CN203193553U - Self-control energy saver suitable for warping machine - Google Patents

Abstract

The utility model discloses a self-control energy saver suitable for a warping machine. The self-control energy saver comprises a three-phase alternating-current power supply, a first relay for a power supply circuit, a first electronic switch integrated circuit, a first resistor, a photoconductive resistor, a Hall sensor integrated circuit, a second resistor, a third resistor, a fourth resistor, a fifth resistor, a second electronic switch integrated circuit, a second capacitor, a third capacitor, a fourth capacitor, a first diode, a second diode, a transistor, a second relay, a start button, a stop button and an alternating-current contactor. The self-control energy saver disclosed by the utility model is capable of realizing automatic start and stop control for the warping machine by adopting a mode of combining optical control with magnetic control, and has the advantages of being high in integration level, simple to product, and convenient to install and debug.

Description

A kind of auto-control energy-saving device that is applicable to warping machine

Technical field

The utility model relates to a kind of energy saver of warping machine, relates in particular to a kind of auto-control energy-saving device that is applicable to warping machine.

Background technology

Warping machine is the necessary operation of weaving in the prefinishing operation, and existing warping machine can not realize opening automatically, stopping control, has increased power consumption, make power consumption big, when overload or short trouble occurring in the circuit, can burn out motor, there is not defencive function in the circuit; And the making more complicated, the Installation and Debugging inconvenience is not easy to popularize.

Summary of the invention

The purpose of this utility model provides a kind of auto-control energy-saving device that is applicable to warping machine with regard to being in order to address the above problem.

The utility model is achieved through the following technical solutions above-mentioned purpose:

The utility model comprises three-phase alternating-current supply, power circuit first relay, the first electronic switch integrated circuit, first resistor, photo resistance, the Hall element integrated circuit, second resistor, the 3rd resistor, the 4th resistor, the 5th resistor, the second electronic switch integrated circuit, second capacitor, the 3rd capacitor, the 4th capacitor, first diode, second diode, transistor, second relay, start button, stop button and A.C. contactor, the electrode input end of the described first electronic switch integrated circuit is connected with first end of described first resistor and the cathode output end of described power circuit simultaneously, second end of described first resistor is connected with the described first electronic switch integrated circuit signal input with first end of described photo resistance simultaneously, second end while of described photo-resistor and the negative input of the described first electronic switch integrated circuit, first end of described first relay and the cathode output end of described power circuit are connected, second end of described first relay is connected with the signal output part of the described first electronic switch integrated circuit, the electrode input end of described Hall element integrated circuit respectively with the cathode output end of described power circuit, first end of described second resistor, first end of described the 5th resistor is connected with the electrode input end of the described second electronic switch integrated circuit, the negative input of described Hall element integrated circuit respectively with the cathode output end of described power circuit, the positive pole of described first diode, first end of described the 3rd capacitor, first end of described the 3rd resistor, described transistorized emitter, first end of the negative input of the described second electronic switch integrated circuit and described second relay is connected, the control output end of described Hall element integrated circuit is connected with second end of described second resistor and first end of described second capacitor respectively, second end of described second capacitor is connected with the negative pole of described first diode and the positive pole of described second diode respectively, the negative pole of described second diode respectively with second end of described the 3rd capacitor, second end of described the 3rd resistor is connected with first end of described the 4th resistor, second end of described the 4th resistor is connected with described transistorized base stage, described transistorized collector electrode respectively with second end of described the 5th resistor, second end of the signal input part of the described second electronic switch integrated circuit and described the 4th capacitor is connected, the signal output part of the described second electronic switch integrated circuit is connected with second end of described second relay, first normal open switch of described A.C. contactor is connected in series in the power input of described motor, the 3rd live wire of described three-phase alternating-current supply respectively with first end of described start button, first end of second normal open switch of described A.C. contactor is connected with first end of the normal open switch of described first relay, second end of described start button, second end of second end of second normal open switch of described A.C. contactor and the normal open switch of described first relay is connected with first end of described stop button respectively, and second end of described stop button is connected in series successively and is connected with second live wire of described three phase mains behind the normally closed switch of described A.C. contactor and described second relay.

The beneficial effects of the utility model are:

The utility model adopts light-operated and the magnetic control compound mode, can realize to warping machine open, stop control automatically, have integrated level higher, make simple, Installation and Debugging advantage easily.

Description of drawings

Fig. 1 is a kind of circuit diagram that is applicable to the auto-control energy-saving device of warping machine described in the utility model.

Embodiment

The utility model is described in further detail below in conjunction with accompanying drawing:

