[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

CN102040162B - Photoelectric contactless linkage console - Google Patents

Photoelectric contactless linkage console Download PDF

Info

Publication number
CN102040162B
CN102040162B CN 200910172379 CN200910172379A CN102040162B CN 102040162 B CN102040162 B CN 102040162B CN 200910172379 CN200910172379 CN 200910172379 CN 200910172379 A CN200910172379 A CN 200910172379A CN 102040162 B CN102040162 B CN 102040162B
Authority
CN
China
Prior art keywords
controllable silicon
gdc
optocoupler
output end
control system
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN 200910172379
Other languages
Chinese (zh)
Other versions
CN102040162A (en
Inventor
韩书建
葛彦军
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
ZHONGGUAN LIFTING ELECTRICAL APPLIANCE FACTORY CO Ltd XINXIANG CITY
Original Assignee
ZHONGGUAN LIFTING ELECTRICAL APPLIANCE FACTORY CO Ltd XINXIANG CITY
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by ZHONGGUAN LIFTING ELECTRICAL APPLIANCE FACTORY CO Ltd XINXIANG CITY filed Critical ZHONGGUAN LIFTING ELECTRICAL APPLIANCE FACTORY CO Ltd XINXIANG CITY
Priority to CN 200910172379 priority Critical patent/CN102040162B/en
Publication of CN102040162A publication Critical patent/CN102040162A/en
Application granted granted Critical
Publication of CN102040162B publication Critical patent/CN102040162B/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Power Conversion In General (AREA)
  • Electric Propulsion And Braking For Vehicles (AREA)

Abstract

The invention relates to a photoelectric contactless linkage console. The photoelectric contactless linkage console is connected with a main switch of a cart control system, a main switch of a trolley control system, a controller of the cart control system and a controller of the trolley control system, the main switch of the cart control system is connected with an external power supply of the cart control system, a forward contactor of the cart control system, a reverse contactor of the cart control system and a brake contactor of the cart control system, the main switch of the trolley control system is connected with the external power supply, a forward contactor of the trolley control system, a reverse contactor of the trolley control system and a brake contactor of the trolley control system. The photoelectric contactless linkage console has the advantages of reducing the fault rate of hoisting electrics, lowering the cost of the hoisting electrics, reducing the occupied area of the hoisting electrics part, and improving installation speed and the intellectualization of the hoisting electrics part.

