CN220913522U - Remote control circuit of three-fuel generator - Google Patents

Abstract

The utility model discloses a control circuit for remote control of a three-fuel generator, which comprises a wireless remote control module, an ATS socket, a one-key start-stop button and a multifunctional display instrument, wherein the ATS socket is used for being connected with a mains supply; the multifunctional display instrument is respectively and electrically connected with the inversion controller, the starting mechanism and the wireless remote control module, the inversion controller is electrically connected with the output socket through the voltage change-over switch, and the output socket comprises a double-voltage four-hole socket, a double-connection AC socket and a parallel socket which are connected in parallel. The utility model realizes the remote control of the three-fuel generator.

Description

Remote control circuit of three-fuel generator

Technical Field

The utility model relates to the technical field of generator control panels, in particular to a control circuit for remote control of a three-fuel generator.

Background

In the field of generators, the existing generators mainly comprise a gas generator set, a gasoline generator set, a diesel generator set, a solar generator set, a wind generator set, a hydroelectric generator set and a coal-fired generator set. Due to energy problems, dual-fuel generators are currently developed, but in the existing three-fuel generators, the following problems also exist:

1. When the fuel gas is not supplied sufficiently or can not be supplied in time, the utility power can not be used, so that the power supply is temporarily interrupted.

2. The operation of the dual-fuel generator can only be carried out on the control panel, and an operator can only operate through the control panel before operating, so that the inconvenience of operation is increased to a certain extent.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides a control circuit for remote control of a three-fuel generator, which is used for remote operation control, has various power supply modes and is adjustable in voltage.

The technical scheme of the utility model is as follows:

The control circuit comprises a starting mechanism, an accelerator stepping motor, an air door stepping motor, a flameout switch, a gas change-over switch and an inversion controller, wherein the input end of the inversion controller is respectively connected with a reset switch and an idle switch, the output end of the inversion controller is respectively connected with the accelerator stepping motor and an output socket, the gas change-over switch is externally connected with the three-fuel change-over switch, the control circuit further comprises a wireless remote control module, an ATS socket, a one-key start-stop button and a multifunctional display instrument, the ATS socket, the one-key start-stop button, the flameout switch, the starting mechanism and the gas change-over switch are electrically connected with the wireless remote control module; the multifunctional display instrument is respectively and electrically connected with the inversion controller, the starting mechanism and the wireless remote control module, the inversion controller is electrically connected with the output socket through the voltage change-over switch, and the output socket comprises a double-voltage four-hole socket, a double-connection AC socket and a parallel socket which are connected in parallel.

Further, the multifunctional display instrument also comprises an LED lamp, and the wireless remote control module and the multifunctional display instrument are respectively and electrically connected with the LED lamp.

Further, the reset switch and the idle switch are respectively and electrically connected with the multifunctional display instrument.

Further, the air door stepping motor and the cylinder temperature sensor are respectively and electrically connected with the wireless remote control module and are used for remotely controlling the air door stepping motor to act according to the temperature of the oil cylinder acquired by the cylinder temperature sensor.

Further, the output socket further comprises a parallel duplex AC socket and a parallel socket.

Further, the dual-voltage four-hole socket comprises a first AC socket and a third AC socket, the dual-connection AC socket is a second AC socket, two third thermal protectors are connected in series on the first AC socket, a second thermal protector is connected in series on the second AC socket, and the third AC socket is electrically connected with a circuit breaker.

Further, waterproof caps are covered on the first AC socket, the second AC socket, the third AC socket and the parallel connection socket.

Further, the device also comprises a CO alarm device, wherein the CO alarm device is electrically connected with the starting mechanism and is used for giving an alarm when detecting that carbon monoxide exceeds a preset value range.

Further, the power supply device further comprises a charging socket, wherein the charging socket is electrically connected with the flameout switch and the battery of the starting mechanism through diodes respectively.

The technical scheme has the following beneficial effects:

The utility model is used for being connected with the mains supply through the ATS socket, and when the mains supply fails, the ATS socket is automatically switched to the generator to generate electricity, so that the influence of power interruption on the normal operation of electric equipment is avoided. The remote control automatic control of the generator is realized through the wireless remote control module, and the operation is more convenient. When the fuel gas is not supplied sufficiently or can not be supplied in time, the wireless remote control module is used for remotely controlling the fuel gas change-over switch to realize the mutual conversion power generation of three fuel. The inverter controller is electrically connected with the output socket through a voltage change-over switch, and can realize the mutual switching of different voltages through the voltage change-over switch, so that the application range is enlarged.

The CO alarm device prevents the timely alarm when the carbon monoxide amount generated by the fuel generator in the working process of the closed space exceeds the preset range, and avoids the occurrence of carbon monoxide poisoning.