As shown in Figure 1: the utility model comprises three-phase alternating-current supply, power transformer T, rectifier bridge heap UR, filtering capacitor C5, circuit of three-terminal voltage-stabilizing integrated IC4, first relay K 1, the first electronic switch integrated circuit C1, the first resistor R1, photo resistance RG, Hall element integrated circuit (IC) 3, the second resistor R2, the 3rd resistor R3, the 4th resistor R4, the 5th resistor R5, the second electronic switch integrated circuit (IC) 2, the second capacitor C2, the 3rd capacitor C3, the 4th capacitor C4, the first diode VD1, the second diode VD2, transistor VT, second relay K 2, start button S1, stop button S2 and A.C. contactor KM, the electrode input end of the first electronic switch integrated circuit (IC) 1 is connected with first end of the first resistor R1 and the cathode output end of circuit of three-terminal voltage-stabilizing integrated IC4 simultaneously, second end of the first resistor R1 is connected with the first electronic switch integrated circuit (IC), 1 signal input part with first end of photo resistance RG simultaneously, second end while of photo-resistor RG and the negative input of the first electronic switch integrated circuit (IC) 1, first end of first relay K 1 is connected with the cathode output end of circuit of three-terminal voltage-stabilizing integrated IC4, second end of first relay K 1 is connected with the signal output part of the first electronic switch integrated circuit (IC) 1, the electrode input end of Hall element integrated circuit (IC) 3 respectively with the cathode output end of circuit of three-terminal voltage-stabilizing integrated IC4, first end of the second resistor R2, first end of the 5th resistor R5 is connected with the electrode input end of the second electronic switch integrated circuit (IC) 2, the negative input of Hall element integrated circuit (IC) 3 respectively with the cathode output end of circuit of three-terminal voltage-stabilizing integrated IC4, the positive pole of the first diode VD1, first end of the 3rd capacitor C3, first end of the 3rd resistor R3, the emitter of transistor VT, the negative input of the second electronic switch integrated circuit (IC) 2 is connected with first end of second relay K 2, the control output end of Hall element integrated circuit (IC) 3 is connected with second end of the second resistor R2 and first end of the second capacitor C2 respectively, second end of the second capacitor C2 is connected with the negative pole of the first diode VD1 and the positive pole of the second diode VD2 respectively, the negative pole of the second diode VD2 respectively with second end of the 3rd capacitor C3, second end of the 3rd resistor R3 is connected with first end of the 4th resistor R4, second end of the 4th resistor R4 is connected with the base stage of transistor VT, the collector electrode of transistor VT respectively with second end of the 5th resistor R5, the signal input part of the second electronic switch integrated circuit (IC) 2 is connected with second end of the 4th capacitor C4, the signal output part of the second electronic switch integrated circuit (IC) 2 is connected with second end of second relay K 2, the first normal open switch KM1 of A.C. contactor is connected in series in the power input of motor M, the 3rd live wire L3 of three-phase alternating-current supply respectively with first end of start button S1, first end of first end of the second normal open switch KM2 of A.C. contactor and the normal open switch K1-1 of first relay is connected, second end of start button S1, second end of second end of the second normal open switch KM2 of A.C. contactor and the normal open switch K1-1 of first relay is connected with first end of stop button S2 respectively, and second end of stop button S2 is connected in series successively, and K2-1 is connected with the second live wire L2 of three phase mains behind the normally closed switch of A.C. contactor KM and second relay.

Claims (1)

1. auto-control energy-saving device that is applicable to warping machine, it is characterized in that: comprise three-phase alternating-current supply, power circuit first relay, the first electronic switch integrated circuit, first resistor, photo resistance, the Hall element integrated circuit, second resistor, the 3rd resistor, the 4th resistor, the 5th resistor, the second electronic switch integrated circuit, second capacitor, the 3rd capacitor, the 4th capacitor, first diode, second diode, transistor, second relay, start button, stop button and A.C. contactor, the electrode input end of the described first electronic switch integrated circuit is connected with first end of described first resistor and the cathode output end of described power circuit simultaneously, second end of described first resistor is connected with the described first electronic switch integrated circuit signal input with first end of described photo resistance simultaneously, second end while of described photo-resistor and the negative input of the described first electronic switch integrated circuit, first end of described first relay and the cathode output end of described power circuit are connected, second end of described first relay is connected with the signal output part of the described first electronic switch integrated circuit, the electrode input end of described Hall element integrated circuit respectively with the cathode output end of described power circuit, first end of described second resistor, first end of described the 5th resistor is connected with the electrode input end of the described second electronic switch integrated circuit, the negative input of described Hall element integrated circuit respectively with the cathode output end of described power circuit, the positive pole of described first diode, first end of described the 3rd capacitor, first end of described the 3rd resistor, described transistorized emitter, first end of the negative input of the described second electronic switch integrated circuit and described second relay is connected, the control output end of described Hall element integrated circuit is connected with second end of described second resistor and first end of described second capacitor respectively, second end of described second capacitor is connected with the negative pole of described first diode and the positive pole of described second diode respectively, the negative pole of described second diode respectively with second end of described the 3rd capacitor, second end of described the 3rd resistor is connected with first end of described the 4th resistor, second end of described the 4th resistor is connected with described transistorized base stage, described transistorized collector electrode respectively with second end of described the 5th resistor, second end of the signal input part of the described second electronic switch integrated circuit and described the 4th capacitor is connected, the signal output part of the described second electronic switch integrated circuit is connected with second end of described second relay, first normal open switch of described A.C. contactor is connected in series in the power input of described motor, the 3rd live wire of described three-phase alternating-current supply respectively with first end of described start button, first end of second normal open switch of described A.C. contactor is connected with first end of the normal open switch of described first relay, second end of described start button, second end of second end of second normal open switch of described A.C. contactor and the normal open switch of described first relay is connected with first end of described stop button respectively, and second end of described stop button is connected in series successively and is connected with second live wire of described three phase mains behind the normally closed switch of described A.C. contactor and described second relay.

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