Description

Photoelectric contactless linkage console
Technical field
This creativity and innovation relates to a kind of photoelectric contactless linkage console of rheostatic speed regulation interlock control of in front and back, motion of translation process, crane motor being cut at the large dolly of hoisting crane.
Background technology
At present, traditional joint action table, because adopting the mechanical contact-type joint action table, realize the mode of electric machine speed regulation by cutting resistance, joint action table is by changing the mechanical contact of joint action table inside, reach the control signal that changes motor controlling cabinet, the mechanical contact resistance is large, easy to wear, occurred that machinery is stuck, cause that hoisting crane can't normally move, the high in cost of production shortcoming.
Summary of the invention
The purpose of this creativity and innovation is to overcome the deficiency that prior art exists, and provide a kind of electric fault rate of lifting that can reduce, the electric cost of compression lifting, reducing the lifting electric part takes up space, improve installation rate, improve the intelligentized hoisting crane photoelectric contactless linkage console of lifting electric part.
For achieving the above object, the technical solution adopted in the present invention is: comprise the control system housing, in the control system housing, photoelectric contactless linkage console is installed, the power input of photoelectric contactless linkage console is connected with the power input of the main supply switch of large vehicle control by circuit breaker, with the power input of the main supply switch of trolley control system, be connected, with the power input of the controller of large vehicle control, be connected, with the power input of the controller of trolley control system, be connected, the cart signal output part of photoelectric contactless linkage console is connected with the signal input part of the controller of large vehicle control, the dolly signal output part of photoelectric contactless linkage console is connected with the signal input part of the controller of trolley control system, the power input of the main supply switch of large vehicle control is connected with external power supply, the power output end of the main supply switch of large vehicle control is connected with the power input of the positive contactor of large vehicle control by the motor protecter of large vehicle control, with the power input of the reversion contactless switch of large vehicle control, be connected, with the power input of the braking contactor of large vehicle control, be connected, the coil input end of the drg contactless switch of large vehicle control is connected with the speed-slackening signal mouth of the controller of large vehicle control, the power input of the braking contactor of large vehicle control is connected with the power output end of the main supply switch of large vehicle control by large vehicle control motor protecter, the power output end of the drg of large vehicle control is connected with the power input of the drg of large vehicle control, the coil input end of the positive contactor of large vehicle control is connected with the positive contactor signal output part of the controller of large vehicle control, the power input of the positive contactor of large vehicle control is connected with the power output end of the main supply switch of large vehicle control by large vehicle control motor protecter, the power output end of the positive contactor of large vehicle control is connected with the stator power input end of the electrical motor of large vehicle control, the coil input end of the reversion contactless switch of large vehicle control is connected with the controller reversion contactless switch signal output part of large vehicle control, the power input of the reversion contactless switch of large vehicle control is connected with the power output end of the main supply switch of large vehicle control by large vehicle control motor protecter, the power output end of the reversion contactless switch of large vehicle control is connected with the stator power input end of electrical motor, the coil input end that the one-level of large vehicle control is cut the resistance contactless switch is cut resistance contactless switch signal output part with the controller one-level of large vehicle control and is connected, the one-level of large vehicle control is cut the power input of resistance contactless switch and the resistor 1 of large vehicle control, 2, No. 3 terminal is connected, the one-level of large vehicle control is cut the directly parallel connection of power output end of resistance contactless switch, the coil input end that the secondary of large vehicle control is cut the resistance contactless switch and the controller secondary of large vehicle control are cut and are hindered the contactless switch signal output part and be connected, the power input that the secondary of large vehicle control is cut the resistance contactless switch and 4 of the resistor of large vehicle control, 5, No. 6 terminal is connected, the secondary of large vehicle control is cut the directly parallel connection of power output end of resistance contactless switch, cut resistance contactless switch signal output part and be connected for three grades of the coil input end that three grades of large vehicle control are cut the resistance contactless switch and the controller of large vehicle control, 7 of the resistor of the power input of three grades of contactless switchs of large vehicle control and large vehicle control, 8, No. 9 terminal is connected, three grades of power output ends of cutting the resistance contactless switch of large vehicle control are directly in parallel, the coil that the level Four of large vehicle control is cut the resistance contactless switch and the level Four of the controller of large vehicle control are cut and are hindered the contactless switch signal output part and be connected, 10 of the resistor of the power input of the level Four contactless switch of large vehicle control and large vehicle control, 11, No. 12 terminal is connected, the level Four of large vehicle control is cut the directly parallel connection of power output end of resistance contactless switch, the rotor of the electrical motor of large vehicle control is connected with the power input of the resistor of large vehicle control, the power input of the main supply switch of trolley control system is connected with external power supply, the power output end of the main supply switch of trolley control system is connected with the power input of the positive contactor of trolley control system by the motor protecter of trolley control system, with the power input of the reversion contactless switch of trolley control system, be connected, with the power input of the braking contactor of trolley control system, be connected, the coil input end of the drg contactless switch of trolley control system is connected with the braking contactor signal output part of the controller of trolley control system, the power input of the braking contactor of trolley control system is connected with the power output end of the main supply switch of trolley control system by the motor protecter of trolley control system, the power output end of the drg of trolley control system is connected with the power input of the drg of trolley control system, the coil input end of the positive contactor of trolley control system is connected with the positive contactor signal output part of the controller of trolley control system, the power input of the positive contactor of trolley control system is connected with the power output end of the main supply switch of trolley control system by the motor protecter of trolley control system, the power output end of the positive contactor of trolley control system is connected with the stator power input end of the electrical motor of trolley control system, the coil input end of the reversion contactless switch of trolley control system is connected with the controller of trolley control system reversion contactless switch signal output part, the power input of the reversion contactless switch of trolley control system is connected with the power output end of the main supply switch of trolley control system, the power output end of the reversion contactless switch of trolley control system is connected with the stator power input end of electrical motor, coil input end and the controller one-level of trolley control system that the one-level of trolley control system is cut the resistance contactless switch are cut resistance contactless switch signal output part and are connected, the one-level of trolley control system is cut the power input of resistance contactless switch and the resistor 1 of trolley control system, 2, No. 3 terminal is connected, the one-level of trolley control system is cut the directly parallel connection of power output end of resistance contactless switch, coil input end and the controller secondary of trolley control system that the secondary of trolley control system is cut the resistance contactless switch are cut resistance contactless switch signal output part and are connected, the secondary of trolley control system cut the resistance power input of contactless switch and trolley control system resistor 4, 5, No. 6 terminal is connected, the secondary of trolley control system is cut the directly parallel connection of power output end of resistance contactless switch, cut resistance contactless switch signal output part and be connected for three grades of the coil input end of three grades of resistance contactors of trolley control system and the controller of trolley control system, 7 of the power input of three grades of contactless switchs of trolley control system and the resistor of trolley control system, 8, No. 9 terminal is connected, three grades of power output ends of cutting the resistance contactless switch of trolley control system are directly in parallel, coil and the level Four of the controller of trolley control system that the level Four of trolley control system is cut the resistance contactless switch are cut resistance contactless switch signal output part and are connected, 10 of the power input of the level Four contactless switch of trolley control system and the resistor of trolley control system, 11, No. 12 terminal is connected, the level Four of trolley control system is cut the directly parallel connection of power output end of resistance contactless switch, the rotor of the electrical motor of trolley control system is connected with the power input of the resistor of trolley control system.
Described photoelectric contactless linkage console comprises control circuit, and this control circuit comprises large vehicle control control circuit, trolley control system control control circuit.
The annexation of large vehicle control control circuit is: transformer T 1Elementary connection photoelectric contactless linkage console power input terminal, transformer T 1Secondary connection rectifier bridge DD 11,3 pin, rectifier bridge DD 12 pin connect capacitor C 1Positive pole, connect 1 pin of three terminal regulator 7824, rectifier bridge DD 14 pin connect capacitor C 1Negative pole, connect three terminal regulator 7824 2 pin, connect capacitor C 2Negative pole connect ground wire, 3 pin of three terminal regulator 7824 connect capacitor C 2Positive pole, by resistor R 1Connect optoelectronic switch V 1Diode positive pole, by resistor R 2Connect optoelectronic switch V 5Diode positive pole, by resistor R 3Connect optoelectronic switch V 9The positive pole of diode, optoelectronic switch V 1Negative pole and the optoelectronic switch V of diode 2The positive pole of diode be connected, optoelectronic switch V 1The colelctor electrode of triode is by resistor R 4With the positive pole of power supply, be connected, optoelectronic switch V 1The emitter stage of triode and optocoupler GDC 1Diode cathode be connected, optocoupler GDC 1Diode cathode with ground wire, be connected, optocoupler GDC 1Thyristor supply input and controllable silicon Q 1Power input be connected, with Vin K 1Terminal is connected, optocoupler GDC 1Silicon controlled power output end and controllable silicon Q 1Power output end be connected and K 1The Out terminal is connected, controllable silicon Q 1Power input and controllable silicon Q 1Power output end and be connected to piezoresistor RV 1, controllable silicon Q 1The control utmost point and controllable silicon Q 1Power output end also is connected to resistance R 16, optoelectronic switch V 2Negative pole and the optoelectronic switch V of diode 3The positive pole of diode be connected, optoelectronic switch V 2The colelctor electrode of triode is by resistor R 5With the positive pole of power supply, be connected, optoelectronic switch V 2The emitter stage of triode and optocoupler GDC 2Diode cathode be connected, optocoupler GDC 2Diode cathode with ground wire, be connected, optocoupler GDC 2Thyristor supply input and controllable silicon Q 2Power input be connected, with Vin K 2Terminal is connected, optocoupler GDC 2Silicon controlled power output end and controllable silicon Q 2Power output end be connected and K 2The Out terminal is connected, controllable silicon Q 2Power input and controllable silicon Q 2Power output end and be connected to piezoresistor RV 2, controllable silicon Q 2The control utmost point and controllable silicon Q 2Power output end also is connected to resistance R 17, optoelectronic switch V 3Negative pole and the optoelectronic switch V of diode 4The positive pole of diode be connected, optoelectronic switch V 3The colelctor electrode of triode is by resistor R 6With the positive pole of power supply, be connected, optoelectronic switch V 3The emitter stage of triode and optocoupler GDC 2Diode cathode be connected, optocoupler GDC 3Diode cathode with ground wire, be connected, optocoupler GDC 3Thyristor supply input and controllable silicon Q 3Power input be connected, with Vin K 3Terminal is connected, optocoupler GDC 3Silicon controlled power output end and controllable silicon Q 3Power output end be connected and K 3The Out terminal is connected, controllable silicon Q 3Power input and controllable silicon Q 3Power output end and be connected to piezoresistor RV 3, controllable silicon Q 2The control utmost point and controllable silicon Q 3Power output end also is connected to resistance R 18, optoelectronic switch V 4The negative pole of diode with ground wire, be connected, optoelectronic switch V 4The colelctor electrode of triode is by resistor R 7With the positive pole of power supply, be connected, optoelectronic switch V 4The emitter stage of triode and optocoupler GDC 4Diode cathode be connected, optocoupler GDC 4Diode cathode with ground wire, be connected, optocoupler GDC 4Thyristor supply input and controllable silicon Q 4Power input be connected, with Vin K 4Terminal is connected, optocoupler GDC 4Silicon controlled power output end and controllable silicon Q 4Power output end be connected and K 4The Out terminal is connected, controllable silicon Q 4Power input and controllable silicon Q 4Power output end and be connected to piezoresistor RV 4, controllable silicon Q 4The control utmost point and controllable silicon Q 4Power output end also is connected to resistance R 19, optoelectronic switch V 5Negative pole and the optoelectronic switch V of diode 6The positive pole of diode be connected, optoelectronic switch V 5The colelctor electrode of triode is by resistor R 9With the positive pole of power supply, be connected, optoelectronic switch V 5The emitter stage of triode and optocoupler GDC 5Diode cathode be connected, optocoupler GDC 5Diode cathode with ground wire, be connected, optocoupler GDC 5Thyristor supply input and controllable silicon Q 5Power input be connected, with Vin K 5Terminal is connected, optocoupler GDC 5Silicon controlled power output end and controllable silicon Q 5Power output end be connected and K 5The Out terminal is connected, controllable silicon Q 5Power input and controllable silicon Q 5Power output end and be connected to piezoresistor RV 5, controllable silicon Q 5The control utmost point and controllable silicon Q 5Power output end also is connected to resistance R 20, optoelectronic switch V 6Negative pole and the optoelectronic switch V of diode 7The positive pole of diode be connected, optoelectronic switch V 6The colelctor electrode of triode is by resistor R 9With the positive pole of power supply, be connected, optoelectronic switch V 6The emitter stage of triode and optocoupler GDC 6Diode cathode be connected, optocoupler GDC 6Diode cathode with ground wire, be connected, optocoupler GDC 6Thyristor supply input and controllable silicon Q 6Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 