JPS60187721A - Inverter type portable generator - Google Patents

Abstract

PURPOSE:To lower a fuel cost and to reduce noise by making an engine be operated constantly at a lowest fuel cost point irrespective of an amplitude of a load current, and by decreasing thereby a no-load set rotation speed when a partial load is applied. CONSTITUTION:When an output armature coil 1 is driven to cut the magnetic flux of a permanent magnet field pole 2 in an engine 10, a three-phase AC voltage is generated in the coil 1. This voltage is rectified by a converter 3 and then turned into a DC voltage with little pulsation by a ripple smoothing capacitor 4. The DC voltage thus obtained is converted further into an AC voltage by an inverter 5, and a necessary single-phase AC output is delivered from a terminal 6. Meanwhile, the output voltage detected by a voltage detecting transformer 7 is fed back to a control circuit 9. The output voltage is made to be unvaried constantly irrespective of a load current by an automatic voltage regulating circuit in the circuit 9, and thus an output power and an output current are in the relationship of 1:1. Accordingly, the engine 10 can be operated at a lowest fuel cost by executing a control of setting the opening of a throttle valve 11 so that the speed of rotation may correspond to the output current.

Description

[Detailed Description of the Invention] [Field of Application of the Invention] The present invention rectifies the AC output generated by a synchronous generator and further converts the DC current into AC using an inverter, which is then supplied to a load. This invention relates to an inverter type portable generator.

[Background of the invention]

Conventionally, this type of generator is often used for emergency equipment, etc., but synchronous generators are driven by a gasoline engine with a predetermined rotation speed regardless of load conditions, and the output frequency and output voltage are controlled by the inverter control circuit. controlled.

For this reason, gasoline engines operate with the same fuel consumption during partial load as when full load, resulting in wasteful fuel consumption.

[Purpose of the invention]

According to the present invention, the output voltage and output frequency of this type of generator are controlled by the inverter independently of the rotation speed of the gasoline engine, so the rotation speed of the gasoline engine can be selected independently of the output voltage and output frequency. The present invention aims to provide an inverter-type portable generator that can reduce fuel consumption by operating a gasoline engine with minimum fuel consumption.

[Summary of the invention]

The present invention is configured to detect a load current and automatically change the throttle opening of a gasoline engine so that the fuel consumption at that load current is minimized.

[Embodiments of the invention]

FIG. 1 is a block diagram showing one embodiment of the present invention.
2 is a permanent magnet field pole; 3 is a converter consisting of a rectifier 3a; 4 is an output armature wire wound around a generator armature;
is a ripple smoothing capacitor, 5 is an inverter, 6 is an output terminal, 7 is a voltage detection transformer, 8 is a rectifier, and 9 is a control circuit that controls the inverter 5, including a current limiting circuit, an automatic magnetic pressure adjustment circuit, and a sine wave Generation circuit, triangular wave generation circuit, PWM
It is composed of a modulation circuit. 10 is an engine that drives the generator 1, 11 is a throttle valve, 12 is a current transformer that detects the output current, 13 is a rectifier, 14 is a feeding motor, 15 is a rotation speed sensor, and 16 is an automatic rotation speed control circuit. be.

Next, the operation in such a configuration will be explained.

First, when the output armature coil l cuts the magnetic flux of the permanent magnet field pole 2 driven by the engine 10, a three-phase alternating current voltage is generated in the coil 1. This three-phase AC voltage is rectified by a converter 3, and then converted to a DC voltage with less ripple by a ripple smoothing capacitor 4. This DC voltage is converted to AC by an inverter 5, and the required single-phase AC power is output from an output terminal 6. On the other hand, the output voltage detected by the cardiac pressure extraction transformer 7 is rectified by the rectifier 8 and fed back to the control circuit 9. and,
Through the bottom pressure limiting circuit in the control circuit 9, it is compared with the voltage setting value set in the automatic 1 pressure regulation circuit, and the sine wave pressure of the sine wave generation circuit is controlled so that the output voltage is constant.
pWMi to inverter 5 via PWM modulation circuit
lt[Control is performed.

As a result, the output AC 4 pressure is controlled to a constant value.

FIG. 2 is a diagram showing the relationship between the output speed of the engine used in the portable A electric machine and the fuel consumption rate.

In Figure 2, a! The rotation speed is 400 with no load.
It shows the relationship between the rotation speed and the output when the load is gradually increased with the setting at 0r-. Next, B2゜B3...
・・・Similarly, the rotation speed without load is 3800 TIX
It shows the relationship between the rotational speed and the output when the rotational speed is changed sequentially from I to 3600r. Therefore, curve a1
+ aQ * 83 ””...The fuel consumption is 1000gr.
100O point A1s + A21 + Ast...
Plot the number and connect them, 1000 gr, /
An isofuel consumption curve I of 5 phr is obtained.

