JPS62219901A - Resistance unit for testing generator - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] (b) Industrial application field The present invention relates to a resistor for testing a generator.

(b) Conventional technology Conventionally, when testing the output (performance) of stationary power generation facilities or portable engine-equipped generators, the number of phases of the generator was measured in a water tank filled with salt water as a resistor. Suspend the same number of electrodes,
Tests were conducted while adjusting the resistance by moving the electrode up and down to change the flooded area.

(c) Problems that the invention seeks to solveHowever,
The current density in the salt water near the electrode is extremely high, and the salt water in this area boils in a short period of time, making the resistance value unstable, making it possible to only measure instantaneous performance, and making it impossible to obtain accurate data.
Furthermore, there was a drawback of poor reproducibility.

(d) Means for solving the problem In this invention, a large number of substantially plate-shaped resistance elements formed in a meandering shape are stacked, electrically connected in series, and taps are connected to the intermediate resistance elements. The present invention provides a resistor for N11 testing consisting of:

(e) Function/Effect According to this invention, since a solid resistor is used, the resistance value is stable over a long period of time, the measurement data is accurate, and continuous measurements can be performed, which improves reproducibility. can obtain good data. In addition, by forming the resistance elements in the shape of meandering road plates and stacking them one on top of the other, the external size is reduced, making the device more compact and easy to move, and it also improves the passage of cooling air through the resistance elements. Furthermore, by providing taps in series with the resistor elements in the middle of stacking, it is possible to obtain a resistance value that corresponds to the capacity of the generator to be tested.

(F) Embodiment The embodiment of the present invention will be explained in detail based on the drawings. In FIG. 1, (A) shows a testing machine for measuring the performance of a three-phase alternating current generator. ) A substantially rectangular parallelepiped-shaped case (2) is placed above the case (2), and two sets of three resistors (3) and a cooling fan (4) are housed inside the case (2). On the outside of the case (2), there is an input terminal (6) for connecting the measurement controller (5) and the generator to be tested, and an outlet for connecting a jumper cord (
7) is installed.

As shown in FIGS. 2 and 3, the resistor (3) is constructed by stacking a large number of resistive elements (8) in the shape of meandering rectangular plates at predetermined intervals. (3).

The resistance element (8) has three bolt insertion holes (8a
), and an insulating bolt (9) for assembly is inserted into the insertion hole (8a), and the surface of the bolt (9) is coated with mica for insulation. There is.

In the figure, (10) shows an insulating ring formed in an annular shape, and (11) shows a conductive ring. Among the three insulating bolts (9), the central insulating bolt (9) has a stacked resistance element ( 8), and insulating rings (10) at the same intervals on the remaining two insulating bolts (9) at both ends.
10) and conductive rings (11) are inserted alternately to connect the stacked resistance elements (8) in electrical series.

Moreover, a plurality of taps (12) are connected to the resistor element (8) halfway through the stacking, so that current can be passed from halfway through the resistor (3).

Then, three such resistors (3) are placed in upper and lower three tiers of cases (
2), one end of each resistor (3) is connected to the leftmost outlet (7), and the other end is connected to the Y-Δ
It is connected to the input terminal (6) via the starter (13). This circuit also connects the input terminal (6)
It branches between the starter (13) and Y- and connects to the intermediate outlet (14).
) and the outlet (7), insert a detachable jumper cord (15) between both outlets (14) and (7).
) are connected. Note that the resistors (3) can also be arranged horizontally in three rows; in this case, the resistors (3) are arranged in three rows in an upright manner.

The Y-△ starter (13) is a Y-connection contact (MSY1).
) and a Δ connection contact (MSΔ1), and is configured so that both contacts do not close at the same time.

The resistance circuits (R1) and (R2) are connected in parallel to the input terminal (6).

The measurement controller (5) includes a push button switch (5b) for starting and stopping, a voltmeter (5G>), and a frequency meter (5d) on the front panel 1 (5a).
The control circuit (shown in Figure 6) is installed inside.
5e) is installed.

