CN104536479A - Function testing device for electrical control cabinet of lace machine - Google Patents

Abstract

The invention relates to the technical field of electrical testing devices, in particular to a function testing device for an electrical control cabinet of a lace machine. The function testing device comprises a 380 V three-phase power source, the electrical cabinet and a testing device body, wherein the electrical cabinet comprises a front side electrical cabinet body and a real side electrical cabinet body, the 380 V three-phase power source is connected into the electrical cabinet, the testing device is arranged outside the electrical cabinet, the front side electrical cabinet body comprises an industrial control computer, a 24 V direct-current power source, a servo controller and a laser yarn breakage automatic stop controller, the rear side electrical cabinet body comprises a 60 V direct-current power source and a plurality of frequency converters, and the testing device body comprises a touch screen. The function testing device is mainly used for performing power-on check on the electrical cabinet before the electrical cabinet is installed on the machine, pre-debugging is performed, it is guaranteed that a connection wire and components of the electrical cabinet have no quality problem, software and parameter load-in work is performed, the components are arranged and debugged, and the electrical debugging time for removing faults is greatly shortened after the electrical cabinet is installed on the machine.

Description

Lace machine electrical control cabinet device for testing functions

Technical field

The present invention relates to electric testing equipment technical field, especially a kind of lace machine electrical control cabinet device for testing functions.

Background technology

First existing regulator cubicle functional test needs electrical control cabinet to be installed on machine, installation procedure is complicated, point-to-point inspection could be carried out to electric cabinet internal component after installation, check complex steps, if there is problem, also regulator cubicle to be removed maintenance, waste time and energy, have a strong impact on job schedule.

Summary of the invention

In order to overcome existing above-mentioned deficiency, the invention provides a kind of lace machine electrical control cabinet device for testing functions.

The technical solution adopted for the present invention to solve the technical problems is: a kind of lace machine electrical control cabinet device for testing functions, comprises 380V three-phase supply, electricity cabinet and proving installation, electric cabinet comprises the electric cabinet in front side and rear side electricity cabinet, and 380V three-phase supply accesses electric cabinet, and it is outside that proving installation is located at electric cabinet, and front side electricity cabinet comprises industrial control computer, 24V direct supply, servo controller and laser broken yarn are from stop controller, and rear side electricity cabinet comprises 60V direct supply, primary transducer, warp beam frequency converter one, warp beam frequency converter two, warp beam frequency converter three, warp beam frequency converter four, warp beam frequency converter five and tractive frequency converter, proving installation comprises touch-screen, 24V direct supply, laser broken yarn is from stop controller, 60V direct supply, primary transducer, warp beam frequency converter one, warp beam frequency converter two, warp beam frequency converter three, warp beam frequency converter four, warp beam frequency converter five provides by being connected 380V three-phase supply with the power supply of tractive frequency converter, industrial control computer, the power supply of servo controller and touch-screen is provided by 24V direct supply, 60V DC power output end connects traversing motor one and connects traversing motor two, traversing motor one and to connect traversing motor two in parallel, traversing motor one and connect traversing motor two and be connected to servo controller, primary transducer bottom connects mair motor and mair motor scrambler, mair motor also connects spindle encoder and traversing main shaft angle scrambler, spindle encoder is connected to servo controller, and traversing main shaft angle scrambler is connected to industrial control computer.