6Silicon controlled power output end and controllable silicon Q 6Power output end be connected and K 6The Out terminal is connected, controllable silicon Q 6Power input and controllable silicon Q 6Power output end and be connected to piezoresistor RV 6, controllable silicon Q 6The control utmost point and controllable silicon Q 6Power output end also is connected to resistance R 21, optoelectronic switch V 7Negative pole and the optoelectronic switch V of diode 8The positive pole of diode be connected, optoelectronic switch V 7The colelctor electrode of triode is by resistor R 10With the positive pole of power supply, be connected, optoelectronic switch V 7The emitter stage of triode and optocoupler GDC 7Diode cathode be connected, optocoupler GDC 7Diode cathode with ground wire, be connected, optocoupler GDC 7Thyristor supply input and controllable silicon Q 7Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 7Silicon controlled power output end and controllable silicon Q 7Power output end be connected and K 7The Out terminal is connected, controllable silicon Q 7Power input and controllable silicon Q 7Power output end and be connected to piezoresistor RV 7, controllable silicon Q 7The control utmost point and controllable silicon Q 7Power output end also is connected to resistance R 22, optoelectronic switch V 7The negative pole of diode with ground wire, be connected, optoelectronic switch V 8The colelctor electrode of triode is by resistor R 11With the positive pole of power supply, be connected, optoelectronic switch V 8The emitter stage of triode and optocoupler GDC 8Diode cathode be connected, optocoupler GDC 8Diode cathode with ground wire, be connected, optocoupler GDC 8Thyristor supply input and controllable silicon Q 8Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 8Silicon controlled power output end and controllable silicon Q 8Power output end be connected and K 8The Out terminal is connected, controllable silicon Q 8Power input and controllable silicon Q 8Power output end and be connected to piezoresistor RV 8, controllable silicon Q 8The control utmost point and controllable silicon Q 8Power output end also is connected to resistance R 23, optoelectronic switch V 9Negative pole and the optoelectronic switch V of diode 10The positive pole of diode be connected, optoelectronic switch V 9The colelctor electrode of triode is by resistor R 12With the positive pole of power supply, be connected, optoelectronic switch V 9The emitter stage of triode and optocoupler GDC 9Diode cathode be connected, optocoupler GDC 9Diode cathode with ground wire, be connected, optocoupler GDC 9Thyristor supply input and controllable silicon Q 9Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 9Silicon controlled power output end and controllable silicon Q 7Power output end be connected, controllable silicon Q 9Power input and controllable silicon Q 9Power output end and be connected to piezoresistor RV 9, controllable silicon Q 9The control utmost point and controllable silicon Q 9Power output end also is connected to resistance R 24, optoelectronic switch V 10Negative pole and the optoelectronic switch V of diode 11The positive pole of diode be connected, optoelectronic switch V 10The colelctor electrode of triode is by resistor R 13With the positive pole of power supply, be connected, optoelectronic switch V 10The emitter stage of triode and optocoupler GDC 10Diode cathode be connected, optocoupler GDC 10Diode cathode with ground wire, be connected, optocoupler GDC 10Thyristor supply input and controllable silicon Q 10Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 10Silicon controlled power output end and controllable silicon Q 10Power output end be connected, controllable silicon Q 10Power input and controllable silicon Q 10Power output end and be connected to piezoresistor RV 10, controllable silicon Q 10The control utmost point and controllable silicon Q 10Power output end also is connected to resistance R 25, optoelectronic switch V 11Negative pole and the optoelectronic switch V of diode 12The positive pole of diode be connected, optoelectronic switch V 11The colelctor electrode of triode is by resistor R 14With the positive pole of power supply, be connected, optoelectronic switch V 11The emitter stage of triode and optocoupler GDC 11Diode cathode be connected, optocoupler GDC 11Diode cathode with ground wire, be connected, optocoupler GDC 11Thyristor supply input and controllable silicon Q 11Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 11Silicon controlled power output end and controllable silicon Q 11Power output end be connected, controllable silicon Q 11Power input and controllable silicon Q 11Power output end and be connected to piezoresistor RV 11, controllable silicon Q 11The control utmost point and controllable silicon Q 11Power output end also is connected to resistance R 26, optoelectronic switch V 12The negative pole of diode with ground wire, be connected, optoelectronic switch V 12The colelctor electrode of triode is by resistor R 15With the positive pole of power supply, be connected, optoelectronic switch V 12The emitter stage of triode and optocoupler GDC 12Diode cathode be connected, optocoupler GDC 12Diode cathode with ground wire, be connected, optocoupler GDC 12Thyristor supply input and controllable silicon Q 12Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 12Silicon controlled power output end and controllable silicon Q 12Power output end be connected, controllable silicon Q 12Power input and controllable silicon Q 12Power output end and be connected to piezoresistor RV 12, controllable silicon Q 12The control utmost point and controllable silicon Q 12Power output end also is connected to resistance R 27.
The annexation of trolley control system control circuit is: transformer T 1-1Elementary connection photoelectric contactless linkage console power input terminal, transformer T 1-1Secondary connection rectifier bridge DD 1-11,3 pin, rectifier bridge DD 1-12 pin connect capacitor C 1-1Positive pole, connect three terminal regulator 7824 -11 pin, rectifier bridge DD 1-14 pin connect capacitor C 1-1Negative pole, connect three terminal regulator 7824 -12 pin, connect capacitor C 2-1Negative pole connect ground wire, three terminal regulator 7824 -13 pin connect capacitor C 2-1Positive pole, by resistor R 1-1Connect optoelectronic switch V 1-1Diode positive pole, by resistor R 2-1Connect optoelectronic switch V 5-1Diode positive pole, by resistor R 3-1Connect optoelectronic switch V 9-1The positive pole of diode, optoelectronic switch V 1-1Negative pole and the optoelectronic switch V of diode 2-1The positive pole of diode be connected, optoelectronic switch V 1-1The colelctor electrode of triode is by resistor R 4-1With the positive pole of power supply, be connected, optoelectronic switch V 1-1The emitter stage of triode and optocoupler GDC 1-1Diode cathode be connected, optocoupler GDC 1-1Diode cathode with ground wire, be connected, optocoupler GDC 1-1Thyristor supply input and controllable silicon Q 1-1Power input be connected, with Vin K 1-1Terminal is connected, optocoupler GDC 1-1Silicon controlled power output end and controllable silicon Q 1-1Power output end be connected and K 1Out -1Terminal is connected, controllable silicon Q 1-1Power input and controllable silicon Q 1-1Power output end and be connected to piezoresistor RV 1-1, controllable silicon Q 1-1The control utmost point and controllable silicon Q 1-1Power output end also is connected to resistance R 16-1, optoelectronic switch V 2-1Negative pole and the optoelectronic switch V of diode 3-1The positive pole of diode be connected, optoelectronic switch V 2-1The colelctor electrode of triode is by resistor R 5-1With the positive pole of power supply, be connected, optoelectronic switch V 2-1The emitter stage of triode and optocoupler GDC 2-1Diode cathode be connected, optocoupler GDC 2-1Diode cathode with ground wire, be connected, optocoupler GDC 2-1Thyristor supply input and controllable silicon Q 2-1Power input be connected, with Vin K 2-1Terminal is connected, optocoupler GDC 2-1Silicon controlled power output end and controllable silicon Q 2-1Power output end be connected and K 2Out -1Terminal is connected, controllable silicon Q 2-1Power input and controllable silicon Q 2-1Power output end and be connected to piezoresistor RV 2-1, controllable silicon Q 2-1The control utmost point and controllable silicon Q 2-1Power output end also is connected to resistance R 17-1, optoelectronic switch V 3-1Negative pole and the optoelectronic switch V of diode 4-1The positive pole of diode be connected, optoelectronic switch V 3-1The colelctor electrode of triode is by resistor R 6-1With the positive pole of power supply, be connected, optoelectronic switch V 3-1The emitter stage of triode and optocoupler GDC 2-1Diode cathode be connected, optocoupler GDC 3-1Diode cathode with ground wire, be connected, optocoupler GDC 3-1Thyristor supply input and controllable silicon Q 3-1Power input be connected, with Vin K 3-1Terminal is connected, optocoupler GDC 3-1Silicon controlled power output end and controllable silicon Q 3-1Power output end be connected and K 3Out -1Terminal is connected, controllable silicon Q 3-1Power input and controllable silicon Q 3-1Power output end and be connected to piezoresistor RV 3-1, controllable silicon Q 2The control utmost point and controllable silicon Q 3-1Power output end also is connected to resistance R 18-1, optoelectronic switch V 4-1The negative pole of diode with ground wire, be connected, optoelectronic switch V 4-1The colelctor electrode of triode is by resistor R 7-1With the positive pole of power supply, be connected, optoelectronic switch V 4-1The emitter stage of triode and optocoupler GDC 4-1Diode cathode be connected, optocoupler GDC 4-1Diode cathode with ground wire, be connected, optocoupler GDC 4-1Thyristor supply input and controllable silicon Q 4-1Power input be connected, with Vin K 4-1Terminal is connected, optocoupler GDC 4-1Silicon controlled power output end and controllable silicon Q 4-1Power output end be connected and K 4Out -1Terminal is connected, controllable silicon Q 4-1Power input and controllable silicon Q 4-1Power output end and be connected to piezoresistor RV 4, controllable silicon Q 4The control utmost point and controllable silicon Q 4Power output end also is connected to resistance R 19, optoelectronic switch V 5-1Negative pole and the optoelectronic switch V of diode 6-1The positive pole of diode be connected, optoelectronic switch V 5-1The colelctor electrode of triode is by resistor R 9-1With the positive pole of power supply, be connected, optoelectronic switch V 5-1The emitter stage of triode and optocoupler GDC 5-1Diode cathode be connected, optocoupler GDC 5-1Diode cathode with ground wire, be connected, optocoupler GDC 5-1Thyristor supply input and controllable silicon Q 5-1Power input be connected, with Vin K 5-1Terminal is connected, optocoupler GDC 5-1Silicon controlled power output end and controllable silicon Q 5-1Power output end be connected and K 5Out -1Terminal is connected, controllable silicon Q 5-1Power input and controllable silicon Q 5-1Power output end and be connected to piezoresistor RV 5-1, controllable silicon Q 5-1The control utmost point and controllable silicon Q 5-1Power output end also is connected to resistance R 20-1, optoelectronic switch V 6-1Negative pole and the optoelectronic switch V of diode 7-1The positive pole of diode be connected, optoelectronic switch V 6-1The colelctor electrode of triode is by resistor R 9-1With the positive pole of power supply, be connected, optoelectronic switch V 6-1The emitter stage of triode and optocoupler GDC 6-1Diode cathode be connected, optocoupler GDC 6-1Diode cathode with ground wire, be connected, optocoupler GDC 6-1Thyristor supply input and controllable silicon Q 6-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 6-1Silicon controlled power output end and controllable silicon Q 6-1Power output end be connected and K 6Out -1Terminal is connected, controllable silicon Q 6-1Power input and controllable silicon Q 6-1Power output end and be connected to piezoresistor RV 6-1, controllable silicon Q 6-1The control utmost point and controllable silicon Q 6-1Power output end also is connected to resistance R 21-1, optoelectronic switch V 7-1Negative pole and the optoelectronic switch V of diode 8-1The positive pole of diode be connected, optoelectronic switch V 7-1The colelctor electrode of triode is by resistor R 10-1With the positive pole of power supply, be connected, optoelectronic switch V 7-1The emitter stage of triode and optocoupler GDC 7-1Diode cathode be connected, optocoupler GDC 7-1Diode cathode with ground wire, be connected, optocoupler GDC 7-1Thyristor supply input and controllable silicon Q 7-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 7-1Silicon controlled power output end and controllable silicon Q 7-1Power output end be connected and K 7Out -1Terminal is connected, controllable silicon Q 7-1Power input and controllable silicon Q 7-1Power output end and be connected to piezoresistor RV 7-1, controllable silicon Q 7-1The control utmost point and controllable silicon Q 7-1Power output end also is connected to resistance R 22-1, optoelectronic switch V 8-1The negative pole of diode with ground wire, be connected, optoelectronic switch V 8-1The colelctor electrode of triode is by resistor R 11-1With the positive pole of power supply, be connected, optoelectronic switch V 8-1The emitter stage of triode and optocoupler GDC 8-1Diode cathode be connected, optocoupler GDC 8-1Diode cathode with ground wire, be connected, optocoupler GDC 8-1Thyristor supply input and controllable silicon Q 8-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 8-1Silicon controlled power output end and controllable silicon Q 8-1Power output end be connected and K 8Out -1Terminal is connected, controllable silicon Q 8-1Power input and controllable silicon Q 8-1Power output end and be connected to piezoresistor RV 8-1, controllable silicon Q 8-1The control utmost point and controllable silicon Q 8-1Power output end also is connected to resistance R 23-1, optoelectronic switch V 9-1Negative pole and the optoelectronic switch V of diode 10-1The positive pole of diode be connected, optoelectronic switch V 9-1The colelctor electrode of triode is by resistor R 12-1With the positive pole of power supply, be connected, optoelectronic switch V 9-1The emitter stage of triode and optocoupler GDC 9-1Diode cathode be connected, optocoupler GDC 9-1Diode cathode with ground wire, be connected, optocoupler GDC 9-1Thyristor supply input and controllable silicon Q 9-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 9-1Silicon controlled power output end and controllable silicon Q 7-1Power output end be connected, controllable silicon Q 9-1Power input and controllable silicon Q 9-1Power output end and be connected to piezoresistor RV 9-1, controllable silicon Q 9-1The control utmost point and controllable silicon Q 9-1Power output end also is connected to resistance R 24-1, optoelectronic switch V 10-1Negative pole and the optoelectronic switch V of diode 11-1The positive pole of diode be connected, optoelectronic switch V 10-1The colelctor electrode of triode is by resistor R 13-1With the positive pole of power supply, be connected, optoelectronic switch V 10-1The emitter stage of triode and optocoupler GDC 10-1Diode cathode be connected, optocoupler GDC 10-1Diode cathode with ground wire, be connected, optocoupler GDC 10-1Thyristor supply input and controllable silicon Q 10-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 10-1Silicon controlled power output end and controllable silicon Q 10-1Power output end be connected, controllable silicon Q 10-1Power input and controllable silicon Q 10-1Power output end and be connected to piezoresistor RV 10-1, controllable silicon Q 10-1The control utmost point and controllable silicon Q 10-1Power output end also is connected to resistance R 25-1, optoelectronic switch V 11-1Negative pole and the optoelectronic switch V of diode 12-1The positive pole of diode be connected, optoelectronic switch V 11-1The colelctor electrode of triode is by resistor R 14-1With the positive pole of power supply, be connected, optoelectronic switch V 11-1The emitter stage of triode and optocoupler GDC 11-1Diode cathode be connected, optocoupler GDC 11-1Diode cathode with ground wire, be connected, optocoupler GDC 11-1Thyristor supply input and controllable silicon Q 11-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 11-1Silicon controlled power output end and controllable silicon Q 11-1Power output end be connected, controllable silicon Q 11-1Power input and controllable silicon Q 11-1Power output end and be connected to piezoresistor RV 11-1, controllable silicon Q 11-1The control utmost point and controllable silicon Q 11-1Power output end also is connected to resistance R 26-1, optoelectronic switch V 12-1The negative pole of diode with ground wire, be connected, optoelectronic switch V 12-1The colelctor electrode of triode is by resistor R 15-1With the positive pole of power supply, be connected, optoelectronic switch V 12-1The emitter stage of triode and optocoupler GDC 12-1Diode cathode be connected, optocoupler GDC 12-1Diode cathode with ground wire, be connected, optocoupler GDC 12-1Thyristor supply input and controllable silicon Q 12-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 12-1Silicon controlled power output end and controllable silicon Q 12-1Power output end be connected, controllable silicon Q 12-1Power input and controllable silicon Q 12-1Power output end and be connected to piezoresistor RV 12-1, controllable silicon Q 12-1The control utmost point and controllable silicon Q 12-1Power output end also is connected to resistance R 27-1.
