JPH07218606A - Automatic load regulator - Google Patents

Abstract

PURPOSE:To regulate the load with no need of monitoring by setting the %-load arbitrarily in the load test at a generator. CONSTITUTION:Output from a generator is regulated at a rated value by controlling a water rheostat by means of a manual switch 37. An input bias regulator 12 regulates a %-load indicator 13 to indicate 100% load. A %-set switch 21 is then turned ON and a 100% set value is stored at an operating section 20. When the load of generator is altered at a-% setter 22, the operating section 20 operates the ratio with reference to the 100% set value and delivers a-% load set signal A. A comparison circuit 24 compares a-% load set value A with a %-load signal B and an automatic regulation control circuit controls the water rheostat to satisfy B=A.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic load adjusting device used for load tests of power generators and the like.

[0002]

2. Description of the Related Art Conventionally, a water resistor as shown in FIG. 3 is usually used as a load for a factory test of a motor generator and a load test after on-site installation adjustment.

25% of the rated output value of the generator for the load test
After operating at load, 50% load and 75% load for the required time respectively, load operation is continued at 100% load until the temperature rise of generator windings, jackets, bearings, etc. is saturated, and the generator temperature rise Is saturated, the generator rated output value of 110
% Overload operation is performed for the required time.

In order to perform the above load test, the load adjustment electrode 53 of the water resistor, which is the load of the generator, is moved up and down by the hoist 54 or the like to adjust the load amount.

[0005]

As described above, in the load test of the power generator, it is necessary to continuously operate the load amount of a certain fixed ratio with respect to the rated output value of the generator for the required time.
Water resistors that can change the load amount are generally used, but on the other hand, there are the following problems to operate the load amount of a certain ratio stably for a long time.

Due to the conductivity of water, the water temperature is 80 ° C to 90 ° C.
However, when the water temperature is 95 ° C. or higher, the water surface becomes wavy and the load becomes unstable and the load cannot be maintained at a constant value. Also, the water temperature is 70
When the temperature is below ℃, the conductivity of water is small and the load is reduced. Therefore, the load adjustment electrode 53 is monitored for water temperature and water amount, and the position of the load adjustment electrode 53 is managed while performing inching work to finely move the hoist 54 and the like up and down while monitoring the current value flowing through the water resistor. In addition, the management operator needed a skilled work vehicle.

The present invention has been made in view of the conventional problems, and an object thereof is to set an arbitrary% load with respect to the rated output of the generator and to monitor the load state. An object of the present invention is to provide an automatic load adjusting device capable of load adjustment without any load.

[0008]

In order to achieve the above object, an automatic load adjusting apparatus according to the present invention includes an input bias adjuster for converting an output signal of a generator into a% load signal, and a% load for indicating a% load. An indicator, an arithmetic circuit that calculates the% load setting signal using the% load setting value as the% load signal, a comparison circuit that compares the% load signal and the% load setting signal, and an automatic control that controls the load with the output signal of the comparison circuit. It is characterized by comprising a load control circuit.

[0009]

[Function] First, when the same% set value as the% load signal is set, the calculator calculates the same% load set value as the% load value from the% load value and% set value at this time, and the% load value is used as a reference. The ratio is taught. After that, when the setting of the% setting is changed, the arithmetic unit arithmetically outputs the newly set% load signal from the taught ratio.

The automatic load control circuit compares the% load signal and the% load setting signal with the comparison circuit, and controls the load of the water resistor so that the deviation therebetween is eliminated.

[0011]

Embodiments of the present invention will be described with reference to the drawings.

Embodiment 1 FIG. 1 is a block diagram of an automatic load device, 11 is an amplifier to which a signal from a generator output detecting transducer is input, 12 is an input bias adjuster connected to the amplifier 11, and 13 is this % Load indicator connected to input bias regulator, 14
Is the load from the% load signal B from the bias regulator 12
Comparator to detect when the load exceeds 00%, 15
Is an overload alarm that operates with the output of the comparator 14.

Reference numeral 20 denotes a calculation unit for calculating a% load set value, 2
1 is a% setting switch, 22 is a% setting device composed of switches S _{1 to} S ₅ , 23 is a D / A converter for converting the% load setting value A calculated by the calculation unit 20 into an analog signal, and 24 is a D / A converter.
A comparison circuit that compares the% load signal A from the A converter 23 with the% load signal B from the input bias adjuster 12, and 25 is a dead zone adjuster that adjusts the dead zone of the detection area of the comparison circuit 24.

