CN103332543A - Material hoister control module - Google Patents

Abstract

The invention discloses a material hoister control module and relates to control devices of engineering construction hoisters. The material hoister control module is mainly composed of a circuit board, a shell body and encapsulating materials. A working power supply circuit, a bottom-layer stop control circuit, a middle-layer stop control circuit and a top-layer stop control circuit are installed on the circuit board. The circuit board is installed inside the shell body. The circuit board is encapsulated and fixed through the encapsulating materials. The bottom-layer stop control circuit is composed of a negation gate 1a, a negation gate 1b and a gate 1. The middle-layer stop control circuit is composed of a negation gate 2a, a negation gate 2b, a gate 2a and a gate 2b. The top-layer stop control circuit is composed of a negation gate 3a, a negation gate 3b and a gate 3. An uplink output circuit is composed of an isolated diode 3b, an isolated diode 3c, a triode b, a clamping diode 3 and a relay b. A downlink output circuit is composed of an isolated diode 1b, an isolated diode 1c, a triode a, a clamping diode 1 and a relay a. The material hoister control module is applied to construction of a construction site, and achieves the objective that a basket can automatically stop on a floor and the stopping position is accurate.

Description

The material elevator control module

Technical field

The present invention relates to a kind of control setup of engineering construction elevator, specially refer to a kind of ECU electronic control unit.

Background technology

On the building ground, often adopt the lifting of manual operation material elevator or stop, needing special messenger's operation, consume manpower, also there are accurately dock floor, easy shortcoming such as have an accident.Building workshop dust is many and moist, and general control electronics is fragile malfunctioning, the influence construction.

Summary of the invention

The objective of the invention is to provide a kind of dustproof, waterproof, non-damageable material elevator control module, to adapt to the harsh environment of building ground, need not special messenger's operation, realize automatic dock floor, stop position is accurate, makes engineering construction smooth.

A kind of material elevator control module of the present invention, it is characterized in that control module is mainly by circuit card, working power circuit, bottom is stopped control circuit, interlayer is stopped control circuit, top layer is stopped control circuit, last line output circuit, following line output circuit, the interface of bottom limit switch (Q1), the interface of interlayer limit switch (Q2), the interface of top layer limit switch (Q3), housing and poting materials are formed, working power circuit, bottom is stopped control circuit, interlayer stops control circuit and top layer stop control circuit is installed on the circuit card, circuit card places in the housing, carries out package curing with poting materials; Wherein, by bridge rectifier (VD01-VD04), filter capacitor a(C01), three-terminal regulator block (IC01) and filter capacitor b(C02) constitute working power circuit; By bottom button switch (10-6), not gate 1a(IC11), isolation diode 1a(VD15), not gate 1b(IC12), feedback resistance 1a(R12), interlocking diode 1a(VD13), interlocking diode 1b(VD14), feedback diode 1a(VD16), with a door 1(IC13), feedback resistance 1b(R15), feedback diode 1b(VD18) and feedback diode 1c(VD19) constitute bottom stop control circuit; By interlayer button switch (10-5), not gate 2a(IC21), isolation diode 2a(VD25), not gate 2b(IC22), feedback resistance 2a(R22), interlocking diode 2a(VD23), interlocking diode 2b(VD24), feedback diode 2a(VD26), with door 2a(IC23), feedback resistance 2b(R25), feedback diode 2c(VD29), with door 2b(IC24), feedback resistance 2c(R27) and feedback diode 2b(VD28) constitute interlayer and stop control circuit; By top layer button switch (10-4), not gate 3a(IC31), isolation diode 3a(VD35), not gate 3b(IC32), feedback resistance 3a(R32), interlocking diode 3a(VD33), interlocking diode 3b(VD34), feedback diode 3a(VD36), with a door 3(IC33), feedback resistance 3b(R35), feedback diode 3b(VD38) and feedback diode 3c(VD39) constitute top layer stop control circuit; By isolation diode 3b(VD310), isolation diode 3c(VD311), current-limiting resistance 3c(R36), aerotron b(VT3), clamping diode 3(VD312) and relay b formation on line output circuit; By isolation diode 1b(VD110), isolation diode 1c(VD111), current-limiting resistance 1c(R16), aerotron a(VT1), clamping diode 1(VD112) and relay a constitute line output circuit down.

