KR200462929Y1 - Generator stator core tightness checker - Google Patents

Abstract

The generator stator iron tightness checker is started. Generator stator iron core tightening state check according to an embodiment of the present invention head unit inserted into the vent groove existing between the generator stator iron core packet; And a tightening state measuring unit connected to the rear of the head unit to measure a force applied to the head unit.

Description

Generator stator core tightening checker {GENERATOR STATOR CORE TIGHTNESS CHECKER}

The present invention relates to a generator stator core tightening state checker, and more particularly to a generator stator core tightening state checker capable of quickly and accurately determining the tightening state of the generator stator iron core.

The generator is a key facility that produces electricity directly from the power plant, and the mechanical soundness of the generator is very important. In particular, the vibration generated during generator operation not only causes vibration damage of the generator itself, but also promotes peeling of the winding insulation due to the vibration, causing cooling water leakage and moisture absorption. Therefore, most power plants are frequently tested for generator safety.

1 is a schematic diagram showing a state of a generator stator.

Referring to FIG. 1, the generator stator fixes the generator stator iron core packet 10 wound up to be connected to the stator iron core slot 20, the wound generator stator iron core packet 10, and opens the opening of the stator iron core slot 20. And a wedge 30 for shielding. Meanwhile, a vent groove 40 through which air passes is formed between the stator iron core packets 10.

In order to check the tightness of the iron core in such a generator stator, in the prior art, the operator visually checks whether there is an abnormality on the surface of the iron core, and flattenes a tool (for example, a flat groove in the vent groove 40 between the generator stator iron core packets 10). Check the tightness of the iron core using a flat head screwdriver.

However, the conventional generator stator core tightening state checking method as described above is dependent only on the naked eye and feeling of the operator, there is a problem that the objectivity and reliability of the inspection result is not only poor, but also the result value according to the skill of the operator The problem arises that this may be different.

Therefore, a method for simple and objectively checking the generator stator core tightening state is required.

Embodiments of the present invention are generators that can objectively check the generator stator core tightening state by quantifying the iron core tightening state through the head portion inserted into the vent groove existing between the generator stator iron core packet and the measuring unit connected to the head portion To provide a stator iron tightness checker.

According to an aspect of the present invention, the generator is inserted into the vent groove between the stator core core packet; And a tightening state measuring unit connected to the rear of the head unit and measuring a force applied to the head unit, the stator iron core tightening state checker may be provided.

The head unit may include a head tip inserted into the vent groove and having a sharp end portion; And a meter mounting part formed at a rear of the head part and having a mounting hole formed at the center thereof.

In addition, the tightening state measuring unit, the head mounting portion coupled to the mounting hole is connected to the measuring unit mounting portion; A measuring device coupled to one side of the head mounting part and measuring a force applied to the head part; And it may include a handle portion formed on the other side of the meter.

In addition, the measuring device may be a torque gauge or a digital torque wrench.

Embodiments of the present invention by measuring the tightening state of the iron core through the tightening state measuring unit for measuring the force applied to the head portion and the head portion inserted into the vent hole, it is possible to objectively accurately measure the iron core tightening state of the generator stator have.

In addition, by using a standardized tool for measuring the generator stator core tightening state, it is possible to extend the scope of manpower operation and obtain reliable maintenance results regardless of the skill of the operator.

1 is a schematic diagram showing a state of a generator stator.
2 is a front view of the generator stator iron core tightening state checker according to an embodiment of the present invention.
3 is a front view of the head in the generator stator core tightening state checker of FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. On the other hand, the same member with respect to the generator stator will be described using the same reference numerals as shown in FIG.

2 is a front view of the generator stator iron core tightening state checker (100, hereinafter iron core tightening state checker) according to an embodiment of the present invention, Figure 3 is a head in the generator stator iron core tightening state checker 100 of FIG. It is a front view of the part 120.