According to another embodiment of the invention, comprise industrial control computer pin one further and be parallel with the anxious coil stopping safety relay, the coil of light curtain safety relay one and the coil of light curtain safety relay two, the coil bottom of suddenly stopping safety relay connects the series circuit of front side scram button and rear side scram button, the coil bottom of light curtain safety relay one connects front side light curtain button, the coil bottom of light curtain safety relay two connects rear side light curtain button, industrial control computer pin two connects touch-screen, industrial control computer pin three and four, five and six, the coil of 24VDC DC relay one is respectively equipped with between seven and eight, the coil of 24VDC D.C. contactor one, the coil of 24VDC DC relay six, industrial control computer pin nine connects primary transducer, warp beam frequency converter one, warp beam frequency converter two, warp beam frequency converter three, warp beam frequency converter four, warp beam frequency converter five and tractive frequency converter, industrial control computer pin ten connects servo controller and laser broken yarn from stop controller, industrial control computer pin 11 and 12, 13 and 14, 15 and 16, 17 and 18, 19 and 20, 21 and 22, 23 and 24, 25 and 26, 27 and 28, the coil of 24VDC DC relay five and the series circuit of blast dryer shift knob is connected between 29 and 30, the coil of 24VDC DC relay four and the series circuit of cylinder shift knob, PSJ safety switch button, the coil of 24VDC D.C. contactor three and the series circuit of fabric take-off shift knob, the series circuit of the coil of 24VDC D.C. contactor two and oil-pressure shut-off switch button and mistake oil-pressure shut-off switch button, the coil of 24VDC DC relay two and the series circuit of safety thermostat button, adjustable potentiometer, the parallel circuit of front side top button and rear side top button, the parallel circuit of front side slow button and rear side slow button, the series circuit of front side stop button and rear side stop button.

According to another embodiment of the invention, comprise the series circuit that industrial control computer power end and 24V DC power output end are directly parallel with the contact of light curtain safety relay one and the contact of light curtain safety relay two and light curtain power light further, the contact of 24VDC DC relay one and the series circuit of spindle brake power light, the contact of 24VDC DC relay three and the series circuit of laser broken yarn automatic stop pilot lamp, the contact of 24VDC DC relay four and the series circuit of cylinder operation pilot lamp, the contact of 24VDC DC relay five and the series circuit of blast dryer relay indicating light.

According to another embodiment of the invention, comprise warp beam frequency converter one rear end further to connect through spindle motor one and warp beam motor encoder one, warp beam frequency converter two rear end connects through spindle motor two and warp beam motor encoder two, warp beam frequency converter three rear end connects through spindle motor three and warp beam motor encoder three, warp beam frequency converter four rear end connects through spindle motor four and warp beam motor encoder four, warp beam frequency converter five rear end connects through spindle motor five and warp beam motor encoder five, and tractive frequency converter rear end connects tractive motor and tractive motor encoder.

According to another embodiment of the invention, comprise laser broken yarn further on stop controller, connect generating laser and laser pickoff.

According to another embodiment of the invention, the contact comprising 24VDC DC relay six is further connected with lathe bed burner on light, the contact of 24VDC D.C. contactor one connects voltage-phase phase sequence display instrument one, the contact of 24VDC D.C. contactor two connects the contact connection voltage-phase phase sequence display instrument three of voltage-phase phase sequence display instrument two, 24VDC D.C. contactor three.

According to another embodiment of the invention, the state comprising front side scram button, rear side scram button, front side stop button, rear side stop button and mistake oil-pressure shut-off switch button is further normally closed-self-locking.

According to another embodiment of the invention, the state comprising front side slow button, rear side slow button, front side top button and rear side top button is further Chang Kai-reset.

According to another embodiment of the invention, the state comprising front side light curtain button, rear side light curtain button and safety thermostat button is further normally closed-reset.

According to another embodiment of the invention, the state comprising oil-pressure shut-off switch button, fabric take-off shift knob, PSJ safety switch button, switching cylinder button and blast dryer shift knob is further Chang Kai-self-locking.

The invention has the beneficial effects as follows, Main Function of the present invention carries out energising inspection when electrical control cabinet is not also installed on machine to electric cabinet, and carry out presetting examination, ensure that electric cabinet is without wiring and component quality problem, and carry out the loading work of some softwares and parameter, components and parts are arranged, debugging, substantially reduce the electric adjustment time of fixing a breakdown after electric cabinet is installed on machine.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the present invention is further described.

Fig. 1 is structural representation of the present invention.