Among the present invention, bottom button switch (10-6), interlayer button switch (10-5) and top layer button switch (10-4) are contact switch or noncontacting switch, as bottom button switch (10-6), when interlayer button switch (10-5) and top layer button switch (10-4) are contact switch, bottom button switch (10-6), the input end of interlayer button switch (10-5) and top layer button switch (10-4) is connected to the positive pole of working power, the mouth of bottom button switch (10-6) is connected to not gate 1a(IC11) input end, the mouth of interlayer button switch (10-5) is connected to not gate 2a(IC21) input end, the mouth of top layer button switch (10-4) is connected to not gate 3a(IC31) input end; As bottom button switch (10-6), when interlayer button switch (10-5) and top layer button switch (10-4) are noncontacting switch, in bottom stop control circuit, infrared emission tube 1(VD11 is arranged), current-limiting resistance 1a(R11) and infrared receiver tube 1(VD12), in interlayer stop control circuit, infrared emission tube 2(VD21 is arranged), current-limiting resistance 2a(R21) and infrared receiver tube 2(VD22), in top layer stop control circuit, infrared emission tube 3(VD31 is arranged), current-limiting resistance 3a(R31) and infrared receiver tube 3(VD32), infrared emission tube 1(VD11) anode, infrared receiver tube 1(VD12) negative electrode, infrared emission tube 2(VD21) anode, infrared receiver tube 2(VD22) negative electrode, infrared emission tube 3(VD31) anode and infrared receiver tube 3(VD32) negative electrode be connected to the positive pole of working power, infrared emission tube 1(VD11) negative electrode is by current-limiting resistance 1a(R11) hold with being connected to, infrared receiver tube 1(VD12) anode is connected to not gate 1a(IC11) input end, infrared emission tube 2(VD21) negative electrode is by current-limiting resistance 2a(R21) hold with being connected to, infrared receiver tube 2(VD22) anode is connected to not gate 2a(IC21) input end, infrared emission tube 3(VD31) negative electrode is by current-limiting resistance 3a(R31) with being connected to the end, infrared receiver tube 3(VD32) anode be connected to not gate 3a(IC31) input end.

