KR200328629Y1 - Unit of preventing vibration of cooling motor in electric generator - Google Patents

Abstract

The present invention utilizes a coupling structure such as a support plate, a mounting pad, an elastic box, and stably supports the motor, thereby preventing the unnecessary elastic wave diffusion caused by the operation of the motor in advance. Many other structures, such as physical damage caused by vibration waves originating from the motor, for example, physical damage such as cracking, bolt tightening are loosened, failing to maintain a normal fixed state, and suddenly deviating from the stage. The anti-vibration unit of the motor for a generator cooling tool can be induced to easily avoid.

Description

Unit of preventing vibration of cooling motor in electric generator

The present invention relates to an anti-vibration unit of a motor for a generator cooling tool, and more particularly, by using a coupling structure such as a support plate, a mounting pad, an elastic box, and stably supporting the motor, thereby resulting from the operation of the motor. By blocking an unnecessary spread of seismic waves in advance, many other structures that are arranged on the stage with the motor are loosened by various vibrations caused by the vibration wave from the motor, for example, by physical damage such as cracking, and tightening of bolts. The present invention relates to an anti-vibration unit of a motor for a generator cooling tool that can be induced to easily avoid a hazard such as a sudden departure from a stage without maintaining a normal fixed state.

As shown in FIG. 1, a conventional generator 100 is generally divided into a plant frame 10 and a stator 20 and a rotor 30 included in the plant frame 10. In combination. In this case, the installation frame 10 serves to support various accessories including, for example, the stator 20 / rotor 30 in front of it, to seal various refrigerants necessary for the operation of the process, and to provide a ventilation path. It performs a wide range of roles such as configuring and preventing torsional forces of various accessories.

At this time, as shown in the figure, a stator coil 21 of three wires is introduced into the stator 20, for example, the stator coils 21 are each stator arranged in multiple layers inside the stator 20. Winding is inserted into the iron core (Stator core), and serves to guide a series of AC voltage to be induced into the stator (20).

In addition, as a shaft of the rotor 30, for example, two-coil rotor coils 31 are introduced, and the rotor coils 31 are inserted into slots formed in the shafts of the rotor 30. It is inserted into a winding and serves to guide a series of DC voltages to be induced around the rotor 30.

As described above, in the situation where the AC voltage is induced inside the stator 20 and the DC voltage is induced around the rotor 30, the turbine 200 is operated by the action of the boiler 300, and the turbine ( When the rotor 30 is rotated by the operation of the 200, due to the influence, a series of alternating voltage can be induced outside the generator 100, in the aftermath, the generator 100 is alternating It is possible to transfer the voltage to the rectifier, and eventually, an appropriate amount of electrical energy can be stably supplied to various electronic and electronic devices associated with the generator 100.

Under such a conventional system, when the generator 100 operates for a long time, heat of a certain temperature is inevitably generated from a structure disposed inside the facility frame 10, for example, the stator 20. In this situation, if no further action is taken, the generator 100 is bound to cause a series of failures.

Conventionally, in order to prevent such a problem in advance, a series of cooling tools 2 are further arranged around the generator 100, and the cooling tools 2 are systematically utilized to provide a specific structure, such as By cooling the stator 20 from time to time, the failure of the generator 100 due to the heat generation of the structure is blocked in advance.

At this time, as shown in the figure, between the cooling tool 2 and the generator 100, a motor 3 for drawing the cooling water on the cooling tool 2 side to the cooling water supply line 8 side is disposed, this motor As the function of (3) is performed, the coolant can be maintained in a stable supply state from the cooling tool 2 to the stator 20 side of the generator 100. In this case, the motor 3 is fixedly mounted on the stage 1 by forming a group of assemblies together with other structures 4, 5, for example, an instrument panel, a generator control controller, and the like.

Under this conventional regime, as mentioned above, the cooling water on the cooling tool 2 side is supplied to the stator 20 side of the generator 100 in accordance with the performance of the motor 3, in this case, the motor ( 3) has no choice but to take a mechanism of rapidly rotating at a high speed of, for example, 3600 rpm in order to draw the cooling water on the cooling tool 2 side to the outside, and in the aftermath, the motor 3 is a vibration wave of a predetermined magnitude or more. Will inevitably diverge to his surroundings.

At this time, as described above, the motor 3 together with the other structures 4 and 5 forms a group of assemblies and is fixed to the stage 1, in this situation, the motor 3 is directed to itself. In the case of performing a given coolant drawing operation, the vibration wave generated by the motor 3 is forced to be directly transmitted to the other structures 4 and 5 fixed to the stage 1. (4, 5) has no choice but to suffer the damage of the vibration wave resulting from the motor (3).

For example, when a vibration wave of a predetermined magnitude or more is suddenly applied by the operation of the motor 3, various other structures 4 and 5 may cause physical damage such as cracking due to the adverse effects of the vibration wave, and the bolts 6. The tightening of (7) becomes loose, and the normal fixation state cannot be maintained, and the damage and the like that are suddenly detached from the stage 1 are inevitably worn.

If, on the generator management side, the motor 3 is forced to operate without any further action, due to the aftermath, various types of structures 4 and 5 related to the driving of the generator 100 are large. It is inevitable that it will cause damage (damage), and eventually, generator management companies will have to deal with serious problems that prevent the generator from going through its normal power generation process.