1. electric cabinets in figure, 2. proving installation, electric cabinet on front side of 1-1., electric cabinet on rear side of 1-2., A1. primary transducer, A2. warp beam frequency converter one, A3. warp beam frequency converter two, A4. warp beam frequency converter three, A5. warp beam frequency converter four, A6. warp beam frequency converter five, A7. tractive frequency converter, K1. suddenly safety relay is stopped, K2. light curtain safety relay one, K3. light curtain safety relay, K4.24VDC DC relay one, K5.24VDC D.C. contactor one, K6.24VDC DC relay two, K7.24VDC D.C. contactor two, K8.24VDC D.C. contactor three, K9.24VDC DC relay three, K10.24VDC DC relay four, K11.24VDC DC relay five, K12.24VDC DC relay six, E1. servo controller, F1. laser broken yarn is from stop controller, P1.24V direct supply, P2.60V direct supply, W1. industrial control computer, M1. mair motor, M2. through spindle motor one, M3. through spindle motor two, M4. through spindle motor three, M5. through spindle motor four, M6. through spindle motor five, M7. tractive motor, M8. traversing motor one, M9. traversing motor two, B1. mair motor scrambler, B2. warp beam motor encoder one, B3. warp beam motor encoder two, B4. warp beam motor encoder three, B5. warp beam motor encoder four, B6. warp beam motor encoder five, B7. tractive motor encoder, B8. spindle encoder, B9. traversing main shaft angle scrambler, S1. front side scram button, S1 '. rear side scram button, S2. front side stop button, S2 '. rear side stop button, S3. front side slow button, S3 '. rear side slow button, S4. front side top button, S4 '. rear side top button, S5. front side light curtain button, S5 '. rear side light curtain button, S6. safety thermostat button, S7. oil-pressure shut-off switch button, S8. fabric take-off shift knob, S9.PSJ safety switch button, S10. switching cylinder button, S11. blast dryer shift knob, D1. adjustable potentiometer, L1. light curtain power light, L2. spindle brake power light, L3. laser broken yarn automatic stop pilot lamp, L4. cylinder operation pilot lamp, L5. blast dryer relay indicating light, L6. lathe bed burner on light, C1. touch-screen, N1. voltage-phase phase sequence displayer one, N2. voltage-phase phase sequence displayer two, N3. voltage-phase phase sequence displayer three, T1. generating laser, R1. laser pickoff.

