JP2002054494A - Remote control system for engine electric generator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a remote control system for an engine electric generator remotely controllable with a wireless remote controller. SOLUTION: This remote control system for the engine electric generator is equipped with an engine electric generator 1; a relay terminal 3 connected to an output line of the engine dynamo 1; and a remote controller 4 conducting radio communication with the relay terminal 3, and the engine electric generator 1 and the remote controller 4 conduct bi-directional communication of a remote control signal through the relay terminal 3. The engine electric generator 1 and the relay terminal 3 transmit and receive the remote control signal with a power-line carrier utilizing the output line. The remote control signal contains a control code, and a start code for starting the engine electric generator 1; a stop code for stopping the engine electric generator 1; and an operational state code for representing the operational state of the engine electric generator 1, and the like are registered in the control code.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an engine generator remote control system in which an engine generator is remotely controlled by a remote controller, and more particularly to an engine for transmitting and receiving a remote control signal using an output line of the engine generator. The present invention relates to a remote control system for a generator.

[0002]

2. Description of the Related Art In a conventional engine generator incorporating a generator driven by an engine, a remote control box is connected to a main body of the engine generator via a remote control cable of about 10 meters. The remote control box includes an engine switch for turning on the main power of the engine, a start button for driving the starter motor to crank the engine, and a pilot lamp for indicating that the engine generator is operating. By operating this remote control box, remote control of the engine generator becomes possible.

[0003]

In some cases, an engine generator is used after being moved to a position where an electric device to be supplied with electric power is arranged.
If the cables are connected by cables, there is a problem that the remote control cable obstructs movement of the engine generator.

[0004] Further, in the engine generator, not only the plug of the electric device is directly attached to the plug socket provided in the main body thereof, but also the plug of the extension outlet is inserted into the plug socket. In some cases, power is supplied to electrical equipment far away from the device via an extension outlet. However, in a situation where an extension outlet is used, there is a problem that remote control cannot be performed unless the remote control cable is similarly extended.

Further, in the prior art, even if an abnormality occurs in the engine generator, it cannot be recognized by the remote control box. Therefore, when the operator operating the remote control box is in a place where the engine generator cannot be seen, there is a problem that the abnormality of the engine generator cannot be quickly recognized.

An object of the present invention is to solve the above-mentioned problems of the prior art and to provide a remote control system of an engine generator excellent in handling and mobility.

[0007]

To achieve the above object, the present invention provides an engine generator, a relay terminal connected to an output line of the engine generator, and a remote controller for wirelessly communicating with the relay terminal. A remote control system for the engine generator, wherein the engine generator and the remote controller bi-directionally communicate a remote control signal via the relay terminal, wherein the engine generator and the relay terminal Signals are transmitted and received by power line carrier using the output line.

[0008] According to the above-described feature, since the remote controller and the relay terminal perform wireless communication, a remote controller cable is not required. In addition, since the engine generator and the relay terminal use the output line of the engine generator to transmit and receive a remote operation signal, a dedicated code for transmitting and receiving the remote operation signal is provided between the engine generator and the relay terminal. Need not be prepared separately. Further, since the wireless communication section is limited to a short distance between the remote controller and the relay terminal, the wireless communication function can be realized simply and inexpensively.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail with reference to the drawings. FIG. 1 is a block diagram of a remote control system for an engine generator according to an embodiment of the present invention.

[0010] The engine generator 1 includes an engine and a generator driven by the engine, and an output line (power line) of the generator is connected to an outlet 1.
32. The electrical equipment 5 can be directly connected to the plug-in outlet 132, and the extension outlet 2 can be connected to the plug-in outlet 132.

The extension outlet 2 is used for supplying generated electric power to an electric device 6 arranged at a position distant from the engine generator 1. The insertion plug 37 of the relay terminal 3 can be attached to the extension outlet 2.
The relay terminal 3 transmits and receives a remote operation signal transmitted and received between the engine generator 1 and the remote controller 4 by wireless communication with the remote controller 4 and transmits and receives a remote operation signal to and from the engine generator 1 by power line carrier using a power line.

