KR20080001950U - / A Assembly/Disassembly Device of Generator Rotor - Google Patents

Abstract

The present invention relates to a drawer / pull-out device of the rotor to facilitate the rotor pull-out / pull-in of the generator. The present invention is installed at a predetermined interval with the rotor, a support device 102 having a one-stage pulley 100; A first chain (104) mounted on the first stage pulley (100) of the spot device (102); A two-stage pulley (106) for mounting the first chain (104); It is installed at a predetermined interval with the spot device 102 and is connected to the first chain 104 and driven by the control of a moving push button switch 108 to operate the first chain 104. A winch motor 110 controlled by a winding inverter; A second chain (112) installed at one end of the rotor and the two-stage pulley (106); A proximity sensor (114) installed at an end coupling connection part of the rotor to check whether the rotor is shaken at the time of withdrawal / retraction of the rotor and at the same time to check that it is interviewed on the inner circumferential surface of the generator; The winch motor 110 is installed in the middle of the second chain 112 and controlled by an inverter according to the signal (proximity signal, etc.) sensed from the proximity sensor 114 or the weight of the rotor when the rotor is withdrawn / drawn. An electronic scale 116 for instructing a moving push button switch 108 to stop driving of the winch motor 110 controlled by the inverter after checking a rotation torque increase amount of the motor; It consists of a one-stage pulley 118 respectively installed on both sides of the generator.

Rotor, drawout, draw, pulley, spot device, motor

Description

A Assembly / Disassembly Device of Generator Rotor}

Figure 1a is a view showing a withdrawal process of the rotor using the withdrawal / withdrawal device of the rotor according to the prior art,

1B is a view illustrating a drawing process of a rotor using a drawing / drawing apparatus of a rotor according to the prior art;

2 is a view showing a withdrawal process of the rotor using the withdrawal / withdrawal apparatus of the rotor according to the present invention,

3 is a view showing a rotor insertion process using a rotor takeout / retraction apparatus according to the present invention.

<Description of Symbols for Main Parts of Drawings>

100: 1 pulley

102: Spot device

104: first chain

106: two-speed pulley

108: Moving Push Button Switch

110: winch motor controlled by inverter

112: second chain

114: proximity sensor

116: Electronic scale

118: 1 pulley

The present invention relates to a rotor take-out / retraction apparatus of a generator installed in a nuclear power plant, and more particularly, to a pull-out / retraction apparatus of a rotor for facilitating rotor withdrawal / retraction of a generator.

In general, power plants convert thermal or mechanical energy into electrical energy. Therefore, in order to generate electricity, it is necessary to consume a corresponding amount of energy. The source of energy for such generation is called a power generation resource or a power resource. Generators currently used for power generation use almost electromagnetic induction to convert mechanical power into electric power. Therefore, all energy flow is converted into mechanical power to generate electric power. Battery that directly converts chemical energy into electrical energy, or directly transfer thermal energy

There are thermocouples that convert to energy, but the batteries are not used for large-scale power generation, and the use of thermocouples for power generation is still in a test phase. The power generation method and the power plant also vary according to what is used as the power generation resource. There are hydroelectric power plants, thermal power plants, nuclear power plants, tidal power plants, wind power plants, and geothermal power plants.

As mentioned above, nuclear power plants have several systems, including reactors, generators, rotors of generators, turbines, piping, stud holes and stud bolts that hold the reactors to produce electrical energy. The devices are installed.

On the other hand, the devices of the various systems are periodically maintained or inspected for the safety of the nuclear power plant.

In particular, the rotor of the generator, as shown in Figs. 1A to 1B, is required to withdraw or withdraw the rotor 7 of the generator, as shown in FIGS. 1A to 1B. 3) installation, the chain (3) to the chain block (5) and at the same time the chain (3) to the rotor (7) of the generator, two people at the same time pulling the chain block alternately Is repeated.

However, the conventional rotor withdrawal / retracting work is difficult to apply appropriate and stable automation equipment, so the work is focused on manpower using chain blocks. As a result of the force, there is a problem that many problems such as contact with the stator exist due to the phenomenon that the rotor shakes from side to side because uniform force is not applied.

Therefore, the present invention has been proposed to solve the above problems according to the prior art, the object of the present invention is a safe withdrawal / withdrawal / withdrawal possible while maintaining a smooth sliding and clearance of the rotor at a constant torque and speed It is to provide a drawer / retractor of a rotor that can be pulled in and can be used simply and easily in the field.