This creativity and innovation has can reduce the electric fault rate of hoisting crane, reduces mechanical friction power, reduces the electrical equipment peace and turns personnel labor intensity, reduce the electric cost of hoisting crane, reduce the hoisting crane electric part and take up space, improve the electric intellectuality of hoisting crane, improve the advantage of hoisting crane electric property.
Description of figures
Fig. 1 photoelectric contactless linkage console block scheme.
The schematic circuit diagram of Fig. 2 photoelectric contactless linkage console cart control circuit.
The schematic circuit diagram of Fig. 3 photoelectric contactless linkage console dolly control circuit.
The specific embodiment
Shown in Figure 1 , the present invention includes a control system to create a housing , the housing is mounted with a photoelectric control linkage station 30 without contact , non-contact optical power input terminal sets linkage 30 is controlled by the circuit breaker 9 and the cart the total system power switch connected to the input terminal 1 , and the total car control system switching power supply input terminal 16 is connected to the control system with the carts controller power input terminal 6 is connected with the trolley control system controller power supply 29 is connected to the input terminal , a non-contact optical signal carts linkage units connected to the output 30 of the cart control signal input terminal of the controller 6, the optical non-contact signal interaction trolley station 30 and the output terminal car control system signal input terminal of the controller 29 is connected to the control system carts total switching power supply input terminal 1 is connected to an external power source , the control system carts total output of a switching power supply control system via carts motor protector 2 carts forward contactor control system with the power input terminal 3 is connected with the carts reversing contactor control system power input terminal 4 is connected with the control system carts brake contactor 5 power input connector , the input of the brake contactor coil control system 5 carts and carts brake control system controller connected to the output signal contacts 6 , power carts brake contactor control system 5 input 2 and carts total switching power supply control system connected to the output terminal of a motor protection carts through the control system , brake control systems carts power output 5 and carts brake control system power input 10 power supply terminal of the connection , carts coil input of the control system forward contactor 3 is connected to the control system controller carts forward contactor signal output terminal 6 , the control system carts forward contactor 4 the input of the control system via carts 2 and carts motor protection control system of total switching power supply output terminal of a connection , the cart control system forward power output contactor 3 and carts motor control system the stator 7 is connected to the power supply input terminal , inverting input of the coil of the contactor 4 of the control system of the cart and the cart of the system controller 6 controls reversing contacts connected to the output signal , reverse contactor control system cart 2 of 4 power input and carts total switching power supply control system connected to the output terminal of a motor protection carts through the control system , the stator reversing contactor control system 4 carts power output of the motor 7 power supply input terminal connected to the input level of cut resistance of the coil contacts the control system 12 of the cart and the cart of the system controller 6 controls level of cut resistance of the contact connected to the output signal , the control system first tangential carts power input resistor 12 and the contactor control system carts 1,2,3 resistor is connected to terminals 11 , cut resistance level carts contactor control system power output direct parallel 12 carts control second input of the coil resistor contactor cutting system 13 and the system controller 6 controls the cart secondary cutting resistance contacts connected to the output signal , the secondary power input contactor cut resistance control system 13 carts a resistor connected to the control system of the cart 4,5,6 terminal 11 of the secondary cutting resistance contactor control system three carts cut resistance directly contacts the power output in parallel , the control system 13 of the cart coil 14 is connected to the input of the control system controller and the three carts cut the contact resistance of the signal output terminal 6 , the resistor power input contactor three carts cut resistance control system 14 and the control system cart 7,8,9 terminal 11 is connected to three four cut cut resistance resistor contactor contacts carts power output control system in parallel directly , the control system 14 of the cart and the cart control coils 15 cutting system controller four signal contacts barrier 6 is connected to the output terminal , the input power control system of the four contacts 15 of the cart and the cart of the control system of the resistor 11 with the terminal number 10,11,12 connection , cut four carts blocking the control system power output contactor direct parallel 15 carts rotor system control terminal of the motor 8 is connected to the control system carts power input resistor 11 , the trolley control system total switching power supply input connected to an external power source 16 , the total car control system switches the power output by 16 trolley motor protection control system 28 and trolley control system forward contactor power input 17 is connected with the reversing contactor power input car control system 18 is connected , in contact with the car brake control system 19 is connected to the power input , the input of the brake contactor coil control system 19 trolley car control system with controller brake contactor signal output terminal 29 connected to the power input contactor car brake control system 28 and the trolley 19 total switching power supply control system connected to the output terminal 16 via motor protection control system for the car , the car brake contactor control system and trolley brake power output of 19 power control system 22 is connected to the input terminal , the car control system forward contactor coil input terminal and car control system controller forward contacts 17 29 connected to the output signal , the control system of the car forward power input contactor 18 via trolley motor protection control system 28 is connected to the master switch car control system power output terminal 16 , forward car control system the stator and the power output of the motor car control system contactor 20 power input terminal 17 connected to the control input of the coil and the trolley system controller car reversing contactor control system 18 29 inverted signal output contactor connected to the control system of the car reversing contactor power input 18 of the control system via trolley 28 trolley motor protection control system 16 of the total output terminal of the switching power supply is connected , the car reversing contactor control system 18 the stator and the power output of the motor car control system power input terminal 20 connected to the input level of cut resistance coil contactor car control system 24 and the trolley control system controller 29 cut resistance level signal output contactor connected , cut resistance level contacts trolley control system power input and car control system 24 1,2,3 terminal resistor 23 is connected to the power level of cut resistance contactor car control system 24 resistive touch controller 29 second cut signal output terminal of the output of a direct parallel , two car control system cut resistance contactor coil input terminal and car control system 25 is connected to the secondary shear resistance contactor trolley control system the power input to the resistor 25 of the control system of the trolley 4,5,6 terminal 23 is connected to the secondary cutting trolley resistor contactor control system power supply output terminal 25 is directly connected in parallel , three contact resistance trolley control system coil input terminal 26 and the trolley control system controller three cut resistance contactor 29 is connected to the output signal , three trolley contactor control system power input control system and trolley resistor 26 7 23 , 8,9 terminal connected directly to the power supply output impedance cut three parallel contactor trolley control system 26 , the trolley control system, four coils in contact with the cut resistance of the control system 27 of the trolley 29, four controller cut resistance connected to the output stage , four trolley contactor control system power input control systems and car resistor 27 connected to terminal 23 , No. 10, 11 , and four car cut resistance contactor control system power output 27 direct parallel , the rotor of the motor car control system 21 and car control system power resistor connected to the input terminal 23 .
Described photoelectric contactless linkage console 30 comprises control circuit, and this control circuit comprises large vehicle control control circuit, trolley control system control control circuit.
As shown in Figure 2, the annexation of large vehicle control control circuit is: transformer T 1Elementary connection photoelectric contactless linkage console power input terminal, transformer T 1Secondary connection rectifier bridge DD 11,3 pin, rectifier bridge DD 12 pin connect capacitor C 1Positive pole, connect 1 pin of three terminal regulator 7824, rectifier bridge DD 14 pin connect capacitor C 1Negative pole, connect three terminal regulator 7824 2 pin, connect capacitor C 2Negative pole connect ground wire, 3 pin of three terminal regulator 7824 connect capacitor C 2Positive pole, by resistor R 1Connect optoelectronic switch V 1Diode positive pole, by resistor R 2Connect optoelectronic switch V 5Diode positive pole, by resistor R 3Connect optoelectronic switch V 9The positive pole of diode, optoelectronic switch V 1Negative pole and the optoelectronic switch V of diode 2The positive pole of diode be connected, optoelectronic switch V 1The colelctor electrode of triode is by resistor R 4With the positive pole of power supply, be connected, optoelectronic switch V 1The emitter stage of triode and optocoupler GDC 1Diode cathode be connected, optocoupler GDC 1Diode cathode with ground wire, be connected, optocoupler GDC 1Thyristor supply input and controllable silicon Q 1Power input be connected, with Vin K 1Terminal is connected, optocoupler GDC 1Silicon controlled power output end and controllable silicon Q 1Power output end be connected and K 1The Out terminal is connected, controllable silicon Q 1Power input and controllable silicon Q 1Power output end and be connected to piezoresistor RV 1, controllable silicon Q 1The control utmost point and controllable silicon Q 1Power output end also is connected to resistance R 16, optoelectronic switch V 2Negative pole and the optoelectronic switch V of diode 3The positive pole of diode be connected, optoelectronic switch V 2The colelctor electrode of triode is by resistor R 5With the positive pole of power supply, be connected, optoelectronic switch V 2The emitter stage of triode and optocoupler GDC 2Diode cathode be connected, optocoupler GDC 2Diode cathode with ground wire, be connected, optocoupler GDC 2Thyristor supply input and controllable silicon Q 2Power input be connected, with Vin K 2Terminal is connected, optocoupler GDC 2Silicon controlled power output end and controllable silicon Q 2Power output end be connected and K 2The Out terminal is connected, controllable silicon Q 2Power input and controllable silicon Q 2Power output end and be connected to piezoresistor RV 2, controllable silicon Q 2The control utmost point and controllable silicon Q 2Power output end also is connected to resistance R 17, optoelectronic switch V 3Negative pole and the optoelectronic switch V of diode 4The positive pole of diode be connected, optoelectronic switch V 3The colelctor electrode of triode is by resistor R 6With the positive pole of power supply, be connected, optoelectronic switch V 3The emitter stage of triode and optocoupler GDC 2Diode cathode be connected, optocoupler GDC 3Diode cathode with ground wire, be connected, optocoupler GDC 3Thyristor supply input and controllable silicon Q 3Power input be connected, with Vin K 3Terminal is connected, optocoupler GDC 3Silicon controlled power output end and controllable silicon Q 3Power output end be connected and K 3The Out terminal is connected, controllable silicon Q 3Power input and controllable silicon Q 3Power output end and be connected to piezoresistor RV 3, controllable silicon Q 2The control utmost point and controllable silicon Q 3Power output end also is connected to resistance R 18, optoelectronic switch V 4The negative pole of diode with ground wire, be connected, optoelectronic switch V 4The colelctor electrode of triode is by resistor R 7With the positive pole of power supply, be connected, optoelectronic switch V 4The emitter stage of triode and optocoupler GDC 4Diode cathode be connected, optocoupler GDC 4Diode cathode with ground wire, be connected, optocoupler GDC 4Thyristor supply input and controllable silicon Q 4Power input be connected, with Vin K 4Terminal is connected, optocoupler GDC 4Silicon controlled power output end and controllable silicon Q 4Power output end be connected and K 4The Out terminal is connected, controllable silicon Q 4Power input and controllable silicon Q 4Power output end and be connected to piezoresistor RV 4, controllable silicon Q 4The control utmost point and controllable silicon Q 4Power output end also is connected to resistance R 19, optoelectronic switch V 5Negative pole and the optoelectronic switch V of diode 6The positive pole of diode be connected, optoelectronic switch V 5The colelctor electrode of triode is by resistor R 9With the positive pole of power supply, be connected, optoelectronic switch V 5The emitter stage of triode and optocoupler GDC 5Diode cathode be connected, optocoupler GDC 5Diode cathode with ground wire, be connected, optocoupler GDC 5Thyristor supply input and controllable silicon Q 5Power input be connected, with Vin K 5Terminal is connected, optocoupler GDC 5Silicon controlled power output end and controllable silicon Q 5Power output end be connected and K 5The Out terminal is connected, controllable silicon Q 5Power input and controllable silicon Q 5Power output end and be connected to piezoresistor RV 5, controllable silicon Q 5The control utmost point and controllable silicon Q 5Power output end also is connected to resistance R 20, optoelectronic switch V 6Negative pole and the optoelectronic switch V of diode 7The positive pole of diode be connected, optoelectronic switch V 6The colelctor electrode of triode is by resistor R 9With the positive pole of power supply, be connected, optoelectronic switch V 6The emitter stage of triode and optocoupler GDC 6Diode cathode be connected, optocoupler GDC 6Diode cathode with ground wire, be connected, optocoupler GDC 6Thyristor supply input and controllable silicon Q 6Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 6Silicon controlled power output end and controllable silicon Q 6Power output end be connected and K 6The Out terminal is connected, controllable silicon Q 6Power input and controllable silicon Q 6Power output end and be connected to piezoresistor RV 6, controllable silicon Q 6The control utmost point and controllable silicon Q 6Power output end also is connected to resistance R 21, optoelectronic switch V 7Negative pole and the optoelectronic switch V of diode 8The positive pole of diode be connected, optoelectronic switch V 7The colelctor electrode of triode is by resistor R 10With the positive pole of power supply, be connected, optoelectronic switch V 7The emitter stage of triode and optocoupler GDC 7Diode cathode be connected, optocoupler GDC 7Diode cathode with ground wire, be connected, optocoupler GDC 7Thyristor supply