CN204886676U - Photo -electric control circuit of electromagnetic force engine driven device - Google Patents

Abstract

The utility model discloses a photo -electric control circuit of electromagnetic force engine driven device to four current engines are the example, and the dead point of different generators is different, including drive circuit, the last pin 2 that is equipped with of drive circuit, pin 3, pin 4 and pin 5, pin 3 is connected with electromagnetic induction coil U1 and electromagnetic induction coil U4 through first amplifier, pin 5 is connected with electromagnetic induction coil U2 and electromagnetic induction coil U3 through the second amplifier, electromagnetic induction coil U1, electromagnetic induction coil U2, input power supply circuit and ground connection are connected respectively to another wiring end of electromagnetic induction coil U3 and electromagnetic induction coil U4, the export power supply circuit is connected through an optoelectronic coupler to pin 2, the export power supply circuit is connected through the 2nd optoelectronic coupler to pin 4, be equipped with the blanking disk between an optoelectronic coupler and the 2nd optoelectronic coupler, wear to be equipped with a main shaft in the middle of the blanking disk, there are two to switch on the district on the blanking disk. The utility model discloses simple structure, control convenience.

Description

A kind of photoelectric control circuit of electric magnetic engine drive unit

Technical field

The utility model relates to engine apparatus, particularly a kind of photoelectric control circuit of electric magnetic engine drive unit.

Background technology

At present, the control mode of existing electric magnetic engine drive unit is controlled by electromagnetic switch, control mode is as follows: after turning on the power switch, described first drives the electromagnetic induction coil of cylinder body and four-wheel drive cylinder body to produce magnetic field, drive magnet core moves up and down, the second driving cylinder body and the 3rd is driven to drive the electromagnetic core on cylinder body to move up and down by piston pin rotation corresponding to connecting rod driver output bent axle, when output crank shaft rotates 180 °, first drives the electromagnetic core of cylinder body and four-wheel drive cylinder body to reach top dead centre, second drives cylinder body and the 3rd to drive the electromagnetic core on cylinder body to reach lower dead center, electromagnetic switch back of the body top is to another side, one of them contact in two electromagnetic switch drives the tactile ring of cylinder body and four-wheel drive cylinder body to disconnect with first respectively, another one contact in two electromagnetic switch drives cylinder body and the 3rd to drive the tactile ring on cylinder body to be connected respectively with second, the electromagnetic induction coil magnetic field dissipate of the first driving cylinder body and four-wheel drive cylinder body, second drives cylinder body and the 3rd to drive the electromagnetic induction coil on cylinder body to produce magnetic field, second drives cylinder body and the 3rd to drive the electromagnetic core on cylinder body to move upward, first drives the electromagnetic core of cylinder body and four-wheel drive cylinder body to move downward, output crank shaft rotating 360 degrees, next circulation starts.

Above-mentioned control mode has following deficiency: coil electricity leans on the Mechanical Contact of the contact in bistable remote control and tactile ring to complete, the mechanical wear produced under long-time running can affect contact precision, control characteristic is caused to decline, even there is " dead contact phenomenon ", because operating voltage is higher, Mechanical Contact easily produces electric spark, cause the phenomenon of short circuit or electric leakage, in addition, during motor driven, the electromagnet of inactive state generally can not be parked in top dead centre, thus needing could by contact point and the energising of contact ring connecting coil by exterior power, such control becomes dumb.

Utility model content

This purpose of this utility model is the above-mentioned defect for prior art, provides the photoelectric control circuit that a kind of structure is simple, control electric magnetic engine drive unit easily.

For solving the above-mentioned defect of prior art, the technical scheme that the utility model provides is: a kind of photoelectric control circuit of electric magnetic engine drive unit, comprise drive circuit, described drive circuit is provided with pin 2, pin 3, pin 4 and pin 5, pin 3 is connected with electromagnetic induction coil U1 and electromagnetic induction coil U4 by the first amplifier, pin 5 is connected with electromagnetic induction coil U2 and electromagnetic induction coil U3 by the second amplifier, described electromagnetic induction coil U1, electromagnetic induction coil U2, electromagnetic induction coil U3 is connected input power circuit and ground connection respectively with another terminals of electromagnetic induction coil U4, described pin 2 connects output power supply circuit by the first photoelectrical coupler, described pin 4 connects output power supply circuit by the second photoelectrical coupler, blanking disc is provided with between described first photoelectrical coupler and the second photoelectrical coupler, a main shaft is equipped with in the middle of described blanking disc.