Features of the drawer / retractor of the rotor according to the present invention for achieving the above object,

A spot device (Support device) 102 installed at a predetermined distance from the rotor and having a one-stage pulley 100;

A first chain (104) mounted on the first stage pulley (100) of the spot device (102);

A two-stage pulley (106) for mounting the first chain (104);

It is installed at a predetermined interval with the spot device 102 and is connected to the first chain 104 and driven by the control of a moving push button switch 108 to operate the first chain 104. A winch motor 110 controlled by a winding inverter;

A second chain (112) installed at one end of the rotor and the two-stage pulley (106);

A proximity sensor (114) installed at an end coupling connection part of the rotor to check whether the rotor is shaken at the time of withdrawal / retraction of the rotor and at the same time to check that it is interviewed on the inner circumferential surface of the generator;

The winch motor 110 is installed in the middle of the second chain 112 and controlled by an inverter according to the signal (proximity signal, etc.) sensed from the proximity sensor 114 or the weight of the rotor when the rotor is withdrawn / drawn. An electronic scale 116 for instructing a moving push button switch 108 to stop driving of the winch motor 110 controlled by the inverter after checking a rotation torque increase amount of the motor;

It consists of a one-stage pulley 118 respectively installed on both sides of the generator.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the take-out / retracting apparatus of the rotor according to the present invention will be described.

2 is a view showing a withdrawal process of the rotor using the withdrawal / withdrawal device of the rotor according to the invention, Figure 3 is a view showing a withdrawal process of the rotor using the withdrawal / withdrawal device of the rotor according to the present invention .

As shown in Figures 2 to 3, the take-out / retracting apparatus of the rotor according to the present invention is installed at a predetermined interval with the rotor, a support device 102 having a one-stage pulley 100 Wow; A first chain (104) mounted on the first stage pulley (100) of the spot device (102); A two-stage pulley (106) for mounting the first chain (104); It is installed at a predetermined interval with the spot device 102 and is connected to the first chain 104 and driven by the control of a moving push button switch 108 to operate the first chain 104. A winch motor 110 controlled by a winding inverter; A second chain (112) installed at one end of the rotor and the two-stage pulley (106); A proximity sensor 114 installed at an end coupling connection of the rotor (not shown) to check whether the rotor is shaking when the rotor is pulled out and pulled out, and to check that the rotor is interviewed on the inner circumferential surface of the generator; ; The winch motor 110 is installed in the middle of the second chain 112 and controlled by an inverter according to the signal (proximity signal, etc.) sensed from the proximity sensor 114 or the weight of the rotor when the rotor is withdrawn / drawn. An electronic scale 116 for instructing a moving push button switch 108 to stop driving of the winch motor 110 controlled by the inverter after checking a rotation torque increase amount of the motor; It consists of a one-stage pulley 118 respectively installed on both sides of the generator.

Referring to the operation of the drawer / pullout device of the rotor according to the present invention configured as described above are as follows.

First, when taking out the rotor, referring to Figure 2 the installation process and operation of the take-out / retracting apparatus of the rotor according to the present invention, a spot device having a one-stage pulley 100 at a predetermined interval with the rotor ( Support device) 102 is installed.

Thereafter, the first chain 104 is mounted on the first stage pulley 100 of the spot device 102, and then the second chain is positioned at a predetermined distance from the spot device 102. It is mounted on the pulley 106.

Then, after installing the second chain 112 on one end of the rotor and the two-stage pulley 106, the electronic scale 116 is installed in the middle of the second chain (112).

In addition, the proximity sensor 114 is installed at the end coupling connection part of the rotor (not shown) to check whether the rotor is shaking when the rotor is pulled out and pulled out, and at the same time, to check that it is interviewed on the inner circumferential surface of the generator. Install).

On the other hand, the winch motor 110 is controlled by an inverter that is driven by the control of the moving push button switch (108) (moving push button switch 108) at a predetermined distance from the spot device (102) Install. In this case, the moving push button switch 108 is installed at one side of the winch motor 110 controlled by the inverter.

When the rotor is withdrawn as described above, when the installation of the rotor withdrawal / retraction apparatus is completed, the moving push button switch 108 is operated to drive the winch motor 110 controlled by the inverter.

According to the operation of the winch motor 110 controlled by the inverter, the winch motor 110 controlled by the inverter is connected to the first stage pulley 100 and the second stage pulley 106 of the support device 102. The rough first chain 104 is wound. Thus, the first chain 104 is wound around the winch motor 110 controlled by the inverter.

As the first chain 104 is wound around the winch motor 110 controlled by the inverter, the second chain 112 installed at one end of the rotor and the two-stage pulley 106 may support the spot device. device) 102. At this time, the rotor is withdrawn from the generator.

As the rotor is pulled out, the proximity sensor 114 installed at the end coupling connection part of the rotor checks whether the rotor is shaking and checks that it is interviewed on the inner circumferential surface of the generator. At this time, the checked signal is transmitted to a moving push button switch 108.