Among the present invention, power input a(A1 is arranged in the working power circuit) and power input b(A2) insert, the connection mode of working power circuit is: power input a(A1) and power input b(A2) be connected respectively to two ac input ends of bridge rectifier (VD01-VD04), the positive pole of bridge rectifier (VD01-VD04) is connected to filter capacitor a(C01) positive pole and the input end of three-terminal regulator block (IC01), the mouth of three-terminal regulator block (IC01) is connected to filter capacitor b(C02) positive pole, the negative pole of bridge rectifier (VD01-VD04), filter capacitor a(C01) negative pole, the earthing pole of three-terminal regulator block (IC01) and filter capacitor b(C02) negative pole hold with being connected to, the mouth of three-terminal regulator block (IC01) and filter capacitor b(C02) anodal point of connection constitute the positive pole of working power, cathode output end a(V1 is arranged on the positive pole of working power) and cathode output end b(V2) pick out; The connection mode that bottom is stopped control circuit is: mouth not gate 1a(IC11) is connected to isolation diode 1a(VD15) anode, isolation diode 1a(VD15) negative electrode, interlocking diode 1a(VD13) negative electrode, interlocking diode 1b(VD14) negative electrode and feedback diode 1a(VD16) negative electrode be connected to not gate 1b(IC12) input end, not gate 1b(IC12) mouth is connected to feedback resistance 1a(R12) the 1st pin, with door 1(IC13) the 2nd input end, interlocking diode 2b(VD24) anode and interlocking diode 3a(VD33) anode, feedback resistance 1a(R12) the 2nd pin is connected to not gate 1a(IC11) input end, with door 1(IC13) mouth be connected to feedback resistance 1b(R15) the 1st pin and isolation diode 1b(VD110) anode, feedback resistance 1b(R15) the 2nd pin, feedback diode 1b(VD18) negative electrode and feedback diode 1c(VD19) negative electrode be connected to and door 1(IC13) the 1st input end; The connection mode that interlayer is stopped control circuit is: mouth not gate 2a(IC21) is connected to isolation diode 2a(VD25) anode, isolation diode 2a(VD25) negative electrode, interlocking diode 2a(VD23) negative electrode, interlocking diode 2b(VD24) negative electrode and feedback diode 2a(VD26) negative electrode be connected to not gate 2b(IC22) input end, not gate 2b(IC22) mouth is connected to feedback resistance 2a(R22) the 1st pin, with door 2a(IC23) the 2nd input end, with door 2b(IC24) the 1st input end, interlocking diode 1a(VD13) anode and interlocking diode 3b(VD34) anode, feedback resistance 2a(R22) the 2nd pin is connected to not gate 2a(IC21) input end, with door 2a(IC23) mouth be connected to feedback resistance 2b(R25) the 1st pin and isolation diode 1c(VD111) anode, feedback resistance 2b(R25) the 2nd pin and feedback diode 2c(VD29) negative electrode be connected to and door 2a(IC23) the 1st input end, with door 2b(IC24) mouth be connected to feedback resistance 2c(R27) the 1st pin and isolation diode 3c(VD311) anode, feedback resistance 2c(R27) the 2nd pin and feedback diode 2b(VD28) negative electrode be connected to and door 2b(IC24) the 2nd input end; The connection mode that top layer is stopped control circuit is: mouth not gate 3a(IC31) is connected to isolation diode 3a(VD35) anode, isolation diode 3a(VD35) negative electrode, interlocking diode 3a(VD33) negative electrode, interlocking diode 3b(VD34) negative electrode, feedback diode 3a(VD36) negative electrode is connected to not gate 3b(IC32) input end, not gate 3b(IC32) mouth is connected to feedback resistance 3a(R32) the 1st pin, with door 3(IC33) the 1st input end, interlocking diode 1b(VD14) anode and interlocking diode 2a(VD23) anode, feedback resistance 3a(R32) the 2nd pin is connected to not gate 3a(IC31) input end, with door 3(IC33) mouth be connected to feedback resistance 3b(R35) the 1st pin and isolation diode 3b(VD310) anode, feedback resistance 3b(R35) the 2nd pin, feedback diode 3b(VD38) negative electrode and feedback diode 3c(VD39) negative electrode be connected to and door 3(IC33) the 2nd input end; The interface of bottom limit switch (Q1) is connected to feedback diode 1a(VD16) anode, feedback diode 2b(VD28) anode and feedback diode 3c(VD39) anode; The interface of interlayer limit switch (Q2) is connected to feedback diode 2a(VD26) anode, feedback diode 3b(VD38) anode and feedback diode 1c(VD19) anode; The interface of top layer limit switch (Q3) is connected to feedback diode 3a(VD36) anode, feedback diode 1b(VD18) anode and feedback diode 2c(VD29) anode; The connection mode of last line output circuit is: negative electrode isolation diode 3b(VD310) and isolation diode 3c(VD311) negative electrode be connected to current-limiting resistance 3c(R36) the 1st pin, current-limiting resistance 3c(R36) the 2nd pin is connected to aerotron b(VT3) base stage, aerotron b(VT3) emitter connects ground terminal, aerotron b(VT3) collecting electrode is connected to clamping diode 3(VD312) anode and the 2nd end of relay b coil (K3), the 1st end of relay b coil (K3) and clamping diode 3(VD312) negative electrode be connected to the positive pole of working power, the input end of relay b switch (K3 ') is connected to the input interface (L1) of power supply phase line, and the input end of relay b switch (K3 ') is connected to the output interface (L2) of power supply phase line; The connection mode of following line output circuit is: negative electrode isolation diode 1b(VD110) and isolation diode 1c(VD111) negative electrode be connected to current-limiting resistance 1c(R16) the 1st pin, current-limiting resistance 1c(R16) the 2nd pin is connected to aerotron a(VT1) base stage, aerotron a(VT1) emitter is held with being connected to, aerotron a(VT1) collecting electrode is connected to clamping diode 1(VD112) anode and the 2nd end of relay a coil (K1), the 1st end of negative electrode clamping diode 1(VD112) and relay a coil (K1) is connected to the positive pole of working power, the input end of relay a switch (K1 ') is connected to the input interface b(L3 of power supply phase line), the mouth of relay a switch (K1 ') is connected to the output interface b(L4 of power supply phase line); At not gate 1b(IC12) input end and ground end between the road of being close to resistance 1(R13 is arranged), at not gate 2b(IC22) input end and ground end between the road of being close to resistance 2(R23 is arranged), at not gate 3b(IC32) input end the road of being close to resistance 3(R33 is arranged between holding with ground); At not gate 1b(IC12) mouth and ground end between current-limiting resistance 1b(R14 is arranged) and light-emitting diode 1(VD17), current-limiting resistance 1b(R14) with light-emitting diode 1(VD17) be connected in series light-emitting diode 1(VD17) as the indicator lamp of stopping bottom; At not gate 2b(IC22) mouth and ground end between current-limiting resistance 2b(R24 is arranged) and light-emitting diode 2(VD27), current-limiting resistance 2b(R24) and light-emitting diode 2(VD27) be connected in series light-emitting diode 2(VD27) as the indicator lamp of stopping interlayer; At not gate 3b(IC32) mouth and ground end between current-limiting resistance 3b(R34 is arranged) and light-emitting diode 3(VD37), current-limiting resistance 3b(R34) and light-emitting diode 3(VD37) be connected in series light-emitting diode 3(VD37) as the indicator lamp of stopping top layer.