FIG. 2 is a block diagram showing a configuration of a main part of the engine generator 1.
U (engine control unit) 11, a control panel 13, an auto choke 101 for controlling an air-fuel ratio of fuel gas supplied to an engine (not shown), a temperature sensor 102 for detecting engine temperature, and a liquid level of engine oil. An oil level switch 103 for detecting the level, an auto cock 104 for supplying fuel to the engine, and a fuel cut solenoid 105 for shutting off fuel supply to the engine
And the starter motor 106 for cranking the engine
And a battery 107 for supplying drive power to the starter motor 106, and a generator 108 driven by an engine.

The control panel 13 includes a dip switch (4 bits) 131 for setting an address, a plug socket 132 to which a plug of an electric device is mounted,
Green and red light emitting diodes (LEDs) 133G, 133R indicating the operating state of the engine generator 1, a remote control changeover switch 134 for permitting or prohibiting remote operation by the remote control 4, and the starter motor 106
And a start switch 135 for driving the motor.

The CPU 12 modulates a remote operation signal transmitted to the remote controller 4 and extracts a modulation circuit 121 superimposed on the output line 14 via a transmission circuit 116 and extracts a remote operation signal superimposed on the output line 14. Detection circuit 1
22.

The ECU 11 includes a power supply 113 for converting a battery voltage to a logic voltage, a rotation speed detection circuit 114 for detecting an engine rotation speed,
A charging circuit 112 for charging a part of the output of the battery 107 to the battery 107;
A drive circuit 115 for driving 3G, 133R;
And a drive circuit 111 for driving the start motor 106 in response to a drive command from the CPU 12.

FIG. 3 shows the relay terminal 3 and the remote controller 4.
3 is a block diagram showing a configuration of a main part of FIG.

The relay terminal 3 has a receiving function of receiving a signal component superimposed on the generated power on the power line 36 and a transmitting function of superimposing a remote control signal on the generated power on the power line 36 and transmitting the signal by power line carrier. Transmitting and receiving circuit 31;
A detection / modulation circuit unit 32 having a detection function of extracting a remote control signal from the signal component received by the transmission / reception circuit 31 and a modulation function of modulating binary data transmitted from the CPU 33 into a remote control signal; It comprises a receiving unit 34 and a transmitting unit 35 for performing wireless communication with the CPU, and a CPU 33 including a detecting unit 331 and a modulating unit 332.

The remote controller 4 includes a CPU 40 including a modulating unit 401 and a detecting unit 402, and green and red light emitting diodes (LE) indicating the operating state of the engine generator 1.
D) 41G, 41R, a drive circuit 42 for driving each of the light emitting diodes 41, an operation button 43 for starting the engine generator 1, a stop button 44 for stopping the engine generator 1, and a main power switch of the remote controller 4. 4
5 and a dip switch for address setting (4 bits)
46, a power supply (dry battery) for supplying power to each unit of the remote controller 4, a transmitting unit 48 for transmitting a remote operation signal generated by the CPU 40, and a receiving unit 49 for receiving a remote operation signal transmitted from the relay terminal 3. including.

FIG. 4 is a diagram showing a format of a remote control signal transmitted from the remote controller 4 to the engine generator 1.

In this embodiment, the remote control signal is composed of 8 bits, and an address code (“0101” in this embodiment) for specifying the engine generator 1 to be operated is registered in the upper 4 bits. You. In the lower 4 bits,
For example, a start code “0001” and a stop code “0010” are registered as control codes for the engine generator 1.

