CN201812196U - Electronic control device for infrared yarn breaking controller - Google Patents

Abstract

The utility model discloses an electronic control device for an infrared yarn breaking controller. The electronic control device comprises a centralized control processor, a communication bus interface circuit, a latch, a memory, a signal output circuit, a liquid crystal, a key processing circuit and a power supply circuit, wherein the communication bus interface circuit, the latch, the signal output circuit, the liquid crystal and the key processing circuit are connected with the processor; the memory is connected with the latch; the power supply circuit is provided with a fuse F1, a rectifier bridge B, a first-stage power chip U1, a second-stage power chip U2 and a filter capacitor; the communication bus interface is provided with a serial receiving circuit and a serial transmitting circuit; the signal output circuit is provided with a relay K1, a first triode Q1 and a resistor R3; the resistor R3 is connected with an input and output (IO) port of the processor; the common end and the normally open end of the relay K1 are connected with an output interface; the key processing circuit is serially connected by using a key; key detection is performed by using an analog-digital conversion (ADC) port of the processor; and the latch is connected with the processor and the memory to perform data reading and writing operation. After the device is implemented, the yarn state can be inquired and recorded, the running process of a spinning machine is monitored, and an abnormal fault is alarmed.

Description

The electronic-controlled installation of infrared yarn break controller

Technical field

The utility model relates to a kind of electronic-controlled installation of infrared yarn break controller, belongs to the yarn field of sensing technologies of textile industry.

Background technology

In order to satisfy the growing requirement more competitive to hi-tech, high-quality and price of textile product, textile industry is produced with the condition of high-level efficiency, high finished product rate with regard to guaranteeing.Therefore, need seek some devices, instrument and control system like this, the duty that can monitor or manage the multichannel yarn: static or operate as normal.Before ordinary production, a learning process is set, guarantee that aut.eq. is noted the break-make situation of respectively organizing yarn under all normal situations of entire work process; Then, after ordinary production, aut.eq. constantly compares the real-time status of yarn with precedence record, shuts down in case find inconsistent just the warning.

Summary of the invention

The utility model is exactly in order to realize the automatic measuring ability of above-mentioned fault, adopt the mode and the sensor of serial communication to carry out communication, the inquiry yarn conditions, and with the recording medium of mass storage as yarn conditions, this design has realized the automated production of weaving loom, has reduced defect rate, has reduced loss of material, and reduced personnel's manual labor, improved production efficiency.

The technical scheme that its technical matters that solves the utility model adopts is:

The electronic-controlled installation of infrared yarn break controller, comprise and carry out central controlled processor, the communication bus interface circuit that is connected with described processor, the latch that is connected with described processor, the storer that is connected with described latch, the signal output apparatus that is connected with described processor, the liquid crystal that is connected with described processor, the button treatment circuit that is connected with described processor, also comprise power circuit, described power circuit is provided with fuse F1, rectifier bridge B1, first order power supply chip U1, second level power supply chip U2 and filter capacitor;

Described communication bus interface circuit is provided with serial received circuit and serial radiating circuit;

Described signal output apparatus is provided with relay K the 1, the 1st triode Q1, resistance R 3, and described resistance R 3 connects the IO port of described processor, and the common port of described relay K 1 was connected with output interface with the normal beginning;

Described button treatment circuit, resistance R 6 is set to be connected with power supply V5 with button S4, the other end of described resistance R 6 connects resistance R 5 and button S3, the other end of described resistance R 5 connects resistance R 4 and button S2, the other end of described resistance R 4 connects button S1, the other end of described button S1, button S2, button S3 and button S4 is connected the ADC port of resistance R 7 and described processor, described resistance R 7 other end ground connection;

Input port I0～the I7 of described latch connects the address date port AD0～AD7 of described processor, output port Q0～the Q7 of described latch connects the address input end mouth A0～A7 of described storer, the FPDP D0 of described storer～D7 is connected with the address date port AD0～AD7 of described processor, and the address input end mouth A8～A15 of described storer is connected with the address output end mouth A8～A15 of described processor.