By additionally arranging the LED lamp, the generator can provide a lighting function when being used at night.

The charging socket is electrically connected with the flameout switch and the battery of the starting mechanism through the diode respectively, and charges the generator and the flameout switch through the charging socket.

Further description is provided below with reference to the drawings and detailed description.

Drawings

Fig. 1 is a schematic circuit diagram of the present utility model.

Detailed Description

Referring to fig. 1, a control circuit for remote control of a three-fuel generator comprises a generator winding, a starting mechanism, an accelerator stepping motor, an air door stepping motor, a wireless remote control module, an inverter controller, a control panel body and a panel rear cover, wherein a one-key start-stop button, a multifunctional display instrument, an ATS socket, a gas change-over switch, a flameout switch, a charging socket, a grounding bolt and the like are arranged on the control panel body, the multifunctional display instrument adopts a multifunctional liquid crystal display instrument, and the gas change-over switch is externally connected with the three-fuel change-over switch. The starting mechanism comprises a starting motor, a starting relay, a spark plug, an igniter, a tamper-proof device, an engine oil sensor, an engine oil alarm, a cylinder temperature sensor, a fuel oil electromagnetic valve, a battery and the like, wherein the cylinder temperature sensor adopts a temperature sensor and is used for detecting the temperature of an oil cylinder. The charging socket is respectively and electrically connected with the flameout switch and the battery of the starting mechanism through a diode SR10100, and when the voltage of the battery is not satisfied, the charging socket supplies power to the battery and the flameout switch after the rectification of the diode.

The input end of the inversion controller is electrically connected with the generator winding, the reset switch and the idle switch respectively, the generator winding comprises a first main winding, a second main winding, a direct current winding, an oil control winding and an auxiliary winding, and the auxiliary winding, the first main winding and the second main winding are electrically connected with the input end of the inversion controller respectively and are converted into alternating current through the inversion controller. The direct current winding is electrically connected with pins FS of the direct current socket DC, the ATS socket electricity and the flameout switch through a direct current voltage stabilizing module, the direct current socket DC adopts a cigar lighter socket, the cigar lighter socket adopts/120V/240V/60 HZ/cigar lighter, a first thermal protector is connected in series on the direct current voltage stabilizing module, the first thermal protector adopts an 8A thermal protector, and the first thermal protector ensures 12V direct current output. The oil control winding is respectively and electrically connected with the flameout switch, the starting relay of the starting mechanism and the wireless remote control module through the PTC thermistor and the charging module EC1603 in sequence to supply power for the starting mechanism, the flameout switch and the wireless remote control module.

The reset switch is used for realizing normal operation of the generator under the overload condition, and the idle switch is used for saving energy.

The output end of the inversion controller is respectively and electrically connected with the throttle stepping motor and the output socket, and outputs alternating current for the throttle stepping motor and the output socket.

Possibly, the inverter controller is electrically connected with the output socket through a voltage change-over switch, the voltage change-over switch can adjust the mutual conversion of the alternating current voltage 125V and the alternating current voltage 250V output by the inverter controller, the voltage change-over switch adopts a ship type 30A voltage change-over switch, the output socket comprises a parallel double-voltage four-hole socket, a duplex socket AC socket and a parallel socket, and the parallel socket is used for combining two generators together to increase the power of electricity. The dual-voltage four-hole socket comprises a first AC socket and a third AC socket, and the duplex AC socket is a second AC socket. In this embodiment: the AC power supply comprises a first AC socket, two second AC sockets and a third AC socket, wherein the first AC sockets are respectively connected with two third thermal protectors in series, each second AC socket is connected with a second thermal protector in series, the second sockets adopt GFCI sockets, the second thermal protectors adopt 20A thermal protectors, and 12V AC output is ensured through the second thermal protectors. The first AC outlet adopts American L14-30 four-hole outlet 125V/250V/30A, and the third thermal protector adopts 30A thermal protector. The third AC socket adopts American L14-50 four-hole socket 125V/250V/50A, and is electrically connected with a breaker for leakage overload protection. Waterproof caps are covered on the first AC socket, the second AC socket, the third AC socket and the parallel connection socket.