In the remote control system having such a configuration, the operator operates the operation button 4 of the wireless remote controller 4.
When the user presses the button 3, the CPU 40 sets the start code "0001".
And the address code set by the DIP switch to generate a remote control signal (FIG. 4). The remote control signal is frequency-modulated by the modulator 401 and then transmitted from the transmitter 48. This remote control signal is received by the receiving unit 34 of the relay terminal 3 and is further detected by the detecting unit 331 of the CPU 33. The remote control signal detected by the CPU 33 is modulated by the detection / modulation circuit section 32, is superimposed on the generated power on the power line 36 in the transmission / reception circuit section 31, and is conveyed to the power line via the extension outlet 2.

In the engine generator 1 (FIG. 2), the power line 1
4 is a signal line segment of the remote control signal superimposed on ECU1.
1 and is detected by the detection unit 122 of the CPU 12. The CPU 12 determines the address code of the detected remote operation signal and the DIP switch 13.
The remote control signal is compared with the address code of the own device set in step 1 and if they match, the instruction code registered in the remote operation signal is interpreted, and control according to the instruction code is executed.

Further, the CPU 12 superimposes the detected remote control signal on the generated power via the modulation section 121 and the transmission section 116, and returns it by power line carrier. The remote control signal is transmitted to the wireless remote controller 4 on the reverse path. When receiving the signal transmitted by the wireless remote controller 4 itself, the wireless remote controller 4 recognizes that the current remote operation has been normally transmitted to the engine generator 1. If the wireless remote controller 4 does not detect the return of the remote control signal after a predetermined time has elapsed after the transmission of the remote control signal, it retransmits the remote control signal.

When the engine generator 1 starts operating normally in response to the remote operation by the remote controller 4, it registers a control code to that effect in a remote operation signal and transmits it together with its own address code. The remote controller 4 that has received the remote operation signal determines that the engine generator 1 is operating normally and turns on the green LED 41G.

On the other hand, when a shortage of oil occurs in the running engine generator 1 and the detection contact of the oil level switch 103 is closed, the operation status code (for example, 4 bits) representing the content of the abnormality is added to the DIP switch. The address code of the own device set by 131 is added, and the wireless remote controller 4 is notified by power line transfer in the same manner as described above.

When the wireless remote controller 4 receives a remote control signal addressed to itself including the abnormal code, the wireless remote controller 4 controls the driving of the green LED 41G and the red LED 41R according to the details of the abnormality of the engine generator 1 represented by the abnormal code. I do.

FIG. 5 shows the details of the abnormality that has occurred in the engine generator 1, the operating state of the engine generator 1 when the abnormality has occurred,
Each LE of the engine generator 1 and the wireless remote controller 4
It is the figure which showed the relationship with the state of D133G, 133R (41G, 41R).

Oil shortage occurs in the engine generator 1,
When the detection contact of the oil level switch 103 is closed,
The engine generator 1 stops operating, and each green LED 133
G and 41G are turned off, and the red LEDs 133R and 41R are turned on. When the temperature of the engine generator 1 rises and the temperature sensor 102 detects a temperature of 250 ° C. or higher, the operation of the engine generator 1 is stopped, and the green LEDs 133G and 41 are turned off.
G turns off, and each of the red LEDs 133R and 41R repeats turning on / off at a cycle of 1 second.

If a complete explosion is not detected despite the fact that the engine has been cranked a predetermined number of times by the starter motor 106 for a predetermined time, the engine generator 1 stops restarting, and the green LEDs 133G and 41G are turned off. Each of the red LEDs 133R and 41R is repeatedly turned on / off at a cycle of 0.5 seconds. When the engine stall is detected, the engine generator 1 stops operating and the green LEDs 133
G and 41G are turned off, and each of the red LEDs 133R and 41R is repeatedly turned on / off at a 0.5 second cycle.

When an overcurrent of the auto cock solenoid 104 or the fuel cut solenoid 105 is detected and it is determined that the auto cock is abnormal or the fuel cut is abnormal, the engine generator 1 stops operating and the green LEDs 133 are turned off.
G and 41G are turned off, and each of the red LEDs 133R and 41R alternately turns on / off at a cycle of 1 second and turns on / off at a cycle of 0.5 second.

