KR200457915Y1 - System for Cooling with Transformer - Google Patents

Abstract

The present invention is coupled to the upper end of the main body that accommodates the cooling fluid for cooling the transformer, and a cooler for cooling the cooling fluid; A flow meter coupled between the cooler and the main body and configured to sense an oil flow of the cooling fluid; And a thermostat coupled to the main body to control a load rate and operation of the cooling fan and the transformer for air cooling the pump and the cooling fluid according to the temperature range of the cooling fluid.

Chillers, Flowmeters, Thermostats

Description

System for Cooling with Transformer

The present invention relates to a cooling system of a transformer, and more particularly, to a cooling system of a transformer for controlling the operation of a cooler, an air cooling fan, and a transformer for each section of a temperature range using a thermostat.

In general, the transformer generates heat due to the winding loss and the iron core generated in proportion to the square of the operating current and the resistance in the winding, and has a cooling device to cool the heat.

Such a transformer requires a cooling system to cool heat, and as shown in FIG. 1, the cooling system of the transformer includes a transformer core 10 having a winding and an iron core to change a value of an alternating voltage or current, and a transformer. Enclosing the core 10, the main body 10 for receiving a cooling fluid for cooling the transformer core 10, the cooler 40 for cooling the cooling fluid and the cooling fluid flowing into the cooler 40 to air-cool Cooling fan 50, a fluid flow sensor 80 for detecting the flow of the cooling fluid, a thermostat 70 for detecting the temperature of the cooling fluid, and the control unit 60.

In the conventional cooling system of the transformer, the cooling fluid cools the transformer core 10, and thus the cooling fluid heat exchanged with the transformer core 10 is discharged from the main body 20 for cooling again and introduced into the cooler. The refrigerant introduced in this way is cooled by the cooling fan 50. And it flows into the main body 20.

At this time, when the cooling fluid becomes a high temperature by the fluid flow detector and thermostat which sense the temperature and flow of the cooling fluid, the cooling fan is operated.

However, the conventional cooling system of the transformer detects the temperature and fluid flow in order to detect the thermostat and the fluid flow, there is a problem that it is difficult to cope with the situation by the section of the detected flow of fluid and temperature range.

The present invention is designed to solve the above problems, and is equipped with a first thermostat, a second thermostat, a third thermostat, a third thermostat, and a fourth thermostat to suit the situation by section according to the temperature sensing of each thermostat. By controlling the pump, the cooling fan, and the transformer to cool the transformer, and at a low temperature, the flow rate can be reduced to below the set value, so that the flowmeter can be operated, thereby providing a cooling system of the transformer which prevents malfunction due to the first thermostat set at low temperature.

The present invention is coupled to the upper end of the main body that accommodates the cooling fluid for cooling the transformer, and a cooler for cooling the cooling fluid; A flow meter coupled between the cooler and the main body and configured to sense an oil flow of the cooling fluid; And a thermostat coupled to the main body to control a load rate and operation of the cooling fan and the transformer for air cooling the pump and the cooling fluid according to the temperature range of the cooling fluid.

Wherein the thermostat comprises: a first thermostat configured to operate a pump to circulate the cooling fluid when a predetermined temperature is exceeded; A second thermostat configured to operate a cooling fan for air-cooling the cooling fluid when the predetermined temperature is reached above the set temperature of the first thermostat; A third thermostat for controlling a load rate when a predetermined temperature is exceeded above a set temperature of the second thermostat; And a fourth thermostat for stopping the operation of the transformer when the predetermined temperature is reached above the set temperature of the third thermostat.

The present invention is equipped with the first, second, third, and fourth thermostat to control the pump, cooling fan, transformer according to the situation according to the temperature range detected by each thermostat to prevent the transformer from overheating Provide effect.

In addition, since the flow rate can be operated by reducing the flow rate below the set value at low temperature, the first thermostat set to low temperature provides an effect of preventing malfunction.