2 and 3, the iron core tightening state checker 100 includes a head 120 and a tightening state measuring unit 140.

The head part 120 is inserted into the vent groove between the generator stator core core packet 10, and when the operator applies the force to the head part 120, the head part 120 transmits the force to the tightening state measuring part 140 to be described later. Play a role.

The head part 120 includes a head tip 122 and a meter mounting part 124.

The head tip 122 corresponds to all of the head portion 120. Here, the front part refers to a portion facing the generator stator iron core packet 10 when the head 120 is fitted into the vent groove 40 between the generator stator iron core packets 10.

Head tip 122 is inserted into the bent groove 40, the front end is formed sharply. Since the front end is sharply formed, it is easier to fit the head tip 122 to the vent groove 40.

On the other hand, the head tip 122 can be manufactured to have a predetermined inclination toward the rear portion from the whole. For example, when the head tip 122 is viewed from the side, it may be formed in a triangular shape having an inclined surface toward the generator stator iron core packet 10 direction. In this case, when the head tip 122 is inserted into the vent groove 40, the vent groove 40 may slide along the inclined surface to more easily fit the head tip 122 into the vent groove 40.

The measuring instrument mounting portion 124 is formed in the rear portion of the head portion 120. The rear part refers to a part corresponding to the direction opposite to the generator stator iron core packet 10 side. That is, the head part 120 is configured in the order of the head tip 122-the meter mounting part 124 based on the vent groove 40. On the other hand, it is also possible to form a portion extending in the shape of a plate between the head tip 122 and the meter mounting portion 124 (see Fig. 3).

The measuring device mounting part 124 may have a jaw to stably receive the head mounting part 141 of the tightening state measuring part 140. That is, after extending in the plate shape from the head tip 122, it is possible to form the jaw in the downward direction to place the head mounting portion 141 in the space formed by the jaw.

The measuring instrument mounting portion 124 may have a mounting hole 124a formed at the center thereof. The mounting hole 124a receives a protrusion (not shown) formed in the head mounting part 141 of the tightening state measuring unit 140 which will be described later, thereby connecting the head 120 and the tightening state measuring unit 140 to each other. It plays a role. Therefore, the mounting hole 124a and the protrusion are formed to correspond to each other.

On the other hand, the meter mounting unit 124 is not limited to a specific configuration as long as it can be connected to the tightening state measuring unit 140. In the above embodiment, but the mounting hole 124a is illustrated, in addition, it is possible to hook the fastening state measuring unit 140 by forming a hook-shaped locking portion or to form a concave-convex shape to fit the fastening state measuring unit 140. It is also possible to form.

Tightening state measuring unit 140 serves to measure the force acting on the head portion 120. The tightening state measuring unit 140 includes a head mounting unit 141, a measuring unit 143, and a handle unit 145.

The head mounting part 141 is a part which is fastened with the measuring device mounting part 124 of the head part 120, and serves to connect the head part 120 and the tightened state measuring part 140 to each other. The head mounting part 141 may be formed to correspond to the shape of the measuring device mounting part 124.

For example, when the mounting hole 124a is formed in the center of the measuring unit mounting portion 124, the head mounting portion 141 may have a protrusion shape that may be fitted into the mounting hole 124a. In addition, when the annular member is formed in the measuring unit mounting unit 124, the head mounting unit 141 may be formed in a string or an annular shape so as to be hooked to the annular member. In addition, when the measuring unit mounting portion 124 is formed in the concave-convex shape, the head portion mounting portion 141 may be formed in the concave-convex shape that can be fitted to correspond to the concave-convex shape.

The measuring unit 143 receives the force applied to the head 120 and serves to quantify. The measuring device 143 is disposed with one side fastened to the head mounting part 141. Therefore, when a force is applied to the head unit 120, the force is transmitted from the head unit 120 to the measuring unit 143 through the head unit mounting unit 141, so that the force may be quantified in the measuring unit 143. .