input and controllable silicon Q 7Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 7Silicon controlled power output end and controllable silicon Q 7Power output end be connected and K 7The Out terminal is connected, controllable silicon Q 7Power input and controllable silicon Q 7Power output end and be connected to piezoresistor RV 7, controllable silicon Q 7The control utmost point and controllable silicon Q 7Power output end also is connected to resistance R 22, optoelectronic switch V 7The negative pole of diode with ground wire, be connected, optoelectronic switch V 8The colelctor electrode of triode is by resistor R 11With the positive pole of power supply, be connected, optoelectronic switch V 8The emitter stage of triode and optocoupler GDC 8Diode cathode be connected, optocoupler GDC 8Diode cathode with ground wire, be connected, optocoupler GDC 8Thyristor supply input and controllable silicon Q 8Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 8Silicon controlled power output end and controllable silicon Q 8Power output end be connected and K 8The Out terminal is connected, controllable silicon Q 8Power input and controllable silicon Q 8Power output end and be connected to piezoresistor RV 8, controllable silicon Q 8The control utmost point and controllable silicon Q 8Power output end also is connected to resistance R 23, optoelectronic switch V 9Negative pole and the optoelectronic switch V of diode 10The positive pole of diode be connected, optoelectronic switch V 9The colelctor electrode of triode is by resistor R 12With the positive pole of power supply, be connected, optoelectronic switch V 9The emitter stage of triode and optocoupler GDC 9Diode cathode be connected, optocoupler GDC 9Diode cathode with ground wire, be connected, optocoupler GDC 9Thyristor supply input and controllable silicon Q 9Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 9Silicon controlled power output end and controllable silicon Q 7Power output end be connected, controllable silicon Q 9Power input and controllable silicon Q 9Power output end and be connected to piezoresistor RV 9, controllable silicon Q 9The control utmost point and controllable silicon Q 9Power output end also is connected to resistance R 24, optoelectronic switch V 10Negative pole and the optoelectronic switch V of diode 11The positive pole of diode be connected, optoelectronic switch V 10The colelctor electrode of triode is by resistor R 13With the positive pole of power supply, be connected, optoelectronic switch V 10The emitter stage of triode and optocoupler GDC 10Diode cathode be connected, optocoupler GDC 10Diode cathode with ground wire, be connected, optocoupler GDC 10Thyristor supply input and controllable silicon Q 10Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 10Silicon controlled power output end and controllable silicon Q 10Power output end be connected, controllable silicon Q 10Power input and controllable silicon Q 10Power output end and be connected to piezoresistor RV 10, controllable silicon Q 10The control utmost point and controllable silicon Q 10Power output end also is connected to resistance R 25, optoelectronic switch V 11Negative pole and the optoelectronic switch V of diode 12The positive pole of diode be connected, optoelectronic switch V 11The colelctor electrode of triode is by resistor R 14With the positive pole of power supply, be connected, optoelectronic switch V 11The emitter stage of triode and optocoupler GDC 11Diode cathode be connected, optocoupler GDC 11Diode cathode with ground wire, be connected, optocoupler GDC 11Thyristor supply input and controllable silicon Q 11Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 11Silicon controlled power output end and controllable silicon Q 11Power output end be connected, controllable silicon Q 11Power input and controllable silicon Q 11Power output end and be connected to piezoresistor RV 11, controllable silicon Q 11The control utmost point and controllable silicon Q 11Power output end also is connected to resistance R 26, optoelectronic switch V 12The negative pole of diode with ground wire, be connected, optoelectronic switch V 12The colelctor electrode of triode is by resistor R 15With the positive pole of power supply, be connected, optoelectronic switch V 12The emitter stage of triode and optocoupler GDC 12Diode cathode be connected, optocoupler GDC 12Diode cathode with ground wire, be connected, optocoupler GDC 12Thyristor supply input and controllable silicon Q 12Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 12Silicon controlled power output end and controllable silicon Q 12Power output end be connected, controllable silicon Q 12Power input and controllable silicon Q 12Power output end and be connected to piezoresistor RV 12, controllable silicon Q 12The control utmost point and controllable silicon Q 12Power output end also is connected to resistance R 27.
As shown in Figure 3, the annexation of trolley control system control circuit is: transformer T 1-1Elementary connection photoelectric contactless linkage console power input terminal, transformer T 1-1Secondary connection rectifier bridge DD 1-11,3 pin, rectifier bridge DD 1-12 pin connect capacitor C 1-1Positive pole, connect three terminal regulator 7824 -11 pin, rectifier bridge DD 1-14 pin connect capacitor C 1-1Negative pole, connect three terminal regulator 7824 -12 pin, connect capacitor C 2-1Negative pole connect ground wire, three terminal regulator 7824 -13 pin connect capacitor C 2-1Positive pole, by resistor R 1-1Connect optoelectronic switch V 1-1Diode positive pole, by resistor R 2-1Connect optoelectronic switch V 5-1Diode positive pole, by resistor R 3-1Connect optoelectronic switch V 9-1The positive pole of diode, optoelectronic switch V 1-1Negative pole and the optoelectronic switch V of diode 2-1The positive pole of diode be connected, optoelectronic switch V 1-1The colelctor electrode of triode is by resistor R 4-1With the positive pole of power supply, be connected, optoelectronic switch V 1-1The emitter stage of triode and optocoupler GDC 1-1Diode cathode be connected, optocoupler GDC 1-1Diode cathode with ground wire, be connected, optocoupler GDC 1-1Thyristor supply input and controllable silicon Q 1-1Power input be connected, with Vin K 1-1Terminal is connected, optocoupler GDC 1-1Silicon controlled power output end and controllable silicon Q 1-1Power output end be connected and K 1Out -1Terminal is connected, controllable silicon Q 1-1Power input and controllable silicon Q 1-1Power output end and be connected to piezoresistor RV 1-1, controllable silicon Q 1-1The control utmost point and controllable silicon Q 1-1Power output end also is connected to resistance R 16-1, optoelectronic switch V 2-1Negative pole and the optoelectronic switch V of diode 3-1The positive pole of diode be connected, optoelectronic switch V 2-1The colelctor electrode of triode is by resistor R 5-1With the positive pole of power supply, be connected, optoelectronic switch V 2-1The emitter stage of triode and optocoupler GDC 2-1Diode cathode be connected, optocoupler GDC 2-1Diode cathode with ground wire, be connected, optocoupler GDC 2-1Thyristor supply input and controllable silicon Q 2-1Power input be connected, with Vin K 2-1Terminal is connected, optocoupler GDC 2-1Silicon controlled power output end and controllable silicon Q 2-1Power output end be connected and K 2Out -1Terminal is connected, controllable silicon Q 2-1Power input and controllable silicon Q 2-1Power output end and be connected to piezoresistor RV 2-1, controllable silicon Q 2-1The control utmost point and controllable silicon Q 2-1Power output end also is connected to resistance R 17-1, optoelectronic switch V 3-1Negative pole and the optoelectronic switch V of diode 4-1The positive pole of diode be connected, optoelectronic switch V 3-1The colelctor electrode of triode is by resistor R 6-1With the positive pole of power supply, be connected, optoelectronic switch V 3-1The emitter stage of triode and optocoupler GDC 2-1Diode cathode be connected, optocoupler GDC 3-1Diode cathode with ground wire, be connected, optocoupler GDC 3-1Thyristor supply input and controllable silicon Q 3-1Power input be connected, with Vin K 3-1Terminal is connected, optocoupler GDC 3-1Silicon controlled power output end and controllable silicon Q 3-1Power output end be connected and K 3Out -1Terminal is connected, controllable silicon Q 3-1Power input and controllable silicon Q 3-1Power output end and be connected to piezoresistor RV 3-1, controllable silicon Q 2The control utmost point and controllable silicon Q 3-1Power output end also is connected to resistance R 18-1, optoelectronic switch V 4-1The negative pole of diode with ground wire, be connected, optoelectronic switch V 4-1The colelctor electrode of triode is by resistor R 7-1With the positive pole of power supply, be connected, optoelectronic switch V 4-1The emitter stage of triode and optocoupler GDC 4-1Diode cathode be connected, optocoupler GDC 4-1Diode cathode with ground wire, be connected, optocoupler GDC 4-1Thyristor supply input and controllable silicon Q 4-1Power input be connected, with Vin K 4-1Terminal is connected, optocoupler GDC 4-1Silicon controlled power output end and controllable silicon Q 4-1Power output end be connected and K 4Out -1Terminal is connected, controllable silicon Q 4-1Power input and controllable silicon Q 4-1Power output end and be connected to piezoresistor RV 4, controllable silicon Q 4The control utmost point and controllable silicon Q 4Power output end also is connected to resistance R 19, optoelectronic switch V 5-1Negative pole and the optoelectronic switch V of diode 6-1The positive pole of diode be connected, optoelectronic switch V 5-1The colelctor electrode of triode is by resistor R 9-1With the positive pole of power supply, be connected, optoelectronic switch V 5-1The emitter stage of triode and optocoupler GDC 5-1Diode cathode be connected, optocoupler GDC 5-1Diode cathode with ground wire, be connected, optocoupler GDC 5-1Thyristor supply input and controllable silicon Q 5-1Power input be connected, with Vin K 5-1Terminal is connected, optocoupler GDC 5-1Silicon controlled power output end and controllable silicon Q 5-1Power output end be connected and K 5Out -1Terminal is connected, controllable silicon Q 5-1Power input and controllable silicon Q 5-1Power output end and be connected to piezoresistor RV 5-1, controllable silicon Q 5-1The control utmost point and controllable silicon Q 5-1Power output end also is connected to resistance R 20-1, optoelectronic switch V 6-1Negative pole and the optoelectronic switch V of diode 7-1The positive pole of diode be connected, optoelectronic switch V 6-1The colelctor electrode of triode is by resistor R 9-1With the positive pole of power supply, be connected, optoelectronic switch V 6-1The emitter stage of triode and optocoupler GDC 6-1Diode cathode be connected, optocoupler GDC 6-1Diode cathode with ground wire, be connected, optocoupler GDC 6-1Thyristor supply input and controllable silicon Q 6-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 6-1Silicon controlled power output end and controllable silicon Q 6-1Power output end be connected and K 6Out -1Terminal is connected, controllable silicon Q 6-1Power input and controllable silicon Q 6-1Power output end and be connected to piezoresistor RV 6-1, controllable silicon Q 6-1The control utmost point and controllable silicon Q 6-1Power output end also is connected to resistance R 21-1, optoelectronic switch V 7-1Negative pole and the optoelectronic switch V of diode 8-1The positive pole of diode be connected, optoelectronic switch V 7-1The colelctor electrode of triode is by resistor R 10-1With the positive pole of power supply, be connected, optoelectronic switch V 7-1The emitter stage of triode and optocoupler GDC 7-1Diode cathode be connected, optocoupler GDC 7-1Diode cathode with ground wire, be connected, optocoupler GDC 7-1Thyristor supply input and controllable silicon Q 7-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 7-1Silicon controlled power output end and controllable silicon Q 7-1Power output end be connected and K 7Out -1Terminal is connected, controllable silicon Q 7-1Power input and controllable silicon Q 7-1Power output end and be connected to piezoresistor RV 7-1, controllable silicon Q 7-1The control utmost point and controllable silicon Q 7-1Power output end also is connected to resistance R 22-1, optoelectronic switch V 8-1The negative pole of diode with ground wire, be connected, optoelectronic switch V 8-1The colelctor electrode of triode is by resistor R 11-1With the positive pole of power supply, be connected, optoelectronic switch V 8-1The emitter stage of triode and optocoupler GDC 8-1Diode cathode be connected, optocoupler GDC 8-1Diode cathode with ground wire, be connected, optocoupler GDC 8-1Thyristor supply input and controllable silicon Q 8-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 8-1Silicon controlled power output end and controllable silicon Q 8-1Power output end be connected and K 8Out -1Terminal is connected, controllable silicon Q 8-1Power input and controllable silicon Q 8-1Power output end and be connected to piezoresistor RV 8-1, controllable silicon Q 8-1The control utmost point and controllable silicon Q 8-1Power output end also is connected to resistance R 23-1, optoelectronic switch V 9-1Negative pole and the optoelectronic switch V of diode 10-1The positive pole of diode be connected, optoelectronic switch V 9-1The colelctor electrode of triode is by resistor R 12-1With the positive pole of power supply, be connected, optoelectronic switch V 9-1The emitter stage of triode and optocoupler GDC 9-1Diode cathode be connected, optocoupler GDC 9-1Diode cathode with ground wire, be connected, optocoupler GDC 9-1Thyristor supply input and controllable silicon Q 9-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 9-1Silicon controlled power output end and controllable silicon Q 7-1Power output end be connected, controllable silicon Q 9-1Power input and controllable silicon Q 9-1Power output end and be connected to piezoresistor RV 9-1, controllable silicon Q 9-1The control utmost point and controllable silicon Q 9-1Power output end also is connected to resistance R 24-1, optoelectronic switch V 10-1Negative pole and the optoelectronic switch V of diode 11-1The positive pole of diode be connected, optoelectronic switch V 10-1The colelctor electrode of triode is by resistor R 13-1With the positive pole of power supply, be connected, optoelectronic switch V 10-1The emitter stage of triode and optocoupler GDC 10-1Diode cathode be connected, optocoupler GDC 10-1Diode cathode with ground wire, be connected, optocoupler GDC 10-1Thyristor supply input and controllable silicon Q 10-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 10-1Silicon controlled power output end and controllable silicon Q 10-1Power output end be connected, controllable silicon Q 10-1Power input and controllable silicon Q 10-1Power output end and be connected to piezoresistor RV 10-1, controllable silicon Q 10-1The control utmost point and controllable silicon Q 10-1Power output end also is connected to resistance R 25-1, optoelectronic switch V 11-1Negative pole and the optoelectronic switch V of diode 12-1The positive pole of diode be connected, optoelectronic switch V 11-1The colelctor electrode of triode is by resistor R 14-1With the positive pole of power supply, be connected, optoelectronic switch V 11-1The emitter stage of triode and optocoupler GDC 11-1Diode cathode be connected, optocoupler GDC 11-1Diode cathode with ground wire, be connected, optocoupler GDC 11-1Thyristor supply input and controllable silicon Q 11-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 11-1Silicon controlled power output end and controllable silicon Q 11-1Power output end be connected, controllable silicon Q 11-1Power input and controllable silicon Q 11-1Power output end and be connected to piezoresistor RV 11-1, controllable silicon Q 11-1The control utmost point and controllable silicon Q 11-1Power output end also is connected to resistance R 26-1, optoelectronic switch V 12-1The negative pole of diode with ground wire, be connected, optoelectronic switch V 12-1The colelctor electrode of triode is by resistor R 15-1With the positive pole of power supply, be connected, optoelectronic switch V 12-1The emitter stage of triode and optocoupler GDC 12-1Diode cathode be connected, optocoupler GDC 12-1Diode cathode with ground wire, be connected, optocoupler GDC 12-1Thyristor supply input and controllable silicon Q 12-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 12-1Silicon controlled power output end and controllable silicon Q 12-1Power output end be connected, controllable silicon Q 12-1Power input and controllable silicon Q 12-1Power output end and be connected to piezoresistor RV 12-1, controllable silicon Q 12-1The control utmost point and controllable silicon Q 12-1Power output end also is connected to resistance R 27-1.