Embodiment

If Fig. 1 is structural representation of the present invention, a kind of lace machine electrical control cabinet device for testing functions, comprises 380V three-phase supply, electricity cabinet 1 and proving installation 2, electric cabinet 1 comprises the electric cabinet 1-1 in front side and rear side electricity cabinet 1-2, and 380V three-phase supply accesses electric cabinet 1, and it is outside that proving installation 2 is located at electric cabinet 1, and front side electricity cabinet 1-1 comprises industrial control computer W1, 24V direct supply P1, servo controller E1 and laser broken yarn are from stop controller F1, and rear side electricity cabinet 1-2 comprises 60V direct supply P2, primary transducer A1, warp beam frequency converter one A2, warp beam frequency converter two A3, warp beam frequency converter three A4, warp beam frequency converter four A5, warp beam frequency converter five A6 and tractive frequency converter A 7, proving installation 2 comprises touch-screen C1,24V direct supply P1, laser broken yarn is from stop controller F1, 60V direct supply P2, primary transducer A1, warp beam frequency converter one A2, warp beam frequency converter two A3, warp beam frequency converter three A4, warp beam frequency converter four A5, warp beam frequency converter five A6 provides by being connected 380V three-phase supply with the power supply of tractive frequency converter A 7, industrial control computer W1, the power supply of servo controller E1 and touch-screen C1 is provided by 24V direct supply P1, 60V direct supply P2 output terminal connects traversing motor one M8 and meets traversing motor two M9, traversing motor one M8 and to meet traversing motor two M9 in parallel, traversing motor one M8 and meet traversing motor two M9 and be connected to servo controller E1, primary transducer A1 bottom connects mair motor M1 and mair motor scrambler B1, mair motor M1 also connects spindle encoder B8 and traversing main shaft angle scrambler B9, spindle encoder B8 is connected to servo controller E1, traversing main shaft angle scrambler B9 is connected to industrial control computer W1, and industrial control computer W1 pin one is parallel with the anxious coil stopping safety relay K1, the coil of light curtain safety relay one K2 and the coil of light curtain safety relay two k3, the coil bottom of suddenly stopping safety relay K1 connects the series circuit of front side scram button S1 and rear side scram button S1 ', the coil bottom of light curtain safety relay one K2 connects front side light curtain button S5, the coil bottom of light curtain safety relay two k3 connects rear side light curtain button S5 ', industrial control computer W1 pin two connects touch-screen C1, industrial control computer W1 pin three and four, five and six, the coil of 24VDC DC relay one K4 is respectively equipped with between seven and eight, the coil of 24VDC D.C. contactor one K5, the coil of 24VDC DC relay six K12, industrial control computer W1 pin nine connects primary transducer A1, warp beam frequency converter one A2, warp beam frequency converter two A3, warp beam frequency converter three A4, warp beam frequency converter four A5, warp beam frequency converter five A6 and tractive frequency converter A 7, industrial control computer W1 pin ten connects servo controller E1 and laser broken yarn from stop controller F1, industrial control computer W1 pin 11 and 12, 13 and 14, 15 and 16, 17 and 18, 19 and 20, 21 and 22, 23 and 24, 25 and 26, 27 and 28, the coil of 24VDC DC relay five K11 and the series circuit of blast dryer shift knob S11 is connected between 29 and 30, the coil of 24VDC DC relay four K10 and the series circuit of cylinder shift knob S10, PSJ safety switch button S9, the coil of 24VDC D.C. contactor three K8 and the series circuit of fabric take-off shift knob S8, the series circuit of the coil of 24VDC D.C. contactor two K7 and oil-pressure shut-off switch button S7 and mistake oil-pressure shut-off switch button S7 ', the coil of 24VDC DC relay two K6 and the series circuit of safety thermostat button S6, adjustable potentiometer D1, the parallel circuit of front side top button S4 and rear side top button S4 ', the parallel circuit of front side slow button S3 and rear side slow button S3 ', the series circuit of front side stop button S2 and rear side stop button S2 ', industrial control computer W1 power end and the output terminal direct paralleled series circuit having the contact of light curtain safety relay one K2 and the contact of light curtain safety relay two K3 and light curtain power light L1 of 24V direct supply P1, the contact of 24VDC DC relay one K4 and the series circuit of spindle brake power light L2, the contact of 24VDC DC relay three K9 and the series circuit of laser broken yarn automatic stop pilot lamp L3, the contact of 24VDC DC relay four K10 and the series circuit of cylinder operation pilot lamp L4, the contact of 24VDC DC relay five K11 and the series circuit of blast dryer relay indicating light L5, warp beam frequency converter one A2 rear end connects through spindle motor one M2 and warp beam motor encoder one B2, warp beam frequency converter two A3 rear end connects through spindle motor two M3 and warp beam motor encoder two B3, warp beam frequency converter three A4 rear end connects through spindle motor three M4 and warp beam motor encoder three B4, warp beam frequency converter four A5 rear end connects through spindle motor four M5 and warp beam motor encoder four B5, warp beam frequency converter five A6 rear end connects through spindle motor five M6 and warp beam motor encoder five B6, tractive frequency converter A 7 rear end connects tractive motor M 7 and tractive motor encoder B7, laser broken yarn connects generating laser T1 and laser pickoff R1 on stop controller F1, the contact of 24VDC DC relay six K12 is connected with lathe bed burner on light L6, the contact of 24VDC D.C. contactor one K5 connects voltage-phase phase sequence display instrument one N1, the contact of 24VDC D.C. contactor two K7 connects voltage-phase phase sequence display instrument two N2, the contact of 24VDC D.C. contactor three K8 connects voltage-phase phase sequence display instrument three N3, front side scram button S1, rear side scram button S1 ', front side stop button S2, the state of rear side stop button S2 ' and excessively oil-pressure shut-off switch button S7 ' is normally closed-self-locking, front side slow button S3, rear side slow button S3 ', the state of front side top button S4 and rear side top button S4 ' is Chang Kai-reset, front side light curtain button S5, the state of rear side light curtain button S5 ' and safety thermostat button S6 is normally closed-reset, oil-pressure shut-off switch button S7, fabric take-off shift knob S8, PSJ safety switch button S9, the state of switching cylinder button S10 and blast dryer shift knob S11 is Chang Kai-self-locking.