The wireless remote control module adopts a one-key wireless remote controller, and the specific embodiment adopts: the QY-1XC-A006 module has a remote control distance of greater than 50 meters. The wireless remote control module is respectively and electrically connected with an ATS socket, a one-key start-stop button, a flameout switch, a fuel solenoid valve of a starting mechanism, a starting relay of the starting mechanism, an LED lamp, a gas change-over switch, an air door stepping motor and a cylinder temperature sensor, wherein the ATS socket adopts an aviation socket, one path of the ATS socket is electrically connected with the one-key start-stop button, the ATS socket is controlled by the one-key start-stop button, one path of the ATS socket is electrically connected with the wireless remote control module, and remote control is carried out. The ATS socket is used for being connected with the mains supply to provide the mains supply, the ATS socket can be started under the condition that the mains supply is not available, and the ATS socket is automatically stopped under the condition that the mains supply is available, so that the generator is started to supply power. The fuel gas change-over switch is externally connected with a three-fuel change-over switch and is used for realizing the mutual switching of the fuel gas, the fuel oil, the liquefied petroleum gas and the liquefied natural gas of the generator so as to realize flexible selection according to actual conditions before power generation, and the fuel gas change-over switch is switched on to be in a fuel gas state and is switched off to be in a fuel oil state. The wireless remote control module is used for remotely controlling the one-key start-stop button and the flameout switch to control the start mechanism to start and stop actions; the automatic switching device is used for remotely controlling the gas switching switch to mutually switch three fuels and remotely controlling the ATS socket to mutually and automatically switch a generator and commercial power; and the air door stepping motor is used for remotely controlling the air door stepping motor according to the temperature of the oil cylinder acquired by the cylinder temperature sensor.

The multifunctional display instrument is respectively and electrically connected with the reset switch, the idle switch, the engine oil alarm of the starting mechanism, the wireless remote control module and the output end of the inversion controller, and is used for displaying control information, gas switching information, mains supply information, reset information, idle information and engine oil alarm information of the starting mechanism through the multifunctional display instrument. The control information of the starting mechanism comprises starting state indicator lamp information, running state indicator lamp information, stopping state indicator lamp information, overload state indicator lamp information and the like.

The multifunctional remote control device is characterized by further comprising an LED lamp, wherein the LED lamp is electrically connected with an LED lamp switch, the wireless remote control module and the multifunctional display instrument are respectively electrically connected with the LED lamp, and the multifunctional remote control device is used for illuminating at night when used outdoors.

Possibly, the device also comprises a CO alarm device, wherein the CO alarm device is electrically connected with the starting mechanism and is used for giving an alarm when detecting that carbon monoxide exceeds a preset value range. The CO alarm device comprises a CO alarm and an alarm indicator lamp, one path of the CO alarm is electrically connected with the alarm indicator lamp, and the other path of the CO alarm is electrically connected with the tamper-proof device of the starting mechanism. The CO alarm lamp is used indoors, gives an alarm prompt when the carbon monoxide is too high, and automatically closes the starting motor to prevent carbon monoxide poisoning.

Claims (8)

1. The utility model provides a three fuel generator remote control's control circuit, includes actuating mechanism, throttle step motor, air door step motor, flameout switch, gas change over switch and inverter controller, be connected with reset switch and idle speed switch on inverter controller's the input respectively, be connected with throttle step motor and output socket on inverter controller's the output respectively, the external three fuel change over switch of gas change over switch, its characterized in that: the wireless remote control module is electrically connected with the ATS socket, the one-key start-stop button, the flameout switch, the starting mechanism and the gas switching switch respectively; the multifunctional display instrument is respectively and electrically connected with the inversion controller, the starting mechanism and the wireless remote control module, the inversion controller is electrically connected with the output socket through the voltage change-over switch, and the output socket comprises a double-voltage four-hole socket, a double-connection AC socket and a parallel socket which are connected in parallel.

2. The control circuit for remote control of a three-fuel generator of claim 1, wherein: the multifunctional display instrument further comprises an LED lamp, and the wireless remote control module and the multifunctional display instrument are respectively and electrically connected with the LED lamp.

3. The control circuit for remote control of a three-fuel generator of claim 1, wherein: and the reset switch and the idle switch are respectively and electrically connected with the multifunctional display instrument.

4. The control circuit for remote control of a three-fuel generator of claim 1, wherein: the air door stepping motor and the cylinder temperature sensor are respectively and electrically connected with the wireless remote control module.

5. The control circuit for remote control of a three-fuel generator of claim 1, wherein: the double-voltage four-hole socket comprises a first AC socket and a third AC socket, the double-connection AC socket is a second AC socket, two third thermal protectors are connected in series on the first AC socket, a second thermal protector is connected in series on the second AC socket, and the third AC socket is electrically connected with a circuit breaker.

6. The control circuit for remote control of a three-fuel generator of claim 5, wherein: waterproof caps are covered on the first AC socket, the second AC socket, the third AC socket and the parallel connection socket.

7. The control circuit for remote control of a three-fuel generator of claim 1, wherein: the device also comprises a CO alarm device, wherein the CO alarm device is electrically connected with the starting mechanism and is used for giving an alarm when detecting that carbon monoxide exceeds a preset value range.

8. The control circuit for remote control of a three-fuel generator of claim 1, wherein: the charging socket is electrically connected with the flameout switch and the battery of the starting mechanism through the diode respectively.