The present invention has been made to solve the above problems, by using a coupling structure such as a support plate, a mounting pad, an elastic box, to stably support the motor, thereby spreading unnecessary acoustic waves due to the operation of the motor By pre-closing the motor, many other structures arranged on the stage together with the motor may cause various damages caused by vibration waves from the motor, for example, physical damage such as cracking, and the tightening of the bolts, thereby loosening the normal state. An object of the present invention is to provide an anti-vibration unit of a motor for a generator cooling tool that can not be maintained and can be easily avoided such as a hazard that suddenly deviates from the stage.

1 is a block diagram of a generator according to the prior art.

2 and 3 is a block diagram of a vibration preventing unit of a motor for a generator cooling tool according to the present invention.

In order to achieve the above object, in the present invention, a support plate for pulling out the coolant on the cooling tool side and supplying the cooling water on the cooling tool side to the generator side and mounted on the stage, and fixed on the stage with the support plate on the stage. Vibration preventing unit of the motor for a cooling tool of a generator comprising a combination of a mounting pad that blocks the vibration wave output from the motor, and a coupling device interposed between the front support plate and the mounting pad, and fixedly coupling the support plate to the mounting pad. Initiate.

Hereinafter, with reference to the accompanying drawings, the vibration prevention unit of the motor for the cooling tool of the generator according to the present invention in more detail as follows.

2 and 3, the motor vibration preventing unit 40 according to the present invention is largely drawn on the stage 1, and draws out the coolant on the cooling tool 2 side, thereby generating the generator 100. A mounting pad 41 for supporting the motor 3 to be supplied to the side, and a mounting pad fixed to the stage 1 in a state where the supporting plate 41 is mounted, and blocking the vibration wave output from the motor 3. And a coupling device 46 interposed between the front support plate 41 and the mounting pad 44, and for fixing the support plate 41 to the mounting pad 44. In this case, the mounting pad 44 has, for example, a rubber material.

In this case, the former coupling device 46 is fixed to the base plate 43 with the base plate 43 fixed on the mounting pad 44 and an elastic body, for example, a spring, and is supported on the support plate 41. ), The support plate 41 is continuously passed through the elastic box 45 for elastically fixing and supporting the support plate 41 and the front support plate 41 and the elastic box 45, thereby supporting the support plate 41 with the elastic body. It consists of a combination of fixing screws 41b fixed on the box 45. In this case, a through hole 41a is formed in advance on the support plate 41 to guide the penetration of the fixing screw 41b.

Here, as shown in the figure, the vibration of the support plate 41 originating from the motor 3 is distributed between the support plate 41 and the elastic box 45, and the equilibrium state of the support plate 41 is maintained. Coupling piece 42 for adjusting the balance is further arranged. In this case, the coupling piece 42 is firmly fixed on the base plate 43 by the fixing pin 42b that continuously passes through the coupling piece body and the base plate 43.

At this time, a through hole 42a for guiding the penetration of the fixing pin 42b is formed in the main body of the coupling piece 42 in advance.

As mentioned above, since the motor 3 takes a mechanism of rapidly rotating, for example, at a high speed of about 3600 rpm, in order to draw the cooling water on the cooling tool 5 side to the outside, it is constant around the motor 3. The magnitude of the vibration wave is inevitably divergent.

In such a situation, without any action, when the operation of the motor 3 is forced as it is, the vibration wave generated by the motor 3 is forced to be directly transmitted to various other structures fixed to the stage 1. In the end, the structures inevitably suffer the damage of the vibration wave resulting from the motor 3.

However, under the system of the present invention, since the motor 3 is supported by the anti-vibration unit 40 made of a combination of the support plate 41, the mounting pad 44, the elastic box 45, etc., the present invention If implemented, although the oscillating wave of a certain magnitude is widely diverted to the stage 1 by the high-speed rotation mechanism of the motor 3, the oscillating wave may be mounted on the mounting pad (3) before its influence reaches the stage 1. 44, it is possible to stably be absorbed and removed by the action of the elastic box 45, etc. As a result, many other structures (4, 5) disposed in the stage (1) together with the motor (3) is a motor ( The damage of the vibration wave resulting from 3) can be easily avoided.

As described in detail above, in the present invention, the motor is not left as it is, and the motor is supported by a coupling structure such as a support plate, a mounting pad, an elastic box, and the like, thereby preventing unnecessary elastic wave diffusion due to the operation of the motor in advance.

When the present invention is implemented, for example, even if the vibration wave of a certain size is widely emitted to the stage side by the high-speed rotation mechanism of the motor, the vibration wave is before the influence reaches the stage, the mounting pad, the elastic box, etc. It can be absorbed and removed stably by the action of, and eventually, many other structures arranged on the stage together with the motor are subjected to various damages caused by vibration waves, for example, physical damages such as cracking, and tightening of bolts. This loosens, so that it is not possible to maintain a normal fixed state, and it is possible to easily avoid damages such as sudden departure from the stage.

Claims (2)

A support plate for pulling out the coolant on the cooling tool side and supporting the motor to be supplied to the generator side in a state mounted on the stage; A mounting pad fixed to the stage in a state where the support plate is placed, and blocking a vibration wave output from the motor; And a coupling device interposed between the support plate and the mounting pad, the coupling device fixedly coupling the support plate to the mounting pad. The mounting apparatus of claim 1, wherein the coupling device comprises: a base plate fixed on the mounting pad; An elastic box fixed to the base plate in a state in which the elastic body is embedded, the elastic box holding the support plate upward and elastically supporting it; And a set screw which continuously passes through the support plate and the elastic box, and fixes the support plate on the elastic box.