One as the photoelectric control circuit of the utility model electric magnetic engine drive unit is improved, and described output power supply circuit is provided with switch J, and described switch J connects power supply by resistance R.

One as the photoelectric control circuit of the utility model electric magnetic engine drive unit is improved, and described input power circuit is provided with DC power supply and master switch, and the positive pole of described DC power supply connects the collector electrode electrical connection of the first amplifier and the second amplifier.

One as the photoelectric control circuit of the utility model electric magnetic engine drive unit is improved, the emitter of described first amplifier is electrically connected with described electromagnetic induction coil U1 and electromagnetic induction coil U4, and the emitter of described second amplifier is electrically connected with described electromagnetic induction coil U2 and electromagnetic induction coil U3.

One as the photoelectric control circuit of the utility model electric magnetic engine drive unit is improved, described first photoelectrical coupler and the second photoelectrical coupler produce certain melody signal of telecommunication by the blanking disc be arranged on electric machine main shaft, drive the first amplifier and the second amplifier, control the break-make of governor circuit respectively, make electromagnetic induction coil U1 and electromagnetic induction coil U4, electromagnetic induction coil U2 and electromagnetic induction coil U3 break-make according to certain rules, make electromagnetic core produce electromagnetic actuation force, thus make main shaft outputting power.

Compared with prior art, the utility model has the advantages that: the utility model adopts blanking disc, first photoelectrical coupler and the second photoelectrical coupler produce certain melody signal of telecommunication by the blanking disc be arranged on electric machine main shaft, drive the first amplifier and the second amplifier, control the break-make of governor circuit respectively, make electromagnetic induction coil U1 and electromagnetic induction coil U4, electromagnetic induction coil U2 and electromagnetic induction coil U3 break-make according to certain rules, electromagnetic core is made to produce electromagnetic actuation force, thus make main shaft outputting power, this control mode can make whole control inputs Untouched control, eliminate machine error, control circuit have employed power electronic controller part of good performance, there is good stability characteristic (quality).

Accompanying drawing explanation

Fig. 1 is the utility model circuit controling drawing.

Reference numeral title: 1, drive circuit 6, first amplifier 7, second amplifier 8, input power circuit 9, first photoelectrical coupler 10, second photoelectrical coupler 11, output power supply circuit 12, blanking disc 13, main shaft 14, DC power supply 15, master switch.

Embodiment

Just with reference to the accompanying drawings the utility model is further described below.

As shown in Figure 1, a kind of photoelectric control circuit of electric magnetic engine drive unit, comprise drive circuit 1, drive circuit 1 is provided with pin 2, pin 3, pin 4 and pin 5, pin 3 is connected with electromagnetic induction coil U1 and electromagnetic induction coil U4 by the first amplifier 6, pin 5 is connected with electromagnetic induction coil U2 and electromagnetic induction coil U3 by the second amplifier 7, electromagnetic induction coil U1, electromagnetic induction coil U2, electromagnetic induction coil U3 is connected input power circuit 8 and ground connection respectively with another terminals of electromagnetic induction coil U4, pin 2 connects output power supply circuit by the first photoelectrical coupler 9, pin 4 connects output power supply circuit 11 by the second photoelectrical coupler 10, blanking disc 12 is provided with between first photoelectrical coupler 9 and the second photoelectrical coupler 10, a main shaft 13 is equipped with in the middle of blanking disc 12.

Preferably, output power supply circuit 11 is provided with switch J, and switch J connects power supply by resistance R.

Preferably, input power circuit 8 is provided with DC power supply 14 and master switch 15, and the positive pole of DC power supply 14 connects the collector electrode electrical connection of the first amplifier 6 and the second amplifier 7.