In addition, the electronic scale 116 checks the rotation torque increase amount of the winch motor 110 controlled by the inverter according to the signal (proximity signal, etc.) sensed from the proximity sensor 114 or the weight of the rotor, and then a reference value. If it is abnormal, a command to stop the drive of the winch motor 110 controlled by the inverter is instructed to a moving push button switch (108).

Thus, the moving push button switch 108 stops driving the winch motor 110 controlled by the inverter.

On the other hand, when the rotor is pulled out, looking at the installation process and operation of the rotor take-out / pull-out apparatus according to the present invention with reference to Figure 3, a spot device having a one-stage pulley 100 at a predetermined interval with the rotor (Support device) 102 is installed.

Thereafter, the first chain 104 is mounted on the first stage pulley 100 of the spot device 102, and then the second chain is positioned at a predetermined distance from the spot device 102. It is mounted on the pulley 106.

Then, after installing the second chain 112 on one end of the rotor and the two-stage pulley 106, the electronic scale 116 is installed in the middle of the second chain (112). At this time, the second chain 112 is mounted on the first stage pulley 118 respectively installed on both end surfaces of the generator.

In addition, the proximity sensor 114 is installed at the end coupling connection part of the rotor (not shown) to check whether the rotor is shaking when the rotor is pulled out and pulled out, and at the same time, to check that it is interviewed on the inner circumferential surface of the generator. Install).

On the other hand, the winch motor 110 is controlled by an inverter that is driven by the control of the moving push button switch (108) (moving push button switch 108) at a predetermined distance from the spot device (102) Install.

When the rotor is drawn in as described above, when the installation of the drawer / retractor of the rotor is completed, the winch motor 110 controlled by the inverter is driven by a moving push button switch 108.

According to the operation of the winch motor 110 controlled by the inverter, the winch motor 110 controlled by the inverter is connected to the first stage pulley 100 and the second stage pulley 106 of the support device 102. The rough first chain 104 is wound. Thus, the first chain 104 is wound around the winch motor 110 controlled by the inverter.

As the first chain 104 is wound around the winch motor 110 controlled by the inverter, the second chain 112 installed at one end of the rotor and the two-stage pulley 106 is moved toward the generator side. . At this time, the rotor moves to the inner circumferential surface side of the generator.

As the rotor is retracted, the proximity sensor 114 installed at the end coupling connection of the rotor checks whether the rotor is shaking and at the same time checks that it is interviewed on the inner circumferential surface of the generator. At this time, the checked signal is transmitted to a moving push button switch 108.

In addition, the electronic scale 116 checks the rotation torque increase amount of the winch motor 110 controlled by the inverter according to the signal (proximity signal, etc.) sensed from the proximity sensor 114 or the weight of the rotor, and then a reference value. If it is abnormal, a command to stop the drive of the winch motor 110 controlled by the inverter is instructed to a moving push button switch (108).

Thus, the moving push button switch 108 stops driving the winch motor 110 controlled by the inverter.

As described above, the present invention can easily withdraw / retract the rotor of the generator, thereby reducing manpower and maintenance time, and also improving maintenance quality and increasing customer satisfaction.

In addition, the present invention has the effect of improving the technical solution ability through the image improvement and problem analysis through the competitive advantage comparative time, and has the effect of minimizing the effects of other processes due to the maintenance personnel discharge.

Claims (1)

A spot device (Support device) 102 installed at a predetermined distance from the rotor and having a one-stage pulley 100; A first chain (104) mounted on the first stage pulley (100) of the spot device (102); A two-stage pulley (106) for mounting the first chain (104); It is installed at a predetermined interval with the spot device 102 and is connected to the first chain 104 and driven by the control of a moving push button switch 108 to operate the first chain 104. A winch motor 110 controlled by a winding inverter; A second chain (112) installed at one end of the rotor and the two-stage pulley (106); A proximity sensor (114) installed at an end coupling connection part of the rotor to check whether the rotor is shaken at the time of withdrawal / retraction of the rotor and at the same time to check that it is interviewed on the inner circumferential surface of the generator; The winch motor 110 is installed in the middle of the second chain 112 and controlled by an inverter according to the signal (proximity signal, etc.) sensed from the proximity sensor 114 or the weight of the rotor when the rotor is withdrawn / drawn. An electronic scale 116 for instructing a moving push button switch 108 to stop driving of the winch motor 110 controlled by the inverter after checking a rotation torque increase amount of the motor; Rotor take-out / retractor device, characterized in that consisting of a one-stage pulley (118) respectively installed on both sides of the generator.

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