Principle of work: the principle of work of lace machine electrical control cabinet device for testing functions uses the common electrical elements such as some switches, instrument, indicator, LED to simulate the electric components that machine is installed, thus play electric cabinet and need not be installed on machine and just can carry out energising inspection, parameter loading and debugging efforts.

Start the first electrical control cabinet needs inspection before checking to be connected with proving installation, electric cabinet is connected with the mains, turns on the power switch, the also do setting accordingly of the software that loading is necessary and parameter.

Detect and illustrate:

(1) S1 and S1 ' is front side and rear side scram button, press in proving installation mair motor M1 operation or holding state, suddenly stop safety relay K1 to work immediately, make signal transmission to industrial control computer W1, industrial control computer W1 be cut to the contactor power supply of inverter supply after frequency converter power-off, proving installation stops state anxious, touch-screen C1 can show " machine emergent stopping ";

(2) S2 and S2 ' is front side and rear side stop button, and press under the state that proving installation mair motor M1 runs, industrial control computer W1 is given to frequency converter stop sign, and proving installation is out of service, and touch-screen C1 shows " machine runs and stops ";

(3) S3 and S3 ' is front side and rear side slow button, press under proving installation holding state and do not put, industrial control computer W1 runs slow speed signal to primary transducer, proving installation mair motor M1 starts with slow running, the adhesive of the 24V of industrial control computer W1 control simultaneously relay K 4, analog main shaft brake operation pilot lamp L2 lights, and represents that spindle brake obtains electric starting working, touch-screen C1 shows " machine operation ";

(4) S4 and S4 ' is front side and rear side top button, press under proving installation holding state, industrial control computer W1 runs high speed signal to primary transducer, proving installation mair motor M1 starts to run at high speed, the adhesive of the 24V of industrial control computer W1 control simultaneously relay K 4, analog main shaft brake operation pilot lamp L2 lights, and represents that spindle brake obtains electric starting working.Touch-screen C1 shows " machine operation ", touch-screen C1 can regulate the rotating speed of mair motor;

(5) L1 is light curtain power lights, and this lamp bright explanation light curtain power supply wiring is correct; S5 and S5 ' is front side and rear side safe light curtain analog buttons, the laser beam pressed the button between simulation machine light curtain transmitter to receiver is truncated, light curtain safety relay K2 or K3 works immediately, make signal transmission to industrial control computer W1, machine stops immediately, press S5 then touch-screen C1 display " front side light curtain is triggered ", press S5 ' and then show " rear side light curtain is triggered ";

(6) S6 is safety thermostat analog switch, press rear signal transmission to industrial control computer W1, industrial control computer W1 makes 24V contactor K5 and K12 dead electricity, the pilot lamp L6 then simulating lathe bed heating rod power supply does not work, for simulating the voltage-phase phase sequence display instrument N1 dead electricity of lathe bed oil circulation motor, represent that lubricant heating and oily periodic duty stop, touch-screen C1 shows " safety thermostat is triggered ";

(7) D1 is the adjustable potentiometer of simulation lathe bed internal temperature sensor, the temperature range required for machine operation is provided with in industrial control computer W1, adjustment potentiometer, make adjustment temperature higher than design temperature scope, industrial control computer W1 can make 24V contactor K12 dead electricity, the pilot lamp L6 then simulating lathe bed heating rod power supply does not work, and touch-screen C1 shows " high oil temperature "; Adjustment potentiometer, make adjustment temperature be less than design temperature scope, industrial control computer W1 can make 24V contactor K12 obtain electric, then the pilot lamp L6 simulating lathe bed heating rod power supply lights, and touch-screen C1 shows " oil temperature is too low ";