Reference numeral 26 indicates the output signal from the comparison circuit 24 as PW.
A PWM circuit for converting to an M signal, 27 is a PWM signal width adjuster, 28 is a PWM carrier pulse generator, 29 is a pulse signal cycle adjuster, and 31 is a condition that the B> A detection output from the comparison circuit 24 is input. A logical product circuit for outputting the PWM signal from the PWM circuit, 32 is A <from the comparison circuit 24
An AND circuit that outputs the PWM signal from the PWM circuit 26 on condition that the B detection output is input.

Reference numeral 33 is a one-shot multivibrator circuit, 34 is an output signal width adjuster thereof, 35 is a main / step switch, 36 and 37 are up and down switches, 38 is a logical product circuit 31 and a one-shot multivibrator. An OR circuit that outputs the up signal from the circuit 33 under the OR condition, and 39 is an OR circuit that outputs the down signal from the AND circuit 32 and the one-shot multivibrator circuit 33 under the OR condition.

41 and 42 are up and down contactors which control the hoist 54 of the water resistor (FIG. 3) energized by the OR circuits 38 and 39 to raise or lower the electrode 53.

Next, the operation of this embodiment will be described. First, the power generator is started, and after no-load operation, the water resistor load adjusting electrode 53 is lowered by the manual switch 37 and lowered below the surface of the salt water 52 to generate power while watching the instruction of a power meter or ammeter not shown. The load adjusting electrode 53 is moved so that the output of the machine matches the rated output value. After the output of the generator is confirmed to be the rated output value, the input bias adjuster 12 adjusts the% load indicator 13 to indicate 100% load.

Next, the% setting switch 21 is turned on, and the same 100% set value as the% load signal (B) adjusted to 100% load by the input bias adjuster 12 is input to the arithmetic unit 20. This 100% set value is stored in the calculation unit, and when the load amount of the generator is changed by the% setter 22, for example, S ₁
→ Even when the setting is changed to S ₂ , the 100% set value is used as a reference, the ratio is calculated, and the% load set signal (A) is output. The% load setting signal A is input to the comparison circuit 24 via the D / A converter 23.

At this point, each adjustment and setting is completed, and the load test of the power generator is started.

First, the switch S ₁ of the% setter 22 is turned on.
Then, set the load test item to 25% load. Switch 2
When S _{1 of} 2 is turned on, the arithmetic circuit 20 calculates a 25% load set value based on the previously input% load set value, and outputs this signal as an analog signal by the D / A converter 23. It is converted into a signal and input to the comparison circuit 24.

On the other hand, 10 from the input bias adjuster 12
The 0% load signal B is also input to the comparison circuit 24, and the comparison circuit 24 compares the signals A and B with each other.
And B become A <B, and the deviation amount is calculated as the AND circuit 31 and P
Output to the WM circuit 26. As for the result of the signals A and B being A> B, the deviation amount is output to the logical product circuit 32 and the PWM circuit 26, and when A = B, it is not output from the comparison circuit 24.

The output signal of the comparison circuit 24 is the PWM circuit 26.
Is input to, a PWM signal matching the deviation amount is generated,
This PWM signal is synchronously adjusted by the signal period adjusting circuit 29 and output to the AND circuit 31, and the comparing circuit 24
The deviation signal is also simultaneously output from the AND circuit 31 to the AND circuit 31.
For the PWM signal, the AND circuit 31 is turned on and the AND circuit 38
The up contactor 41 is urged via the to control the hoist 54 of the water resistor (FIG. 3), and the electrode 53 is pulled up while being inching by the PWM waveform. As a result, the load that the generator bears becomes lighter, the output of the transducer decreases, the electrode 53 operates until the deviation output from the comparison circuit 24 becomes zero, and the electrode 5 moves at the position where the deviation becomes zero.
No. 3 stops, and the load of the generator stabilizes at a constant amount. In addition,
The comparison circuit 24 is provided with a dead zone adjuster 25 for preventing a slight fluctuation in load amount due to vibration of the water surface of the water resistor and vibration of the electrode 53.

When the load fluctuates due to a water temperature change or the like during constant load operation, the deviation amount from the comparison circuit 24 adjusts the load amount by the above control. Also, for example, when the% setting is changed from 25% to 50%, similar control is performed.