Preferably, the emitter of the first amplifier 6 is electrically connected with electromagnetic induction coil U1 and electromagnetic induction coil U4, and the emitter of the second amplifier 7 is electrically connected with electromagnetic induction coil U2 and electromagnetic induction coil U3.

Preferably, first photoelectrical coupler 9 and the second photoelectrical coupler 10 produce certain melody signal of telecommunication by the blanking disc 12 be arranged on electric machine main shaft, drive the first amplifier 6 and the second amplifier 6, control the break-make of governor circuit respectively, make electromagnetic induction coil U1 and electromagnetic induction coil U4, electromagnetic induction coil U2 and electromagnetic induction coil U3 break-make according to certain rules, make electromagnetic core produce electromagnetic actuation force, thus make main shaft outputting power.

Control mode of the present utility model: the utility model adopts blanking disc, first photoelectrical coupler 9 and the second photoelectrical coupler 10 produce certain melody signal of telecommunication by the blanking disc 12 be arranged on electric machine main shaft, drive the first amplifier 6 and the second amplifier 6, control the break-make of governor circuit respectively, make electromagnetic induction coil U1 and electromagnetic induction coil U4, electromagnetic induction coil U2 and electromagnetic induction coil U3 break-make according to certain rules, make electromagnetic core produce electromagnetic actuation force, thus make main shaft outputting power.This control mode can make whole control inputs Untouched control, and eliminate machine error, control circuit have employed power electronic controller part of good performance, has good stability characteristic (quality).

The announcement of book and instruction according to the above description, the utility model those skilled in the art can also carry out suitable change and amendment to above-mentioned execution mode.Therefore, the utility model is not limited to embodiment disclosed and described above, also should fall in the protection range of claim of the present utility model modifications and changes more of the present utility model.In addition, although employ some specific terms in this specification, these terms just for convenience of description, do not form any restriction to the utility model.

Claims (5)

1. the photoelectric control circuit of an electric magnetic engine drive unit, it is characterized in that, comprise drive circuit, described drive circuit is provided with pin 2, pin 3, pin 4 and pin 5, pin 3 is connected with electromagnetic induction coil U1 and electromagnetic induction coil U4 by the first amplifier, pin 5 is connected with electromagnetic induction coil U2 and electromagnetic induction coil U3 by the second amplifier, described electromagnetic induction coil U1, electromagnetic induction coil U2, electromagnetic induction coil U3 is connected input power circuit and ground connection respectively with another terminals of electromagnetic induction coil U4, described pin 2 connects output power supply circuit by the first photoelectrical coupler, described pin 4 connects output power supply circuit by the second photoelectrical coupler, blanking disc is provided with between described first photoelectrical coupler and the second photoelectrical coupler, a main shaft is equipped with in the middle of described blanking disc.

2. the photoelectric control circuit of electric magnetic engine drive unit according to claim 1, is characterized in that, described output power supply circuit is provided with switch J, and described switch J connects power supply by resistance R.

3. the photoelectric control circuit of electric magnetic engine drive unit according to claim 2, it is characterized in that, described input power circuit is provided with DC power supply and master switch, and the positive pole of described DC power supply connects the collector electrode electrical connection of the first amplifier and the second amplifier.

4. the photoelectric control circuit of electric magnetic engine drive unit according to claim 3, it is characterized in that, the emitter of described first amplifier is electrically connected with described electromagnetic induction coil U1 and electromagnetic induction coil U4, and the emitter of described second amplifier is electrically connected with described electromagnetic induction coil U2 and electromagnetic induction coil U3.

5. the photoelectric control circuit of electric magnetic engine drive unit according to claim 4, it is characterized in that, described first photoelectrical coupler and the second photoelectrical coupler produce certain melody signal of telecommunication by the blanking disc be arranged on electric machine main shaft, drive the first amplifier and the second amplifier, control the break-make of governor circuit respectively, make electromagnetic induction coil U1 and electromagnetic induction coil U4, electromagnetic induction coil U2 and electromagnetic induction coil U3 break-make according to certain rules, make electromagnetic core produce electromagnetic actuation force, thus make main shaft outputting power.