(8) S7 is the rotary switch that simulation machine crossing system oil pressure reaches function, S7 ' crosses the rotary switch of compression functions for simulating machine crossing system oil pressure, machine crossing system oil pressure can be simulated below standard when S7 disconnects, heating stops, now 24V contactor K7 and 24V relay K 12 not adhesive, the voltage-phase phase sequence display instrument N2 dead electricity of simulation crossing system oil circulation motor does not work, and the pilot lamp L6 of simulation lathe bed heating rod does not work yet.When opening S7, machine crossing system oil pressure can be simulated up to standard, heating is normal, now 24V contactor K7 and 24V relay K 12 adhesive, the voltage-phase phase sequence display instrument N2 intending crossing system oil circulation motor obtains electric starting working, now can check wiring the phase sequence whether correct sense of rotation of simulated machine (can) and whether phase shortage, the pilot lamp L6 of simulation lathe bed heating rod lights.Machine crossing system oil pressure can be simulated too high when S7 ' opens, heating also stops, now the voltage-phase phase sequence display instrument N2 dead electricity of 24V contactor K7 and 24V relay K 12 not adhesive simulation crossing system oil circulation motor does not work, and the pilot lamp L6 of simulation lathe bed heating rod does not work yet.When no matter disconnecting S7 or open S7 ', touch-screen C1 all shows " oil pressure faults ";

(9) S8 is the rotary switch of the voltage-phase phase sequence display instrument N3 of control simulation fabric take-off motor, S8 is opened when mair motor M1 runs, then 24V relay K 8 adhesive, the voltage-phase phase sequence display instrument N3 of simulate fabric reel-motor starts working, and now can check wiring the phase sequence whether correct sense of rotation of simulated machine (can) and whether phase shortage;

(10) S9 is the rotary switch of simulation machine Jacquard safety switch, when opening S9, industrial control computer W1 is cut to the contactor power supply of inverter supply, frequency converter power-off afterwards, proving installation is in holding state, and touch-screen C1 shows " PSJ safety feature fault ";

(11) S10 is the rotary switch that control simulation cylinder obtains the pilot lamp L4 of electric work, is normally closure state; If disconnect the not adhesive of S10,24V relay K 10 dead electricity, the pilot lamp L4 that simulation cylinder obtains electric work goes out, and touch-screen C1 shows " cylinder power fail ";

(12) S11 is the rotary switch that control simulation blast dryer obtains the pilot lamp L5 of electric work, is also normally closure state; If disconnect the not adhesive of S11,24V relay K 11 dead electricity, the pilot lamp L5 that simulated air dryer obtains electric work goes out, and touch-screen C1 shows " dryer fault ";

(13) T1 and R1 is respectively generating laser and the receiver of laser broken yarn automatic stop system, generating laser meeting Emission Lasers during normal work, receiver receives, feed back signal to laser broken yarn from stop controller F1 simultaneously, after laser beam is blocked, it is electric that laser broken yarn makes 24V relay K 9 obtain from stop controller F1, and laser broken yarn automatic stop system relay indicating light L3 lights, represent and broken yarn detected, touch-screen C1 can show " GBX broken yarn " simultaneously.Simultaneously, this pilot lamp or whole system have the warning etc. during fault, as long as system has fault, industrial control computer W1 can give laser broken yarn from stop controller F1 pulse signal, laser broken yarn from stop controller make 24V relay K 9 interrupted electric, laser broken yarn automatic stop system relay indicating light L3 intermittently lights;

(14) M8 and M9 is direct current 60VDC servomotor, powered by the direct current 60VDC power supply P2 of electric cabinet inside, Can-Bus bus is adopted to connect, controlled by the inner servo controller of electric cabinet, be used for simulating the work of traversing motor, touch-screen C1 can open or close servomotor, and back rotation is made in the position that can rotate according to main shaft after opening, and touch-screen C1 also can operate separately servomotor and make back rotation;

(15) M1 is mair motor, controlled by the primary transducer A1 of electric cabinet inside, B1 is mair motor scrambler, be used for a mair motor velocity feedback to primary transducer A1, B8 is main shaft crossing system angular encoder, the main shaft angle position recorded is fed back to servo controller E1, so that servo controller E1 controls the anglec of rotation coordinating direct current 60VDC servomotor M8 and M9, B9 is spindle speed scrambler, be used for the spindle speed recorded to feed back on industrial control computer W1(proving installation with mair motor rotating speed analog main shaft rotating speed), industrial control computer W1 can calculate spindle encoder, the speed of mair motor and each warp beam encoder feedback, and send instruction to each frequency converter, the corresponding motor of each Frequency Converter Control is made to reach required rotating speed,

(16) M2-M7 is through spindle motor and tractive motor, controlled by warp beam frequency converter A 2-A6 and tractive frequency converter A 7 respectively, B2-B7 is through spindle motor and tractive motor encoder, corresponding scrambler is given the motor rotate speed feedback recorded, touch-screen C1 can independently open or close any one through axle system, open rear mair motor to start, also start to rotate through spindle motor or tractive motor, touch-screen C1 also manual operation can do microrunning through spindle motor or tractive motor.