If the battery voltage Vbatt is 16 V or more, or 7 V or less when the starter motor 106 is not operating, and it is determined that the battery is abnormal, the engine generator 1 stops operating and the green LEDs 133G and 41G are turned off. Each of the red LEDs 133R and 41R alternately repeats lighting / extinguishing in a 1 second cycle and lighting / extinguishing in a 0.5 second cycle.

[0032]

According to the present invention, the following effects are achieved.

(1) Since the remote controller and the relay terminal perform wireless communication, no remote control code is required. Since the engine generator and the relay terminal communicate using the power line of the engine generator, a relay code is separately prepared. No need. Therefore, a remote control code and a relay code are not required, and the handling and mobility of the engine generator are improved.

(2) Since the remote control signal transmitted and received between the engine generator and the remote controller includes an address code for specifying a communication partner, only the engine generator to be operated can be selectively remotely controlled. Become like

(3) The engine generator returns this in response to the reception of the remote control signal, and the remote control retransmits the remote control signal if it cannot confirm the return of the remote control signal.
Remote control of the engine generator can be ensured.

(4) The remote control detects an abnormal signal sent from the engine generator and displays an abnormal state. Therefore, even if the operator who operates the remote control cannot see the engine generator, the remote controller can operate the engine generator. Abnormalities can be quickly recognized.

[Brief description of the drawings]

FIG. 1 is a block diagram of a remote control system for an engine generator according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of a main part of the engine generator.

FIG. 3 is a block diagram showing a configuration of a relay terminal and a remote controller.

FIG. 4 is a diagram showing a format of a remote control signal.

FIG. 5 is a diagram for explaining an abnormality notification function of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Engine generator, 2 ... Extension outlet, 3 ... Relay terminal, 4 ... Remote control, 5, 6 ... Electric equipment

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) F02B 63/04 F02B 63/04 F H04Q 9/00 301 H04Q 9/00 301B 311 311S F-term (Reference) 3G084 AA06 BA00 BA28 BA33 CA01 CA07 DA03 DA14 DA27 EB02 EB06 EB07 EC01 FA00 FA36 5K048 AA04 BA42 DA01 DB01 DC01 DC06 EA18 EB01 EB02 EB03 EB08 FB04 FB05 FB15

Claims (6)

[Claims] An engine generator, a relay terminal connected to a power generation line of the engine generator, and a remote controller that wirelessly communicates with the relay terminal, wherein the engine generator and the remote controller control the relay terminal. A remote control system for an engine generator that bidirectionally communicates a remote control signal through the engine generator and the relay terminal, wherein the engine generator and the relay terminal transmit and receive the remote control signal by power line carrier using the generated power line. Engine generator remote control system. 2. The remote control signal functions as one of a start signal for starting the engine generator, a stop signal for stopping the engine generator, and a notification signal for notifying an operation state of the engine generator. The remote control system for an engine generator according to claim 1. 3. The remote control system according to claim 1, wherein the remote control signal includes an address code for specifying a communication partner and a control code for controlling the communication partner. 4. The control code is one of a start code for starting the engine generator, a stop code for stopping the engine generator, and an operation status code for notifying an operation status of the engine generator. The remote control system for an engine generator according to claim 3. 5. The engine generator returns a reception acknowledgment signal in response to receiving the remote operation signal, and the remote controller, if it cannot confirm the return of a response signal to the transmission of the remote operation signal, the remote operation The remote control system for an engine generator according to claim 1, wherein the signal is retransmitted. 6. The engine generator detects an abnormality of the engine generator and transmits a remote operation signal including information on the abnormal state to a remote controller, and the remote controller transmits a remote operation signal transmitted from the engine generator to the remote controller. 2. The remote control system for an engine generator according to claim 1, wherein an abnormal display is performed in response to the abnormal situation in response.