When the hoist 54 is slightly wound up or down, the manual step switch 35 is placed on the step side and the switch 36 or 37 outputs a one-shot pulse. When the hoist 54 is manually operated, the switch 35 is placed on the manual side and operated by the switch 36 or 37.

Second Embodiment In the first embodiment, the reference setting of the calculation unit 20 is based on the rated output value of the generator, whereas in the second embodiment, the arbitrary output value of the generator is used as the reference value. The difference from the first embodiment is that the output of the bias adjuster 12 is input to the reference setting end of the arithmetic unit 20.

In operation, the generator is first set to an arbitrary output,
% Load indicator 13 instructs% load the same% load set by selecting the same load, either of the switches S ₁ to S ₅ 1
The reference value of the load setting is determined by turning on the individual pieces. Even if the load selection is changed, the% load setting value is calculated based on the initially selected load amount, and the same operation as that of the first embodiment is performed after the% load setting signal is output after the calculation. It's something that you do.

[0027]

Since the present invention is configured as described above, it has the following effects.

(1) After setting the load, it is not necessary to manually monitor the load or operate the load adjusting electrode, and a skilled worker is not required.

(2) A stable load can be used for a long time, and accurate test data in the load test can be obtained.

(3) By using one setting / arithmetic circuit and teaching, various devices can be freely, easily set large, medium and small capacities.

(4) Since the load amount of the load after starting the generator before starting the test can be selected as an arbitrary output, the time to start the test can be greatly shortened.

(5) The moving distance of the load adjusting electrode can be set to an arbitrary distance by adjusting the ON / OFF signal width of the manufacturing circuit. I'm free.

[Brief description of drawings]

FIG. 1 is a structural explanatory view of an automatic load adjusting device according to an embodiment of the present invention.

FIG. 2 is a structural explanatory view of another embodiment.

FIG. 3 is an explanatory diagram of a configuration of a water resistor.

[Explanation of symbols]

 11 ... Amplifier 12 ... Input bias adjuster 13 ...% load indicator 14 ... Comparator 15 ... Overload alarm 20 ... Calculator 21 ...% setting switch 22 ...% setter 23 ... D / A converter 24 ... Comparison circuit 25 ... dead zone adjuster 26 ... PWM circuit 27 ... signal width adjuster 28 ... pulse generator 29 ... signal cycle adjuster 31, 32 ... AND circuit 33 ... one-shot multivibrator circuit 34 ... signal width adjuster 35 ... manual step Switching device 36, 37 ... Manual switch 38, 39 ... OR circuit 41, 42 ... Contactor 51 ... Water tank 52 ... Salt water 53 ... Electrode 54 ... Hoist

 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Katsuya Takekawa 2-17 Osaki, Shinagawa-ku, Tokyo Inside the Meidensha Co.

Claims (2)

[Claims] 1. A power generator and a variable load device load-operate the generator by burdening a certain amount of load with respect to the rated output value of the power generator, and continuously change the load ratio multiple times. Then, in the load test of the generator that measures the temperature rise value of each part of the generator, adjust the output of the generator to the rated output, convert this output value into the% load signal with the input bias regulator, and With the 100% load signal, the input bias adjuster that adjusts the% load signal so that the% load indicator indicates 100%, and the same set value as the% load value indicated by the% load indicator from the% setter. And a comparator circuit that calculates and outputs a% load setting signal of various ratios based on this% setting value, and a comparison circuit that compares the% load signal with the% load setting signal and outputs the deviation. , Deviation from this comparison circuit Automatic load balancing apparatus characterized by comprising an automatic load control circuit for increasing or decreasing control the load of said variable load device signal. 2. The power generator and the variable load device load the generator with a certain amount of load amount relative to the rated output value of the generator for load operation, and continuously change the load ratio multiple times. In the load test of the generator that measures the temperature rise value of each part of the generator, convert the arbitrary output value of the generator into a% load signal with the input bias adjuster, and use the% load as the ratio to the rated output value of the generator. An adjuster that adjusts the% load signal by the adjuster so as to match the indication of the indicator, and the same load with the same% load setting as the% load indicated by the% load indicator are selected and input to the calculation unit, A calculation unit that outputs a% load setting signal with the% load signal as a reference value and calculates a ratio based on the initially selected% load signal when the selection of the% load setting is changed; % Load signal and% load setting signal And an automatic load control circuit that controls the increase / decrease of the load amount of the variable load device by a deviation signal from the comparison circuit. .