The measuring device 143 is a measuring device capable of measuring the force applied to the head 120, and may be, for example, a torque gauge or a digital torque wrench. The torque gauge or digital torque ranch can be used to quantify the force generated when the operator applies the force to the head portion 120, it can be used commercially. However, even when using a commercial torque gauge or digital torque wrench, the head mounting portion 141 may be formed on one side so as to be used in connection with the head 120.

The handle 145 is for the operator to easily carry out the work in hand, is formed on the other side of the measuring device (143). That is, the tightening state measuring unit 140 is configured in the order of the head mounting unit 141, the measuring unit 143-the handle 145 on the basis of the vent groove 40.

The handle portion 145 may be formed in a rod shape, it is also possible to form a protrusion so that the operator's hand does not slip on the surface.

Hereinafter, the operation of the generator stator iron core tightening state checker 100 according to an embodiment of the present invention will be described.

The worker first connects the head unit 120 and the tightening state measuring unit 140. The connection is made by fastening the head mounting part 141 of the tightening state measuring part 140 to the measuring part mounting part 124 of the head part 120.

Next, the operator grasps the handle 145 of the tightening state measuring unit 140 and inserts the head tip 122 of the head portion 120 into the vent groove 40 between the generator stator iron core packet 10.

Next, the operator may hold the handle portion 145 of the tightening state measuring unit 140 to raise the generator stator iron core tightening state checker 100 upward or downward. In this case, a mutual force is applied to the generator stator core packet 10 to which the head tip 122 and the head tip 122 abut. The force is transmitted to the tightening state measuring unit 140.

Next, the operator determines whether the tightening state of the generator stator iron core is good or bad by checking the value of the force displayed on the measuring device 143 of the tightening state measuring unit 140. For example, if there is no movement of the iron core until the value is 12 N · m, it can be determined that the tightening state of the generator stator iron core is good.

As described above, embodiments of the present invention by objectively measuring the iron core tightening state by quantifying the iron core tightening state through the head portion fitted into the vent hole and the tightening state measuring unit for measuring the force applied to the head portion, the objective stator core tightening state objectively Can be measured accurately.

In addition, by using a standardized tool for measuring the generator stator core tightening state, it is possible to extend the scope of manpower operation and obtain reliable maintenance results regardless of the skill of the operator.

As described above, embodiments of the present invention have been described, but those skilled in the art may add, change, or delete components without departing from the spirit of the present invention described in the utility model registration claims. Alternatively, the present invention may be variously modified and changed by addition, etc., which will also be included within the scope of the present invention.

10: generator stator iron core packet 20: iron core slot
30: wedge 40: vent groove
100: generator stator iron core tightness checker
120: head portion 122: head tip
124: measuring instrument mounting portion 124a: mounting hole
140: tightening state measuring unit 141: head mounting portion
143: measuring instrument 145: handle

Claims (4)

A head portion 120 fitted into the vent groove 40 existing between the generator stator core core packets 10; And
Generator stator iron core tightening state checker including a tightening state measuring unit 140 is connected to the rear portion of the head portion 120 to measure the force applied to the head portion (120).
The method of claim 1,
The head part 120,
A head tip 122 inserted into the vent groove 40 and having a sharp end portion; And
Generator stator core tightening state checker including a measuring unit mounting portion 124 is formed in the rear of the head portion 120 and the mounting hole (124a) is formed in the center.
The method of claim 2,
The tightening state measuring unit 140,
A head mounting part 141 fitted to the mounting hole 124a and connected to the measuring device mounting part 124;
A measuring device 143 fastened to one side of the head mounting part 141 to measure a force applied to the head part 120; And
Generator stator iron core tightening state checker including a handle portion 145 is formed on the other side of the measuring unit (143).
The method of claim 3, wherein
The measuring device is a torque gauge or digital torque wrench generator stator core tightening state checker.

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