Similarly, point A12 + 800gr/5phr
Plot A22 +A32... and connect them to get 8o.

-gr/5phr (D equivalent fuel consumption curve ■ is obtained, similarly 400gr/Bpbr, 350gr/5ph
r, isofuel consumption curve m of 300 gr/5 phr, ■,
v is obtained.

Incidentally, the amount of fuel consumed per unit time is expressed as the sum of fuel and output. Therefore, the point with the lowest fuel consumption for the same fuel consumption is the tangent point Bl, B of the equal fuel consumption curve parallel to the horizontal axis.
2...B9*f3to. The curve 4b created by connecting these contact points B1 to BIG is a curve that sets the no-load setting rotation speed that allows operation at the minimum fuel consumption. In other words, the no-load set rotation speed for the output P1 at the point Bl is represented by the no-load point N1 of the output track 01 P t passing through the point B1'fr. Similarly, output P2
．． P3...pe I pt.

The no-load setting rotation speed for / is N2 h Ns...
...represented by N9 and Nlo. This relationship is shown in Fig. 3 as Pt, P2-...Pe*PIG
and Nl s N2 . . . Ns + Nso, respectively.

On the other hand, in the embodiment, the output pressure is always kept constant regardless of the load current by the automatic torque adjustment circuit in the control circuit 9, so there is a 1:1 correspondence between the output voltage and the output current. There is a relationship. Therefore, detection of engine output can be replaced with detection of output current. Therefore, by detecting the output current using the current transformer 13 and performing control to set the opening degree of the throttle valve 11 such that the rotation speed N corresponds to the output current IL according to the curve d in FIG. The engine 10 can be operated with the lowest fuel consumption.

That is, the curve d in FIG.
A memory storing data is provided, and the rotation speed data (Nl to Nto) corresponding to the current output current detected by the current transformer 12 is read from the memory, and the rotation speed data and the 1g1 rotation speed sensor 15 are used to The engine 10 can be operated with the lowest fuel efficiency by determining the difference between the rotation speed and the detected rotation speed and driving the throttle valve 11 via the stepping motor 14 so that the difference becomes zero.

Note that the throttle valve 11 may be driven by a DC motor equipped with an encoder.

〔Effect of the invention〕

As is clear from the above description, according to the present invention, the engine is always operated at the lowest fuel efficiency regardless of the magnitude of the load current, and therefore has the effect of reducing fuel consumption. Furthermore, since the set no-load rotation speed is lower during partial load, there is an effect that noise can also be reduced.

[Brief explanation of the drawing]

Fig. 1 is a block diagram showing one actual gun array of the present invention, Fig. 2 is a diagram showing the relationship between engine output per rotation speed and fuel consumption, 43
The figure is a diagram showing the relationship between the set no-load rotation speed and the output when the engine is operated at the lowest fuel efficiency. 1...For output,! 44 child wire wheels, 3... converter,
5... Inverter, 9... mlJIjll circuit, 1
0... Engine, 11... Throttle valve, 12
...Current transformer, 14...Stepping motor, 15.
... Rotation speed sensor, 16... Automatic rotation speed control circuit. Agent: Patent attorney Tatsuyuki Unuma, Figure 2, J.

Claims (1)

[Claims] 1. A synchronous generator driven by a gasoline engine, a rectifier circuit that converts quadrature pressure for the synchronous generator into a DC voltage, an inverter that converts the output voltage of the rectifier circuit into an AC voltage, and an inverter. An inverter-type portable generator equipped with a control circuit that controls an output voltage to a predetermined voltage, a current transformer that detects the output current of the inverter, a rotation speed detector that detects the rotation speed of the gasoline engine; , comprising a valve opening control means for adjusting a throttle valve opening of the gasoline engine, and a memory storing rotation data that minimizes the fuel consumption of the gasoline engine with respect to the output current of the inverter under various load current conditions. , the rotation speed data for the current load current condition is determined by the current transformer output signal, and the valve is adjusted once so that the rotation speed of the gasoline engine detected by the rotation speed detector becomes a value corresponding to this rotation speed data. An inverter type portable generator comprising a rotation speed control circuit that drives a control means. 2. The inverter type portable generator as set forth in claim 1, wherein the valve opening control means is constituted by a stepping motor. 3. The inverter-type portable generator according to claim 1, wherein the valve opening control means is constituted by a DC motor having an encoder.