Hereinafter, an embodiment of a cooling system of a transformer according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a configuration diagram showing a cooling system of a transformer according to the present invention.

As shown in FIG. 2, the present embodiment is coupled to a main body 110 for receiving a cooling fluid 114 for cooling the central body 112 of the transformer, and an upper end of the main body 110, and the central body 112 of the transformer. A cooler 120 for cooling the cooling fluid 114 exchanged with the heat exchanger, a pump 132 coupled to a pipe connecting the main body 110 and the cooler 120 to circulate the cooling fluid 114, and cooling A cooling fan 140 for air-cooling the fluid 114, a flow meter 130 for measuring the amount of the cooling fluid 114, a first power source 160 for supplying power to the fan or the pump 132, and a pump ( The second power source 162 for supplying power to the 132, the thermostat 150 for measuring the temperature of the transformer core 112, the flow meter 130, the cooling fan 140, the thermostat 150, the pump 132, a control unit 170 for controlling the central body 112 of the transformer and operating the alarm and display device 180.

The main body 110 has a central body 112 having a winding and an iron core therein, and includes a cooling fluid 114 for cooling the central body 112.

The main body 110 serves as an exchanger for heat exchanging the central body 112 of the cooling fluid 114 transformer.

The cooler 120 flows into the main body 110 to exchange heat with the central body 112 of the transformer to cool the cooling fluid 114 changed to a high temperature, and a cooling fan for heat exchange of the cooling fluid 114. 140 is combined. Since the cooler 120 is known in the general, detailed description thereof will be omitted.

Flow meter 130 is coupled to the tube connecting the cooler 120 and the main body 110, and measures the amount of circulation of the cooling fluid 114 during the cooling fluid 114 circulation.

The first power supply 160 supplies power to the cooling fan 140 and also supplies power to the pump 132 in an emergency. The second power source 162 supplies power to the cooling fan 140.

The first power source 160 and the second power source 162 may be generators for producing electricity, or alternatively, may be batteries for receiving and storing electricity from the outside.

The thermostat 150 is coupled to the main body 110 and has a constant temperature exceeding a set temperature of the first thermostat 152 and the first thermostat 152 set to operate the pump 132 when a predetermined temperature is exceeded. A second thermostat 154 set to operate the cooling fan 140 when the temperature is reached, a third thermostat 156 that controls a load rate when a predetermined temperature is exceeded when the set temperature of the second thermostat 154 is exceeded; The third thermostat 156 includes a fourth thermostat 158 for stopping the operation of the transformer when the predetermined temperature of the third thermostat 156 is reached.

The first thermostat 152 senses the temperature of the cooling fluid 114 and activates the pump 132 that circulates the cooling fluid 114 to prevent overheating of the transformer core 112 when a certain temperature is exceeded. .

The second thermostat 154 is set to operate at a higher temperature than the first thermostat 152. If the temperature of the cooling fluid 114 continues after the pump 132 is operated, the cooling fluid 114 The cooling fan 140 is operated to cool the transformer central body 112 to cool the air, thereby cooling the cooling fluid 114.

The third thermostat 156 is set to operate at a higher temperature than the second thermostat 154. When the temperature rise continues even after the cooling fan 140 is operated to cool the cooling fluid 114, the transformer thermostat ( The transformer load factor is controlled to prevent overheating.

The fourth thermostat 158 is set to operate at a temperature higher than that of the third thermostat 156. The fourth thermostat 158 is set to operate at a temperature higher than the third thermostat 156. The fourth thermostat 158 stops to prevent the transformer from being overloaded when the temperature reaches a certain temperature even though the load ratio of the transformer is controlled. Let's do it.

Hereinafter, with reference to the accompanying drawings will be described in detail the operating relationship of the embodiment according to the present invention.

As shown in FIG. 2, heat is generated when the central body 112 of the transformer is operated. The heat is exchanged with the cooling fluid 114, and the temperature of the cooling fluid 114 is measured by a thermostat ( Measure at 150).