Described serial received circuit, 12 couples of described power supply VCC of resistance R 11 and resistance R are set carry out dividing potential drop, output reference voltage Vref, also comprise the serial received interface, described serial received interface is connected with resistance R 9 with resistance R 8, described resistance R 8 other ends are connected with described power supply V5, described resistance R 9 other ends are connected with the inverting input of four-operational amplifier U4, the normal phase input end of described four-operational amplifier U4 connects described reference voltage Vref, and connect the output terminal of described four-operational amplifier U4 by resistance 10, the output terminal of described four-operational amplifier U4 connects the inverting input of the 5th operational amplifier U5, the normal phase input end of described the 5th operational amplifier U5 is connected with described reference voltage Vref, and output terminal is connected with the RX port of described processor.

Described serial radiating circuit is provided with the serial emission interface, and described serial emission interface is by the output terminal of resistance R 13 connection impact damper U6, and the input end of described impact damper U6 is connected with the TX port of described processor.

Implementing good effect of the present utility model is: 1, realized the automated production of weaving loom, reduced defect rate, reduced loss of material; 2, reduce personnel's manual labor, improved production efficiency.

Description of drawings

Fig. 1 is the theory diagram of the electronic-controlled installation of infrared yarn break controller;

Fig. 2 is the power circuit principle figure of the electronic-controlled installation of infrared yarn break controller;

Fig. 3 is the signal output apparatus schematic diagram of the electronic-controlled installation of infrared yarn break controller;

Fig. 4 is the button treatment circuit schematic diagram of the electronic-controlled installation of infrared yarn break controller;

Fig. 5 is the communication bus interface circuit theory diagrams of the electronic-controlled installation of infrared yarn break controller;

Fig. 6 is the interface circuit schematic diagram of the electronic-controlled installation of infrared yarn break controller.

Embodiment

Now the utility model is described in further detail in conjunction with the accompanying drawings:

With reference to Fig. 1-6, the electronic-controlled installation of infrared yarn break controller, comprise and carry out central controlled processor 1, the communication bus interface circuit 4 that is connected with described processor 1, the latch 2 that is connected with described processor 1, the storer 3 that is connected with described latch 2, the signal output apparatus 5 that is connected with described processor 1, the liquid crystal 6 that is connected with described processor 1, the button treatment circuit 7 with described processor 1 is connected also comprises power circuit 8.

Described power circuit 8, as shown in Figure 2, fuse F1 is set to be connected with the power supply input with rectifier bridge B1, the output terminal shunt capacitance C1 of described rectifier bridge B1, and connection first order power supply chip U1, resistance R 1 and resistance R 2 are determined the voltage height of the out-put supply V12 of described first order power supply chip U1, the output terminal shunt capacitance C2 of described first order power supply chip U1, and be connected with second level power supply chip U2, the output terminal shunt capacitance C3 of described second level power supply chip U2, out-put supply V5.This design can realize overcurrent protection, but input DC power or AC power.

Described signal output apparatus 5, as shown in Figure 3, relay K 1 is set, the 1st triode Q1, resistance R 3, described resistance R 3 connects the IO port of described processor 1, and described processor 1 can be by the conducting or the disconnection of the described relay K 1 of IO port controlling, described relay K 1 two ends parallel diode D1, play the effect of afterflow, the common port of described relay K 1 was connected with output interface with the normal beginning.The mode of isolating output is adopted in this design, has reliable and stable advantage.

Described liquid crystal 6 is connected with described processor 1, is used to show various information.

Described button treatment circuit 7, resistance R 6 is set to be connected with power supply V5 with button S4, the other end of described resistance R 6 connects resistance R 5 and button S3, the other end of described resistance R 5 connects resistance R 4 and button S2, the other end of described resistance R 4 connects button S1, the other end of described button S1, button S2, button S3 and button S4 is connected the ADC port of resistance R 7 and described processor, described resistance R 7 other end ground connection.This design has reduced button taking described processor 1 port effectively.

Described latch 2 is an interface circuit, because the internal storage capacity of described processor 1 can not meet the demands, and the external memory storage that need meet the demands at the outside of described processor 1 expansion capacity.Input port I0～the I7 of described latch 2 connects the address date port AD0～AD7 of described processor, output port Q0～the Q7 of described latch connects the address input end mouth A0～A7 of described storer, the FPDP D0 of described storer～D7 is connected with the address date port AD0～AD7 of described processor, and the address input end mouth A8～A15 of described storer is connected with the address output end mouth A8～A15 of described processor.