More than illustrate just illustrative for the purpose of the present invention; and nonrestrictive, those of ordinary skill in the art understand, when not departing from the spirit and scope that claims limit; many amendments, change or equivalence can be made, but all will fall within the scope of protection of the present invention.

Claims (10)

1. a lace machine electrical control cabinet device for testing functions, comprise 380V three-phase supply, electricity cabinet (1) and proving installation (2), described electric cabinet (1) comprises the electric cabinet in front side (1-1) and rear side electricity cabinet (1-2), described 380V three-phase supply accesses electric cabinet (1), it is outside that described proving installation (2) is located at electric cabinet (1), described front side electricity cabinet (1-1) comprises industrial control computer (W1), 24V direct supply (P1), servo controller (E1) and laser broken yarn are from stop controller (F1), described rear side electricity cabinet (1-2) comprises 60V direct supply (P2), primary transducer (A1), warp beam frequency converter one (A2), warp beam frequency converter two (A3), warp beam frequency converter three (A4), warp beam frequency converter four (A5), warp beam frequency converter five (A6) and tractive frequency converter (A7), described proving installation (2) comprises touch-screen (C1), it is characterized in that, described 24V direct supply (P1), laser broken yarn is from stop controller (F1), 60V direct supply (P2), primary transducer (A1), warp beam frequency converter one (A2), warp beam frequency converter two (A3), warp beam frequency converter three (A4), warp beam frequency converter four (A5), warp beam frequency converter five (A6) provides by being connected 380V three-phase supply with the power supply of tractive frequency converter (A7), described industrial control computer (W1), the power supply of servo controller (E1) and touch-screen (C1) is provided by 24V direct supply (P1), described 60V direct supply (P2) output terminal connects traversing motor one (M8) and connects traversing motor two (M9), described traversing motor one (M8) and to connect traversing motor two (M9) in parallel, described traversing motor one (M8) and connect traversing motor two (M9) and be connected to servo controller (E1), described primary transducer (A1) bottom connects mair motor (M1) and mair motor scrambler (B1), described mair motor (M1) also connects spindle encoder (B8) and traversing main shaft angle scrambler (B9), described spindle encoder (B8) is connected to servo controller (E1), described traversing main shaft angle scrambler (B9) is connected to industrial control computer (W1).

2. lace machine electrical control cabinet device for testing functions according to claim 1, is characterized in that, described industrial control computer (W1) pin one is parallel with the anxious coil stopping safety relay (K1), the coil of light curtain safety relay one (K2) and the coil of light curtain safety relay two (k3), the coil bottom that described urgency stops safety relay (K1) connects the series circuit of front side scram button (S1) and rear side scram button (S1 '), the coil bottom of described light curtain safety relay one (K2) connects front side light curtain button (S5), the coil bottom of described light curtain safety relay two (k3) connects rear side light curtain button (S5 '), described industrial control computer (W1) pin two connects touch-screen (C1), described industrial control computer (W1) pin three and four, five and six, the coil of 24VDC DC relay one (K4) is respectively equipped with between seven and eight, the coil of 24VDC D.C. contactor one (K5), the coil of 24VDC DC relay six (K12), described industrial control computer (W1) pin nine connects primary transducer (A1), warp beam frequency converter one (A2), warp beam frequency converter two (A3), warp beam frequency converter three (A4), warp beam frequency converter four (A5), warp beam frequency converter five (A6) and tractive frequency converter (A7), described industrial control computer (W1) pin ten connects servo controller (E1) and laser broken yarn from stop controller (F1), described industrial control computer (W1) pin 11 and 12, 13 and 14, 15 and 16, 17 and 18, 19 and 20, 21 and 22, 23 and 24, 25 and 26, 27 and 28, the coil of 24VDC DC relay five (K11) and the series circuit of blast dryer shift knob (S11) is connected between 29 and 30, the coil of 24VDC DC relay four (K10) and the series circuit of cylinder shift knob (S10), PSJ safety switch button (S9), the coil of 24VDC D.C. contactor three (K8) and the series circuit of fabric take-off shift knob (S8), the coil of 24VDC D.C. contactor two (K7) and oil-pressure shut-off switch button (S7) and cross the series circuit of oil-pressure shut-off switch button (S7 '), the coil of 24VDC DC relay two (K6) and the series circuit of safety thermostat button (S6), adjustable potentiometer (D1), the parallel circuit of front side top button (S4) and rear side top button (S4 '), the parallel circuit of front side slow button (S3) and rear side slow button (S3 '), the series circuit of front side stop button (S2) and rear side stop button (S2 ').