In Figure 6, (T) is a timer and its contact, (MSΔ1)
(MSΔ2) is a delta connection relay and contact, (MSYl)
(MSY2) is a Y-connection relay and contact, (PBl) (
PB2) is a start push button switch, (CB1) (CB2) is a stop push button switch, (5d) is a frequency meter and contact, (T
S) indicates a tumbler switch and its contacts, (AR> indicates a holding relay and contacts (El), and (E2) indicates a power source, which is connected to a point that is not affected by the switching of the generator to be measured.

In addition, each tap (12) provided on the resistor (3) is connected to each outlet (7a) (7b) (7c).
They are connected to each other, and by changing the jumper cord (15), it is possible to obtain electrical resistances of different values.

The embodiment of the present invention is configured as described above, and the power generation m<not shown) to be tested is input to the input terminal (6).
When you press the start pushbutton switch (PBl) and close the contacts, the timer (T> starts and the generator is connected in a Y-connection state, generating heat due to the current flowing through each resistor (3). It reaches the so-called saturation temperature, at which the change in resistance value due to temperature change becomes extremely small.Also, the timer (T) started at the same time as the current is turned on, is preset to a time slightly better than the time required to reach the saturation temperature, and When this point is reached, the Y-connection relay (MSY1) is opened, and the Δ-connection relay (MSΔ1) is closed, so that each resistor (3) is connected to the generator in a Δ-connection state.

Using the power of the generator measured as described in section 1, first preheat the power of the Y connection, that is, approximately 60% of the power of the Δ connection, until the resistance value of each resistor (3) becomes stable. By automatically switching to Δ connection using a timer (T) after preheating and performing measurements, stable performance measurements are possible.

In addition, the resistance value of each resistor (3) can be increased or decreased in stages by replacing the jumper cord (15), and in this embodiment, each outlet (7a > (7b) For (7C), each tap (12) is connected so that it has a resistance value suitable for power measurement of 75.100.125KVA, and the tumbler switch (TS) is turned on to connect both resistor circuits. (R
1) When (R2) is in parallel state, it is 150.200,
Power measurements of 250KVA can be made.

[Brief explanation of drawings]

FIG. 1 is an overall side view of a generator testing machine having a resistor according to the present invention. FIG. 2 is a front view thereof. FIG. 3 is a front view of a resistance element. FIG. 4 is a side view of a resistor. The figure is a resistance circuit diagram. Figure 6 is a control circuit diagram (8): Resistance element (12): Tap Patent applicant: Nishi-Nippon Railway Co., Ltd. Agent: Ken Matsuo No procedure...Authentic book (wipe) June 26, 1985 Patent Application No. 63060 2, Name of invention: Generator testing resistor 3, Person making amendment Relationship to the case Patent applicant: Name: Nishi-Nippon Railway Co., Ltd. 4, Agent address: 1st floor, Reisen Corporas, 2-4-26 Imaizumi, Chuo-ku, Fukuoka 810 4092-714-00906,
Drawing to be amended 7, Contents of amendment September 11, 1985 1, Indication of the case 1988 Patent Application No. 63060 2, Name of the invention Resistor element for generator testing 3, Person making the amendment Related Patent Applicant Name: Nishinippon Railway Co., Ltd. 4, Agent Address: 2-4-26 Imaizumi, Chuo-ku, Fukuoka-shi, 810 Japan
Goreizumi Corporas 1st floor θ092-714-0090

[
2] In the specification, the following phrase is added between page 8, line 11 and line 12. "The resistor is not limited to the meandering plate shape as described above; for example, as shown in FIG. 7, taps (13a
) can also be used. ”

[3] Add "Figure 7 shows another embodiment" under the bottom line of page 8.

[4] Figure 7 is added to the drawings. Claim "1) - A large number of resistance elements (8) are stacked and electrically connected in series, and a tap (
12) A generator test resistor formed by connecting 12) in series. ” Figure 7

Claims (1)

[Claims] 1) A generator in which a large number of approximately plate-shaped resistance elements (8) formed in a meandering shape are piled up and electrically connected in series, and a tap (12) is connected to the intermediate resistance element (8). Test resistor.