and 130b to be operated by the controller 150.

An air injection pipe 122 for injecting dry air introduced into the stator cooling water system 10 between one of the first main valve 115a and the second main valve 115b and the pipe connecting the stator cooling water system 10. ) Is coupled to the air injection pipe 122, the air injection valve 125 for opening and closing the air injection pipe 122 is installed. And although not shown, the air injection equipment for the injection of the dry air is of course equipped with a free end of the air injection pipe 122.

The air injection valve 125 is a solenoid valve is used, and is opened and closed according to the operation of the controller 150 to turn the injection of the dry air into the stator cooling water system 10.

In addition, the air injection pipe 122 is provided with a pressure switch 140 is turned on and off in accordance with the pressure between the air injection valve 125 and the cooling water system (10). When the pressure switch 140 reaches a preset pressure, the pressure switch 140 provides a signal to the controller 150. In general, the stator cooling water system 10 can withstand up to 4 kg / cm 2, and accordingly, the pressure switch 140 is preset by setting a pressure to be turned on between 2 and 4 kg / cm 2.

The controller 150 controls the on and off of the first and second opening / closing valves 130a and 130b and the air injection valve 125 in response to a signal from the pressure switch 140. More specifically, the controller 150 when the dry air is injected to become a predetermined pressure or more and the pressure switch 140 is turned on, the air injection valve 125 is closed, and the first opening and closing valve 130a and the second opening and closing Open one of the valves 130b to allow external air to be provided to the first main valve 115a or the second main valve 115b to open the first main valve 115a or the second main valve 115b to open air. Let moisture be discharged with.

When the pressure sensed by the pressure switch 140 falls below a certain level, the controller 150 opens the air injection valve 125 in a state where the first opening / closing valve 130a and the second opening / closing valve 130b are blocked. Open to allow dry air to be injected into the stator coolant system 10.

In addition, when the pressure switch 140 is turned on because the dry air is injected to become a predetermined pressure or more, the controller 150 opens one of the first open / close valve 130a and the second open / close valve 130b. When the controller 150 opens the first opening / closing valve 130a and the second opening / closing valve 130b, the controller 150 alternately opens the first opening / closing valve 130a and the second opening / closing valve 130b.

Referring to the operation of the present cooling water discharge device 101 by such a configuration in detail as follows.

First, the controller 150 turns off the first and second opening / closing valves 130a and 130b to block the air inflow to the first and second main valves 115a and 115b. Open to allow dry air to enter the stator cooling water system (10). When the air pressure of the stator cooling water system 10 reaches a preset pressure between 2 and 4 kg / cm 2, the pressure switch 140 is turned on and a signal is transmitted to the controller 150. The controller 150 receiving the signal from the pressure switch 140 closes the air injection valve 125 and opens the first open / close valve 130a. Then, the air flows into the air through the opening and closing pipe 117 to the first main valve 115a connected to the first opening / closing valve 130a to open the first main valve 115a and through the first main valve 115a. Air and moisture of the stator cooling water system 10 are discharged through the drain pipe 120, and the first opening / closing valve 130a and the first main valve 115a are automatically closed. When air and moisture are discharged from the stator cooling water system 10, the pressure sensed by the pressure switch 140 is lowered, and the pressure switch 140 is turned off.

When the pressure switch 140 is turned off, the controller 150 opens the air injection valve 125 to allow air to flow into the stator cooling water system 10. When the air pressure reaches the preset pressure, the pressure switch 140 is turned on, and the controller 150 closes the air injection valve 125 and opens the second open / close valve 130b. Then, the second main valve 115b is opened, and air and moisture of the stator cooling water system 10 are discharged through the drain pipe 120 through the second main valve 115b.

As such, in the coolant discharge device 101 according to the present invention, a process of injecting air and a process of alternately opening the first main valve 115a and the second main valve 115b when reaching a predetermined pressure are performed. By using the pressure switch 140 and the controller 150 to be performed automatically. Accordingly, the cooling water discharge time, which was conventionally required for 72 hours, is reduced to about 48 hours.

1 is a configuration diagram of a conventional generator stator cooling water discharge device,

2 is a block diagram of a generator stator cooling water discharge device according to the present invention.

Claims (2)

First and second main valves connected to both ends of the stator cooling water system to open or close the stator cooling water system; First and second opening / closing valves connected to the first and second main valves to control air for opening the first and second main valves; A drain pipe connected to the first and second main valves to discharge moisture from the stator cooling water system; An air injection pipe coupled between one of the first and second main valves and the stator cooling water system to inject air; An air injection valve for opening and closing the air injection pipe to control injection of a dry air; A pressure switch installed at the air injection pipe to sense a pressure in the stator cooling water system; And, And a controller configured to control the operation of the air injection valve and the first or second opening / closing valve to discharge moisture from the stator cooling water system through the drain pipe in response to the pressure sensing of the pressure switch. Stator coolant drain. The method of claim 1, When the pressure sensed by the pressure switch is equal to or greater than a predetermined value, the controller closes the air injection valve, opens the first or second opening / closing valve, and opens the first or second main valve. Generator stator cooling water discharge apparatus, characterized in that for alternately opening the second opening and closing valve.

Images