Claims (2)

1 non-contact optical linkage units , characterized in that: the control system is installed in the housing without contact photoelectric linkage units ( 30 ) , non-contact optical linkage units ( 30 ) by the power input circuit breaker ( 9 ) terminal of the control system is connected to the carts master switch ( 1 ) the power input, and car control system master switch ( 16 ) connected to the power supply input terminal , non-contact optical linkage units ( 30 ) of the power input and large vehicle control system controller ( 6 ) connected to the input terminal of the power supply , control system and the car controller ( 29 ) connected to the input terminal of the power supply , non-contact optical linkage units ( 30 ) and the signal output terminal of the large cart the controller ( 29 ) of the controller ( 6 ) of the vehicle control system connected to a signal input terminal , a non-contact optical linkage units ( 30 ) signal output terminal of the car and trolley control signal input terminal connected to the control carts master switch ( 1 ) of the system with an external power supply input is connected to the master switch ( 1 ) of the cart control system power output of the motor control system via carts protection ( 2 ) and the control system are carts switch contacts ( 3 ) of the power input connection , and the carts reverse contactor control system ( 4 ) of the power input connection , brake contactor ( 5 ) of the control system and carts power input connection , brake contactor ( 5 ) of the cart control system controller ( 6 ) coil input and carts brake contactor control system connected to the output signal , brake contactor carts control system ( 5 ) the power input ( 2 ) and carts control system master switch ( 1 ) connected to the output of the power supply motor protection carts through the control system, brake contactor ( 5 ) of the cart control system power output brake ( 10 ) and the control system power supply carts input terminal connected to the control system cart forward contactor ( 3 ) of the control input of the coil and the controller of the system cart ( 6 ) contacts the forward signal connected to the output , the control system carts forward contactor ( 3 ) of the power input protection carts through the motor control system ( 2 ) and carts control system master switch ( 1 ) connected to the output of the power supply , carts control system forward contactor ( 3 ) the power output of the electric motor and control system carts stator (8 ) is connected to the power input , reversing contactor ( 4 ) carts coil input of the control system reversing contactor connected to the output signal to the controller carts control system ( 6 ) , reversing contactors ( 4 ) of the cart control system power input control system via carts motor protection ( 2) master switch ( 1 ) of the cart control system connected to the output of the power supply , the stator reversing contactor ( 4 ) of the cart control system and the power output of the motor ( 7 ) power input terminal connected to the control system carts the level of cut resistance of the contact (12 ) and the input coil carts control system controller ( 6 ) the signal level of cut resistance connected to the output contacts , the contact resistance is cut carts level control system ( 12 ) with a power input of the control system cart resistor ( 11 ) connected to the terminal No. 2, 3 , the contact resistance level cutting (12 ) the control system of the cart is connected directly in parallel to the power supply output , carts cut resistance secondary contacts ( 13 ) of a control system to control input of the coil and the controller of the system cart ( 6 ) contacting the secondary cutting resistance connected to the output signal , the secondary cutting resistance contactor control system cart ( 13 ) the power control system of the cart and the input resistor ( 11 ) connected to the terminal No. 4,5,6 , the contact resistance of the secondary cutting (13 ) the control system of the cart is connected directly in parallel to the power supply output , cut three carts barrier control system contactor ( 14 ) and the coil input terminal of the control system cart controller ( 6 ) of the cutting resistance of the three contacts connected to the output signal , the control system three carts cut the contact barrier (14 ) and the power input terminal of the control system cart resistor ( 11 ) connected to the terminal No. 7,8,9 , three carts cut resistance control system contactor ( 14 ) of the power output cut resistance four contacts ( 15 ) is directly connected in parallel , the control system of the cart and the cart of the control input of the coil system controller ( 6 ) ? quaternary cut resistance contacts connected to the output signal , the control system of the cart cut resistance of four contacts ( 15 ) and the power input terminal of the control system cart resistor ( 11 ) connected to the terminal No. 11, 12 , four cut resistance carts contactor control system ( 15 ) the direct output of the power supply in parallel , the rotor of the motor control system of the cart ( 8 ) and the control system cart resistor ( 11 ) connected to the input terminal of the power supply , the main switch ( 16 ) of the control system of the car and the power input terminal external power supply is connected to the master switch ( 16 ) of the trolley control system power output of the car through motor protection control system ( 28 ) and car control system forward contactor ( 17 ) of the power input connection , and car control reversing contactor ( 18 ) of the system's power input terminal connected to the brake contactor ( 19 ) and car control system connected to the power input , brake contactor ( 19 ) of the trolley control system with coil inputs the controller ( 29 ) car brake contactor control system connected to the output signal , brake contactor ( 19 ) of the trolley control system power input via trolley motor protection control system ( 28 ) and car control system the master switch ( 16 ) connected to the output of the power supply , the brake contactor ( 19 ) car brake control system (22 ) of the power output of the power supply system and car control input terminal connected to the forward car control system contactor ( 17 ) of the coil input and car control system controller ( 29 ) of the forward contactor connected to the output signal , the control system of the car forward contactor ( 17 ) of the power input by the car control system the stator motor protection master switch ( 28 ) and car control system ( 16 ) connected to the output of the power supply , the control system of the car forward contactor ( 17 ) of the power output and the motor car control system (20 ) power connecting the input terminal , ( 29 ) reverse contactors connected to the output inversion signal contacts ( 18 ) of the trolley control input of the coil system and the control system of the car controller , car reversing contactor control system ( 18 ) the power input via trolley motor protection control system ( 28 ) and total switching the trolley control system ( 16 ) connected to the output of the power supply , reversing contactor ( 18 ) of the trolley control system power output and trolley the stator of a motor control system ( 20 ) connected to the input terminal of the power supply , cut resistance level contacts ( 24 ) of the trolley control system, the control input of the coil and trolley system controller ( 29 ) the contact resistance level signal output cut Duanxiang connections, cut resistance level contacts ( 24 ) of the control system of the car and the car power input control systems resistor ( 23) connected to terminals 1,2,3 , cut resistance level car control system cut resistance secondary contacts ( 25 ) of the contactor ( 24 ) is connected directly in parallel to the power supply output , the control system of the trolley and the trolley control input of the coil system controller ( 29 ) contacts the secondary cutting resistance connected to the output signal secondary cut resistance contacts ( 25 ) of the control system of the car and the car power input resistor control system (23 ) is connected to the terminal 4,5,6 , two car cut resistance contactor control system ( 25 ) power output of the direct parallel , three cut resistance contacts ( 26 ) of the trolley control system controller ( 29 ) of the coil input and car control system three cut resistance contacts connected to the output signal , the car control cut three resistance contacts ( 26 ) of the system's power input terminal and car control systems resistor ( 23 ) connected to terminal No. 7,8,9 , three car control system cut resistance contactor ( 26) power output directly in parallel , four cut resistance contacts ( 27 ) of the control system of the car and the car 's control input of the coil system controller ( 29 ) to cut four resistive touch signal output terminal connected to the control system of the car four cut resistance contactor ( 27 ) power input terminal and car control systems resistor ( 23 ) connected to terminal No. 10,11,12 , four cut resistance contacts ( 27 ) of the control system of the car 's power output end direct parallel , car control system ? motor rotor ( 21 ) and car control systems resistor ( 23 ) connected to the input terminal of the power supply .
2. photoelectric contactless linkage console according to claim 1, it is characterized in that: described photoelectric contactless linkage console (30) comprises control circuit, this control circuit comprises large vehicle control control circuit, the trolley control system control circuit:
The annexation of large vehicle control control circuit is: transformer T 1Elementary connection photoelectric contactless linkage console power input terminal, transformer T 1Secondary connection rectifier bridge DD 11,3 pin, rectifier bridge DD 12 pin connect capacitor C 1Positive pole, connect 1 pin of three terminal regulator 7824, rectifier bridge DD 14 pin connect capacitor C 1Negative pole, connect three terminal regulator 7824 2 pin, connect capacitor C 2Negative pole, connect ground wire, 3 pin of three terminal regulator 7824 connect capacitor C 2Positive pole, by resistor R 1Connect optoelectronic switch V 1Diode positive pole, by resistor R 2Connect optoelectronic switch V 5Diode positive pole, by resistor R 3Connect optoelectronic switch V 9The positive pole of diode, optoelectronic switch V 1Negative pole and the optoelectronic switch V of diode 2The positive pole of diode be connected, optoelectronic switch V 1The colelctor electrode of triode is by resistor R 4With the positive pole of power supply, be connected, optoelectronic switch V 1The emitter stage of triode and optocoupler GDC 1Diode cathode be connected, optocoupler GDC 1Diode cathode with ground wire, be connected, optocoupler GDC 1Thyristor supply input and controllable silicon Q 1Power input be connected, with Vin K 1Terminal is connected, optocoupler GDC 1Silicon controlled power output end and controllable silicon Q 1Power output end be connected and K 1The Out terminal is connected, controllable silicon Q 1Power input and controllable silicon Q 1Power output end and be connected to piezoresistor RV 1, controllable silicon Q 1The control utmost point and controllable silicon Q 1Power output end also is connected to resistance R 16, optoelectronic switch V 2Negative pole and the optoelectronic switch V of diode 3The positive pole of diode be connected, optoelectronic switch V 2The colelctor electrode of triode is by resistor R 5With the positive pole of power supply, be connected, optoelectronic switch V 2The emitter stage of triode and optocoupler GDC 2Diode cathode be connected, optocoupler GDC 2Diode cathode with ground wire, be connected, optocoupler GDC 2Thyristor supply input and controllable silicon Q 2Power input be connected, with Vin K 2Terminal is connected, optocoupler GDC 2Silicon controlled power output end and controllable silicon Q 2Power output end be connected and K 2The Out terminal is connected, controllable silicon Q 2Power input and controllable silicon Q 2Power output end and be connected to piezoresistor RV 2, controllable silicon Q 2The control utmost point and controllable silicon Q 2Power output end also is connected to resistance R 17, optoelectronic switch V 3Negative pole and the optoelectronic switch V of diode 4The positive pole of diode be connected, optoelectronic switch V 3The colelctor electrode of triode is by resistor R 6With the positive pole of power supply, be connected, optoelectronic switch V 3The emitter stage of triode and optocoupler GDC 3Diode cathode be connected, optocoupler GDC 3Diode cathode with ground wire, be connected, optocoupler GDC 3Thyristor supply input and controllable silicon Q 3Power input be connected, with Vin K 3Terminal is connected, optocoupler GDC 3Silicon controlled power output end and controllable silicon Q 3Power output end be connected and K 3The Out terminal is connected, controllable silicon Q 3Power input and controllable silicon Q 3Power output end and be connected to piezoresistor RV 3, controllable silicon Q 3The control utmost point and controllable silicon Q 3Power output end also is connected to resistance R 18, optoelectronic switch V 4The negative pole of diode with ground wire, be connected, optoelectronic switch V 4The colelctor electrode of triode is by resistor R 7With the positive pole of power supply, be connected, optoelectronic switch V 4The emitter stage of triode and optocoupler GDC 4Diode cathode be connected, optocoupler GDC 4Diode cathode with ground wire, be connected, optocoupler GDC 4Thyristor supply input and controllable silicon Q 4Power input be connected, with Vin K 4Terminal is connected, optocoupler GDC 4Silicon controlled power output end and controllable silicon Q 4Power output end be connected and K 4The Out terminal is connected, controllable silicon Q 4Power input and controllable silicon Q 4Power output end and be connected to piezoresistor RV 4, controllable silicon Q 4The control utmost point and controllable silicon Q 4Power output end also is connected to resistance R 19, optoelectronic switch V 5Negative pole and the optoelectronic switch V of diode 6The positive pole of diode be connected, optoelectronic switch V 5The colelctor electrode of triode is by resistor R 8With the positive pole of power supply, be connected, optoelectronic switch V 5The emitter stage of triode and optocoupler GDC 5Diode cathode be connected, optocoupler GDC 5Diode cathode with ground wire, be connected, optocoupler GDC 5Thyristor supply input and controllable silicon Q 5Power input be connected, with Vin K 5Terminal is connected, optocoupler GDC 5Silicon controlled power output end and controllable silicon Q 5Power output end be connected and K 5The Out terminal is connected, controllable silicon Q 5Power input and controllable silicon Q 5Power output end and be connected to piezoresistor RV 5, controllable silicon Q 5The control utmost point and controllable silicon Q 5Power output end also is connected to resistance R 20, optoelectronic switch V 6Negative pole and the optoelectronic switch V of diode 7The positive pole of diode be connected, optoelectronic switch V 6The colelctor electrode of triode is by resistor R 9With the positive pole of power supply, be connected, optoelectronic switch V 6The emitter stage of triode and optocoupler GDC 6Diode cathode be connected, optocoupler GDC 6Diode cathode with ground wire, be connected, optocoupler GDC 6Thyristor supply input and controllable silicon Q 6Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 6Silicon controlled power output end and controllable silicon Q 6Power output end be connected and K 6The Out terminal is connected, controllable silicon Q 6Power input and controllable silicon Q 6Power output end and be connected to piezoresistor RV 6, controllable silicon Q 6The control utmost point and controllable silicon Q 6Power output end also is connected to resistance R 21, optoelectronic switch V 7Negative pole and the optoelectronic switch V of diode 8The positive pole of diode be connected, optoelectronic switch V 7The colelctor electrode of triode is by resistor R 10With the positive pole of power supply, be connected, optoelectronic switch V 7The emitter stage of triode and optocoupler GDC 7Diode cathode be connected, optocoupler GDC 7Diode cathode with ground wire, be connected, optocoupler GDC 7Thyristor supply input and controllable silicon Q 7Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 7Silicon controlled power output end and controllable silicon Q 7Power output end be connected and K 7The Out terminal is connected, controllable silicon Q 7Power input and controllable silicon Q 7Power output end and be connected to piezoresistor RV 7, controllable silicon Q 7The control utmost point and controllable silicon Q 7Power output end also is connected to resistance R 22, optoelectronic switch V 8The negative pole of diode with ground wire, be connected, optoelectronic switch V 8The colelctor electrode