3. lace machine electrical control cabinet device for testing functions according to claim 1, it is characterized in that, described industrial control computer (W1) power end and the output terminal direct paralleled series circuit having the contact of light curtain safety relay one (K2) and the contact of light curtain safety relay two (K3) and light curtain power light (L1) of 24V direct supply (P1), the contact of 24VDC DC relay one (K4) and the series circuit of spindle brake power light (L2), the contact of 24VDC DC relay three (K9) and the series circuit of laser broken yarn automatic stop pilot lamp (L3), the contact of 24VDC DC relay four (K10) and the series circuit of cylinder operation pilot lamp (L4), the contact of 24VDC DC relay five (K11) and the series circuit of blast dryer relay indicating light (L5).

4. lace machine electrical control cabinet device for testing functions according to claim 1, it is characterized in that, described warp beam frequency converter one (A2) rear end connects through spindle motor one (M2) and warp beam motor encoder one (B2), described warp beam frequency converter two (A3) rear end connects through spindle motor two (M3) and warp beam motor encoder two (B3), described warp beam frequency converter three (A4) rear end connects through spindle motor three (M4) and warp beam motor encoder three (B4), described warp beam frequency converter four (A5) rear end connects through spindle motor four (M5) and warp beam motor encoder four (B5), described warp beam frequency converter five (A6) rear end connects through spindle motor five (M6) and warp beam motor encoder five (B6), described tractive frequency converter (A7) rear end connects tractive motor (M7) and tractive motor encoder (B7).

5. lace machine electrical control cabinet device for testing functions according to claim 1, is characterized in that, described laser broken yarn connects generating laser (T1) and laser pickoff (R1) on stop controller (F1).

6. lace machine electrical control cabinet device for testing functions according to claim 2, it is characterized in that, the contact of described 24VDC DC relay six (K12) is connected with lathe bed burner on light (L6), the contact of described 24VDC D.C. contactor one (K5) connects voltage-phase phase sequence display instrument one (N1), the contact of described 24VDC D.C. contactor two (K7) connects voltage-phase phase sequence display instrument two (N2), and the contact of described 24VDC D.C. contactor three (K8) connects voltage-phase phase sequence display instrument three (N3).

7. lace machine electrical control cabinet device for testing functions according to claim 2, it is characterized in that, described front side scram button (S1), rear side scram button (S1 '), front side stop button (S2), rear side stop button (S2 ') and the state crossing oil-pressure shut-off switch button (S7 ') are normally closed-self-locking.

8. lace machine electrical control cabinet device for testing functions according to claim 2, it is characterized in that, the state of described front side slow button (S3), rear side slow button (S3 '), front side top button (S4) and rear side top button (S4 ') is Chang Kai-reset.

9. lace machine electrical control cabinet device for testing functions according to claim 2, is characterized in that, the state of described front side light curtain button (S5), rear side light curtain button (S5 ') and safety thermostat button (S6) be normally closed-reset.

10. lace machine electrical control cabinet device for testing functions according to claim 2, it is characterized in that, the state of described oil-pressure shut-off switch button (S7), fabric take-off shift knob (S8), PSJ safety switch button (S9), switching cylinder button (S10) and blast dryer shift knob (S11) is Chang Kai-self-locking.