Described communication bus interface circuit 4 is provided with serial received circuit and serial radiating circuit.

Described serial received circuit, 12 couples of described power supply VCC of resistance R 11 and resistance R are set carry out dividing potential drop, output reference voltage Vref, also comprise the serial received interface, described serial received interface is connected with resistance R 9 with resistance R 8, described resistance R 8 other ends are connected with described power supply V5, described resistance R 9 other ends are connected with the inverting input of four-operational amplifier U4, the normal phase input end of described four-operational amplifier U4 connects described reference voltage Vref, and connect the output terminal of described four-operational amplifier U4 by resistance 10, the output terminal of described four-operational amplifier U4 connects the inverting input of the 5th operational amplifier U5, the normal phase input end of described the 5th operational amplifier U5 is connected with described reference voltage Vref, and output terminal is connected with the RX port of described processor.

Described serial radiating circuit is provided with the serial emission interface, and described serial emission interface is by the output terminal of resistance R 13 connection impact damper U6, and the input end of described impact damper U6 is connected with the TX port of described processor.

In sum, the utility model provides has realized the automatic measuring ability of yarn fault, adopt the mode and the sensor of serial communication to carry out communication, the inquiry yarn conditions, and, can reduce defect rate with the recording medium of mass storage as yarn conditions, reduced loss of material, and reduced personnel's manual labor, improved production efficiency.

Claims (3)

1. the electronic-controlled installation of infrared yarn break controller, comprise and carry out central controlled processor, the communication bus interface circuit that is connected with described processor, the latch that is connected with described processor, the storer that is connected with described latch, the signal output apparatus that is connected with described processor, the liquid crystal that is connected with described processor, the button treatment circuit that is connected with described processor also comprises power circuit, it is characterized in that:

Described power circuit is provided with fuse F1, rectifier bridge B1, first order power supply chip U1, second level power supply chip U2 and filter capacitor;

Described communication bus interface circuit is provided with serial received circuit and serial radiating circuit;

Described signal output apparatus is provided with relay K the 1, the 1st triode Q1, resistance R 3, and described resistance R 3 connects the IO port of described processor, and the common port of described relay K 1 was connected with output interface with the normal beginning;

Described button treatment circuit, resistance R 6 is set to be connected with power supply V5 with button S4, the other end of described resistance R 6 connects resistance R 5 and button S3, the other end of described resistance R 5 connects resistance R 4 and button S2, the other end of described resistance R 4 connects button S1, the other end of described button S1, button S2, button S3 and button S4 is connected the ADC port of resistance R 7 and described processor, described resistance R 7 other end ground connection;

Input port I0～the I7 of described latch connects the address date port AD0～AD7 of described processor, output port Q0～the Q7 of described latch connects the address input end mouth A0～A7 of described storer, the FPDP D0 of described storer～D7 is connected with the address date port AD0～AD7 of described processor, and the address input end mouth A8～A15 of described storer is connected with the address output end mouth A8～A15 of described processor.

2. the electronic-controlled installation of infrared yarn break controller according to claim 1, it is characterized in that: described serial received circuit, 12 couples of described power supply VCC of resistance R 11 and resistance R are set carry out dividing potential drop, output reference voltage Vref, also comprise the serial received interface, described serial received interface is connected with resistance R 9 with resistance R 8, described resistance R 8 other ends are connected with described power supply V5, described resistance R 9 other ends are connected with the inverting input of four-operational amplifier U4, the normal phase input end of described four-operational amplifier U4 connects described reference voltage Vref, and connect the output terminal of described four-operational amplifier U4 by resistance 10, the output terminal of described four-operational amplifier U4 connects the inverting input of the 5th operational amplifier U5, the normal phase input end of described the 5th operational amplifier U5 is connected with described reference voltage Vref, and output terminal is connected with the RX port of described processor.

3. the electronic-controlled installation of infrared yarn break controller according to claim 1, it is characterized in that: described serial radiating circuit, the serial emission interface is set, described serial emission interface is by the output terminal of resistance R 13 connection impact damper U6, and the input end of described impact damper U6 is connected with the TX port of described processor.

Images