of triode is by resistor R 11With the positive pole of power supply, be connected, optoelectronic switch V 8The emitter stage of triode and optocoupler GDC 8Diode cathode be connected, optocoupler GDC 8Diode cathode with ground wire, be connected, optocoupler GDC 8Thyristor supply input and controllable silicon Q 8Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 8Silicon controlled power output end and controllable silicon Q 8Power output end be connected and K 8The Out terminal is connected, controllable silicon Q 8Power input and controllable silicon Q 8Power output end and be connected to piezoresistor RV 8, controllable silicon Q 8The control utmost point and controllable silicon Q 8Power output end also is connected to resistance R 23, optoelectronic switch V 9Negative pole and the optoelectronic switch V of diode 10The positive pole of diode be connected, optoelectronic switch V 9The colelctor electrode of triode is by resistor R 12With the positive pole of power supply, be connected, optoelectronic switch V 9The emitter stage of triode and optocoupler GDC 9Diode cathode be connected, optocoupler GDC 9Diode cathode with ground wire, be connected, optocoupler GDC 9Thyristor supply input and controllable silicon Q 9Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 9Silicon controlled power output end and controllable silicon Q 9Power output end be connected and K 9The Out terminal is connected, controllable silicon Q 9Power input and controllable silicon Q 9Power output end and be connected to piezoresistor RV 9, controllable silicon Q 9The control utmost point and controllable silicon Q 9Power output end also is connected to resistance R 24, optoelectronic switch V 10Negative pole and the optoelectronic switch V of diode 11The positive pole of diode be connected, optoelectronic switch V 10The colelctor electrode of triode is by resistor R 13With the positive pole of power supply, be connected, optoelectronic switch V 10The emitter stage of triode and optocoupler GDC 10Diode cathode be connected, optocoupler GDC 10Diode cathode with ground wire, be connected, optocoupler GDC 10Thyristor supply input and controllable silicon Q 10Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 10Silicon controlled power output end and controllable silicon Q 10Power output end be connected and K 10The Out terminal is connected, controllable silicon Q 10Power input and controllable silicon Q 10Power output end and be connected to piezoresistor RV 10, controllable silicon Q 10The control utmost point and controllable silicon Q 10Power output end also is connected to resistance R 25, optoelectronic switch V 11Negative pole and the optoelectronic switch V of diode 12The positive pole of diode be connected, optoelectronic switch V 11The colelctor electrode of triode is by resistor R 14With the positive pole of power supply, be connected, optoelectronic switch V 11The emitter stage of triode and optocoupler GDC 11Diode cathode be connected, optocoupler GDC 11Diode cathode with ground wire, be connected, optocoupler GDC 11Thyristor supply input and controllable silicon Q 11Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 11Silicon controlled power output end and controllable silicon Q 11Power output end be connected and K 11The Out terminal is connected, controllable silicon Q 11Power input and controllable silicon Q 11Power output end and be connected to piezoresistor RV 11, controllable silicon Q 11The control utmost point and controllable silicon Q 11Power output end also is connected to resistance R 26, optoelectronic switch V 12The negative pole of diode with ground wire, be connected, optoelectronic switch V 12The colelctor electrode of triode is by resistor R 15With the positive pole of power supply, be connected, optoelectronic switch V 12The emitter stage of triode and optocoupler GDC 12Diode cathode be connected, optocoupler GDC 12Diode cathode with ground wire, be connected, optocoupler GDC 12Thyristor supply input and controllable silicon Q 12Power input be connected, with Vin K 6Terminal is connected, optocoupler GDC 12Silicon controlled power output end and controllable silicon Q 12Power output end be connected and K 12The Out terminal is connected, controllable silicon Q 12Power input and controllable silicon Q 12Power output end and be connected to piezoresistor RV 12, controllable silicon Q 12The control utmost point and controllable silicon Q 12Power output end also is connected to resistance R 27
The annexation of trolley control system control circuit is: transformer T 1-1Elementary connection photoelectric contactless linkage console power input terminal, transformer T 1-1Secondary connection rectifier bridge DD 1-11,3 pin, rectifier bridge DD 1-12 pin connect capacitor C 1-1Positive pole, connect three terminal regulator 7824 -11 pin, rectifier bridge DD 1-14 pin connect capacitor C 1-1Negative pole, connect three terminal regulator 7824 -12 pin, connect capacitor C 2-1Negative pole, connect ground wire, three terminal regulator 7824 -13 pin connect capacitor C 2-1Positive pole, by resistor R 1-1Connect optoelectronic switch V 1-1Diode positive pole, by resistor R 2-1Connect optoelectronic switch V 5-1Diode positive pole, by resistor R 3-1Connect optoelectronic switch V 9-1The positive pole of diode, optoelectronic switch V 1-1Negative pole and the optoelectronic switch V of diode 2-1The positive pole of diode be connected, optoelectronic switch V 1-1The colelctor electrode of triode is by resistor R 4-1With the positive pole of power supply, be connected, optoelectronic switch V 1-1The emitter stage of triode and optocoupler GDC 1-1Diode cathode be connected, optocoupler GDC 1-1Diode cathode with ground wire, be connected, optocoupler GDC 1-1Thyristor supply input and controllable silicon Q 1-1Power input be connected, with Vin K 1-1Terminal is connected, optocoupler GDC 1-1Silicon controlled power output end and controllable silicon Q 1-1Power output end be connected and K 1Out -1Terminal is connected, controllable silicon Q 1-1Power input and controllable silicon Q 1-1Power output end and be connected to piezoresistor RV 1-1, controllable silicon Q 1-1The control utmost point and controllable silicon Q 1-1Power output end also is connected to resistance R 16-1, optoelectronic switch V 2-1Negative pole and the optoelectronic switch V of diode 3-1The positive pole of diode be connected, optoelectronic switch V 2-1The colelctor electrode of triode is by resistor R 5-1With the positive pole of power supply, be connected, optoelectronic switch V 2-1The emitter stage of triode and optocoupler GDC 2-1Diode cathode be connected, optocoupler GDC 2-1Diode cathode with ground wire, be connected, optocoupler GDC 2-1Thyristor supply input and controllable silicon Q 2-1Power input be connected, with Vin K 2-1Terminal is connected, optocoupler GDC 2-1Silicon controlled power output end and controllable silicon Q 2-1Power output end be connected and K 2Out -1Terminal is connected, controllable silicon Q 2-1Power input and controllable silicon Q 2-1Power output end and be connected to piezoresistor RV 2-1, controllable silicon Q 2-1The control utmost point and controllable silicon Q 2-1Power output end also is connected to resistance R 17-1, optoelectronic switch V 3-1Negative pole and the optoelectronic switch V of diode 4-1The positive pole of diode be connected, optoelectronic switch V 3-1The colelctor electrode of triode is by resistor R 6-1With the positive pole of power supply, be connected, optoelectronic switch V 3-1The emitter stage of triode and optocoupler GDC 3-1Diode cathode be connected, optocoupler GDC 3-1Diode cathode with ground wire, be connected, optocoupler GDC 3-1Thyristor supply input and controllable silicon Q 3-1Power input be connected, with Vin K 3-1Terminal is connected, optocoupler GDC 3-1Silicon controlled power output end and controllable silicon Q 3-1Power output end be connected and K 3Out -1Terminal is connected, controllable silicon Q 3-1Power input and controllable silicon Q 3-1Power output end and be connected to piezoresistor RV 3-1, controllable silicon Q 3-1The control utmost point and controllable silicon Q 3-1Power output end also is connected to resistance R 18-1, optoelectronic switch V 4-1The negative pole of diode with ground wire, be connected, optoelectronic switch V 4-1The colelctor electrode of triode is by resistor R 7-1With the positive pole of power supply, be connected, optoelectronic switch V 4-1The emitter stage of triode and optocoupler GDC 4-1Diode cathode be connected, optocoupler GDC 4-1Diode cathode with ground wire, be connected, optocoupler GDC 4-1Thyristor supply input and controllable silicon Q 4-1Power input be connected, with Vin K 4-1Terminal is connected, optocoupler GDC 4-1Silicon controlled power output end and controllable silicon Q 4-1Power output end be connected and K 4Out -1Terminal is connected, controllable silicon Q 4-1Power input and controllable silicon Q 4-1Power output end and be connected to piezoresistor RV 4-1, controllable silicon Q 4-1The control utmost point and controllable silicon Q 4-1Power output end also is connected to resistance R 19-1, optoelectronic switch V 5-1Negative pole and the optoelectronic switch V of diode 6-1The positive pole of diode be connected, optoelectronic switch V 5-1The colelctor electrode of triode is by resistor R 8-1With the positive pole of power supply, be connected, optoelectronic switch V 5-1The emitter stage of triode and optocoupler GDC 5-1Diode cathode be connected, optocoupler GDC 5-1Diode cathode with ground wire, be connected, optocoupler GDC 5-1Thyristor supply input and controllable silicon Q 5-1Power input be connected, with Vin K 5-1Terminal is connected, optocoupler GDC 5-1Silicon controlled power output end and controllable silicon Q 5-1Power output end be connected and K 5Out -1Terminal is connected, controllable silicon Q 5-1Power input and controllable silicon Q 5-1Power output end and be connected to piezoresistor RV 5-1, controllable silicon Q 5-1The control utmost point and controllable silicon Q 5-1Power output end also is connected to resistance R 20-1, optoelectronic switch V 6-1Negative pole and the optoelectronic switch V of diode 7-1The positive pole of diode be connected, optoelectronic switch V 6-1The colelctor electrode of triode is by resistor R 9-1With the positive pole of power supply, be connected, optoelectronic switch V 6-1The emitter stage of triode and optocoupler GDC 6-1Diode cathode be connected, optocoupler GDC 6-1Diode cathode with ground wire, be connected, optocoupler GDC 6-1Thyristor supply input and controllable silicon Q 6-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 6-1Silicon controlled power output end and controllable silicon Q 6-1Power output end be connected and K 6Out -1Terminal is connected, controllable silicon Q 6-1Power input and controllable silicon Q 6-1Power output end and be connected to piezoresistor RV 6-1, controllable silicon Q 6-1The control utmost point and controllable silicon Q 6-1Power output end also is connected to resistance R 21-1, optoelectronic switch V 7-1Negative pole and the optoelectronic switch V of diode 8-1The positive pole of diode be connected, optoelectronic switch V 7-1The colelctor electrode of triode is by resistor R 10-1With the positive pole of power supply, be connected, optoelectronic switch V 7-1The emitter stage of triode and optocoupler GDC 7-1Diode cathode be connected, optocoupler GDC 7-1Diode cathode with ground wire, be connected, optocoupler GDC 7-1Thyristor supply input and controllable silicon Q 7-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 7-1Silicon controlled power output end and controllable silicon Q 7-1Power output end be connected and K 7Out -1Terminal is connected, controllable silicon Q 7-1Power input and controllable silicon Q 7-1Power output end and be connected to piezoresistor RV 7-1, controllable silicon Q 7-1The control utmost point and controllable silicon Q 7-1Power output end also is connected to resistance R 22-1, optoelectronic switch V 8-1The negative pole of diode with ground wire, be connected, optoelectronic switch V 8-1The colelctor electrode of triode is by resistor R 11-1With the positive pole of power supply, be connected, optoelectronic switch V 8-1The emitter stage of triode and optocoupler GDC 8-1Diode cathode be connected, optocoupler GDC 8-1Diode cathode with ground wire, be connected, optocoupler GDC 8-1Thyristor supply input and controllable silicon Q 8-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 8-1Silicon controlled power output end and controllable silicon Q 8-1Power output end be connected and K 8Out -1Terminal is connected, controllable silicon Q 8-1Power input and controllable silicon Q 8-1Power output end and be connected to piezoresistor RV 8-1, controllable silicon Q 8-1The control utmost point and controllable silicon Q 8-1Power output end also is connected to resistance R 23-1, optoelectronic switch V 9-1Negative pole and the optoelectronic switch V of diode 10-1The positive pole of diode be connected, optoelectronic switch V 9-1The colelctor electrode of triode is by resistor R 12-1With the positive pole of power supply, be connected, optoelectronic switch V 9-1The emitter stage of triode and optocoupler GDC 9-1Diode cathode be connected, optocoupler GDC 9-1Diode cathode with ground wire, be connected, optocoupler GDC 9-1Thyristor supply input and controllable silicon Q 9-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 9-1Silicon controlled power output end and controllable silicon Q 9-1Power output end be connected and K 9Out-1Terminal is connected, controllable silicon Q 9-1Power input and controllable silicon Q 9-1Power output end and be connected to piezoresistor RV 9-1, controllable silicon Q 9-1The control utmost point and controllable silicon Q 9-1Power output end also is connected to resistance R 24-1, optoelectronic switch V 10-1Negative pole and the optoelectronic switch V of diode 11-1The positive pole of diode be connected, optoelectronic switch V 10-1The colelctor electrode of triode is by resistor R 13-1With the positive pole of power supply, be connected, optoelectronic switch V 10-1The emitter stage of triode and optocoupler GDC 10-1Diode cathode be connected, optocoupler GDC 10-1Diode cathode with ground wire, be connected, optocoupler GDC 10-1Thyristor supply input and controllable silicon Q 10-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 10-1Silicon controlled power output end and controllable silicon Q 10-1Power output end be connected and K 10Out -1Terminal is connected, controllable silicon Q 10-1Power input and controllable silicon Q 10-1Power output end and be connected to piezoresistor RV 10-1, controllable silicon Q 10-1The control utmost point and controllable silicon Q 10-1Power output end also is connected to resistance R 25-1, optoelectronic switch V 11-1Negative pole and the optoelectronic switch V of diode 12-1The positive pole of diode be connected, optoelectronic switch V 11-1The colelctor electrode of triode is by resistor R 14-1With the positive pole of power supply, be connected, optoelectronic switch V 11-1The emitter stage of triode and optocoupler GDC 11-1Diode cathode be connected, optocoupler GDC 11-1Diode cathode with ground wire, be connected, optocoupler GDC 11-1Thyristor supply input and controllable silicon Q 11-1Power input be connected, with Vin K 6-1Terminal is connected, optocoupler GDC 11-1Silicon controlled power output end and controllable silicon Q 11-1Power output end be connected and K 11Out -1Terminal is connected, controllable silicon Q 11-1Power input and controllable silicon Q 11-1Power output end and be connected to piezoresistor RV 11-1, controllable silicon Q 11-1The control utmost point and controllable silicon Q 11-1Power output end also is connected to resistance R 26-1, optoelectronic switch V 12-1The negative pole of diode with ground wire, be connected, optoelectronic switch V 12-1The colelctor electrode of triode is by resistor R 15-1With the positive pole of power supply, be connected, optoelectronic switch V 12-1The emitter stage of triode and optocoupler GDC 12-1Diode cathode be connected, optocoupler GDC 12-1Diode cathode with ground wire, be connected, optocoupler GDC 12-1Thyristor supply input and controllable silicon Q 12-1Power input be connected and VinK 6-1Terminal is connected, optocoupler GDC 12-1Silicon controlled power output end and controllable silicon Q 12-1Power output end be connected and K 12Out -1Terminal is connected, controllable silicon Q 12-1Power input and controllable silicon Q 12-1Power output end and be connected to piezoresistor RV 12-1, controllable silicon Q 12-1The control utmost point and controllable silicon Q 12-1Power output end also is connected to resistance R 27-1.
CN 200910172379 2009-10-12 2009-10-12 Photoelectric contactless linkage console Expired - Fee Related CN102040162B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 200910172379 CN102040162B (en) 2009-10-12 2009-10-12 Photoelectric contactless linkage console