In addition, the cooling fluid 114 has a constant temperature heat exchange with the central body 112, and when the predetermined temperature is exceeded, the first thermostat 152 is operated to apply a signal to the controller 170.

In addition, the control unit 170 supplies power to the pump 132 by turning on the first power source 160 based on the signal of the first thermostat 152, and the first thermostat 152 is operated. The alarm and display device 180.

At this time, when the pump 132 is operated to circulate the cooling fluid 114, and the amount of the cooling fluid 114 is less than or equal to the set value, the flowmeter 130 may be operated, but the temperature of the first thermostat 152 may be lower than that of the first thermostat 152. In one case, the operation of the flow meter 130 is ignored.

Therefore, the first thermostat 152 having a low temperature setting value provides an advantage of preventing malfunction due to the signal of the flow meter 130.

When it is difficult to supply power due to a failure of the first power source 160, the second power source 162 supplies power to the first thermostat 152.

On the other hand, when the temperature of the cooling fluid 114 is raised without the operation of the pump 132, when the temperature reaches a predetermined temperature, the second thermostat 154 operates to apply a signal to the controller 170. The controller 170 receives a signal from the second thermostat 154 to supply the second power source 162 to the cooling fan 140. Therefore, while the cooling fan 140 is operated, the cooling fluid 114 of the cooler 120 is air-cooled, and the alarm and display device 180 that the second thermostat 154 is operated is made.

The cooled cooling fluid 114 flows into the main body 110 to cool the central body 112. Here, by operating the cooling fan 140, the cooling fluid 114 can be quickly circulated in the body 110 and the cooler 120 to prevent overheating of the central body (112).

Even when the cooling fan 140 is operated by the operation of the second thermostat 154, the third thermostat 156 is operated to prevent further increase of the temperature when the temperature rises and reaches a predetermined temperature. A signal is applied to 170.

In addition, the controller 170 controls the operation of the central body 112 of the transformer based on the signal of the third thermostat 156 and generates an alarm and display device 180 that the third thermostat 156 is operated.

In detail, the operation is performed by moving down from the overload operation to the low load operation.

Still, even when the third thermostat 156 is operated to control the operation of the transformer core 112, when the temperature of the cooling fluid 114 rises, the fourth thermostat 158 reaches a predetermined temperature. It is operated to apply a signal to the controller 170.

 In order to prevent the transformer central body 112 from overheating based on the signal of the fourth thermostat 158, the controller 170 stops the operation of the transformer as a last resort, and the fourth thermostat 158 is operated. Alarm and display device 180.

By controlling the operation of the thermostat 150, the pump 132, the cooling fan 140, the transformer load rate and the operation step by step, there is an advantage that can continue to operate according to the situation by section according to the temperature range .

1 is a block diagram showing a cooling system of a conventional transformer.

2 is a configuration diagram showing a cooling system of a transformer according to the present invention.

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

110: main body 112: central body

120: cooler 130: pump

140: cooling fan 150: thermostat

160: first power source 162: second power source

170: control unit

Claims (2)

A cooler coupled to an upper end of a body in which a cooling fluid for cooling the transformer is accommodated, and cooling the cooling fluid; A flow meter coupled between the cooler and the main body and configured to sense an oil flow of the cooling fluid; And a thermostat coupled to the main body and configured to control a load rate and operation of the cooling fan and the transformer for air cooling the pump and the cooling fluid according to the temperature range of the cooling fluid. And including The thermostat is, A first thermostat configured to operate a pump that circulates the cooling fluid when the predetermined temperature is exceeded; A second thermostat configured to operate a cooling fan for air-cooling the cooling fluid when the predetermined temperature is reached above the set temperature of the first thermostat; A third thermostat for controlling a load rate when a predetermined temperature is exceeded above a set temperature of the second thermostat; And A fourth thermostat for stopping the operation of the transformer when a predetermined temperature is exceeded above a set temperature of the third thermostat; Cooling system of a transformer, characterized in that it further comprises. delete

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