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 200910172379 CN102040162B (en) 2009-10-12 2009-10-12 Photoelectric contactless linkage console

Publications (2)

Publication Number Publication Date
CN102040162A CN102040162A (en) 2011-05-04
CN102040162B true CN102040162B (en) 2013-03-20

Family

ID=43906761

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 200910172379 Expired - Fee Related CN102040162B (en) 2009-10-12 2009-10-12 Photoelectric contactless linkage console

Country Status (1)

Country Link
CN (1) CN102040162B (en)

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4245347A (en) * 1978-01-18 1981-01-13 Hutton Thomas J Remote equipment control system with low duty cycle communications link
CN2067695U (en) * 1989-11-14 1990-12-19 唐山钢铁公司中型轧钢厂 Controlling system for crane motor
CN2172273Y (en) * 1993-08-31 1994-07-20 刘贤义 Tower crane remote controller
CN2443943Y (en) * 2000-10-12 2001-08-22 沈阳三义自动控制有限责任公司 Computer controlling apparatus for portal jib crane
CN2594239Y (en) * 2003-01-16 2003-12-24 重庆海斯达高科技有限公司 Linked operational mechanism of tower crane
CN201195665Y (en) * 2008-02-25 2009-02-18 江苏省特种设备安全监督检验研究院 Electrical control equipment for load speed governing crane

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4245347A (en) * 1978-01-18 1981-01-13 Hutton Thomas J Remote equipment control system with low duty cycle communications link
CN2067695U (en) * 1989-11-14 1990-12-19 唐山钢铁公司中型轧钢厂 Controlling system for crane motor
CN2172273Y (en) * 1993-08-31 1994-07-20 刘贤义 Tower crane remote controller
CN2443943Y (en) * 2000-10-12 2001-08-22 沈阳三义自动控制有限责任公司 Computer controlling apparatus for portal jib crane
CN2594239Y (en) * 2003-01-16 2003-12-24 重庆海斯达高科技有限公司 Linked operational mechanism of tower crane
CN201195665Y (en) * 2008-02-25 2009-02-18 江苏省特种设备安全监督检验研究院 Electrical control equipment for load speed governing crane

Also Published As

Publication number Publication date
CN102040162A (en) 2011-05-04

Similar Documents

Publication Publication Date Title
CN103580584B (en) Ac-dc-ac inverter device is pressed in the redundancy of mine hoist double-winding synchronous motor
CN108773786B (en) Power supply breaking device for elevator brake
CN102040162B (en) Photoelectric contactless linkage console
CN202098980U (en) Intelligent electric control system for three-beam four-car crane
CN104079060B (en) Three-way power source switchover circuit and method
CN205356202U (en) A postponing implementation braking circuit for electronic round of truck
CN201732705U (en) Arc-less alternating-current relay device
CN204759096U (en) Three -way formula switching device remote monitoring terminal
CN108683250A (en) A kind of accumulator switching driving device of lift-sliding parking equipment
CN201813338U (en) Control circuit
CN203014483U (en) Fast switching power supply reused by silicon controlled rectifier and relay
CN102050388B (en) Noncontact control system of single beam crane
CN202220050U (en) Crane power supply system
CN202818186U (en) A single-phase AC motor and a forward and backward rotation control circuit thereof
CN202558532U (en) Control module of electric hoist control cabinet
CN103219170B (en) Neutral beam injection high voltage power supply output mechanical protection switch
CN203730366U (en) Fan control circuit and electronic device
CN205263650U (en) Wiping line dolly control system
CN205123505U (en) Linear electric motor wiping formula segments to supply power auto -change over device
CN216216606U (en) Vector closed-loop control circuit for driving double motors by single frequency converter
CN204759196U (en) General type switching device remote monitoring terminal of three -way formula
CN218071341U (en) AC synchronous dust collector
CN202643121U (en) Bridge crane adopting trolley conductors to carry out cabling
CN215416367U (en) Control system of rail power supply trolley
CN201117544Y (en) Intelligent control device adopting IGBT device

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20130320

Termination date: 20151012

EXPY Termination of patent right or utility model