Among the present invention, the button of bottom button switch (10-6), interlayer button switch (10-5) and top layer button switch (10-4) stretches out from the panel of control module; The indicator lamp (10-3) that power light (10-2) and dock floor are arranged at the panel of control module; Power input a(A1), working power cathode output end b(V2 power input b(A2)), the interface (Q3) of the interface (Q2) of the interface (Q1) of bottom limit switch, interlayer limit switch, top layer limit switch, the input interface a(L1 of power supply phase line), the output interface a(L2 of power supply phase line), the input interface b(L3 of power supply phase line), the output interface b(L4 of power supply phase line) pick out in the side of control module.

Above-mentioned invention in the specific implementation, not gate 1a(IC11), not gate 1b(IC12), not gate 2a(IC21), not gate 2b(IC22), not gate 3a(IC31) and not gate 3b(IC32) share the hex inverter cmos digital integrated circuit of the band application schmitt trigger of a CC40106 model; With door 1(IC13), with a door 2a(IC23), with a door 2b(IC24) and with door 3(IC33) share 42 inputs and a door cmos digital integrated circuit of a CC4081 model; The power end of integrated circuit (Vcc) is connected to the positive pole of working power; The grounding ports of integrated circuit is connected to the ground end of circuit.The input impedance height of cmos digital integrated circuit, power consumption is minimum, and has wideer power line voltage operating range, the absolute value of voltage noise tolerance limit increases with the increase of power line voltage, so strong anti-interference performance of circuit, therefore, the cmos digital integrated circuit have that power consumption is little, reliable operation, non-damageable characteristics.In order to make control module have dust and water protection, to adapt to the abominable environment for use in building ground, in module housing, avoid contacting with rainwater with dust in making, and guarantees that circuit working is reliable by circuit interior circuit package for employing epoxy resin.

Above-mentioned invention is as the function unit of material elevator, at the floor that hanging basket need arrive limit switch is installed, be used for controlling hanging basket at the accurate off-position of designated floor, during use, can select three floors of building site building to stop arbitrarily according to the construction needs, stop top layer at need respectively, interlayer and low layer arrange limit switch, the limit switch of top layer (1) is connected to the interface (Q3) of the top layer limit switch on the control module (10), the limit switch of interlayer (3) is connected to the interface (Q2) of the interlayer limit switch on the control module (10), the limit switch of bottom (5) is connected to the interface (Q1) of the bottom limit switch on the control module (10), the output interface a(L2 of the power supply phase line on the control module (10)) be connected to the coil of the up AC contactor of hanging basket, the output interface b(L4 of the power supply phase line on the control module (10)) be connected to the coil of the descending AC contactor of hanging basket.In site construction, when need are transported to top layer to building materials by bottom, click top layer button switch (10-4), make not gate 3a(IC31) input end and not gate 3b(IC32) mouth be high level, feedback resistance 3a(R32) make not gate 3a(IC31) input end and not gate 3b(IC32) the high level locking of mouth, not gate 3b(IC32) high level of mouth is input to and door 3(IC33) the 1st input end, because at this moment hanging basket rests in low layer, the limit switch of bottom (5) closure, high level is by feedback diode 3c(VD39) be input to and door 3(IC33) the 2nd input end, therefore, with door 3(IC33) output be high level, by isolation diode 3b(VD310) and current-limiting resistance 3c(R36) be input to aerotron b(VT3) base stage, make aerotron b(VT3) conducting, the switch of relay b (K3 ') adhesive, the coil of up AC contactor is got, the switch contact closure of up AC contactor, drive traction motor and just transporting row, make upwards operation of hanging basket, when hanging basket leaves limit switch (5) that low layer makes bottom and disconnects, because feedback resistance 3b(R35) effect, make and door 3(IC33) the 2nd input end keep high level, hanging basket will continue upwards operation, after hanging basket arrives top layer, the limit switch of top layer (1) closure, high level is by feedback diode 3a(VD36) be input to not gate 3b(IC32) input end, make not gate 3b(IC32) mouth be converted to low level, thereby make and door 3(IC33) the 1st input end be low level, with door 3(IC33) mouth be converted to low level, make aerotron b(VT3) end, the switch of relay b (K3 ') the release disconnection, make the coil losing electricity of up AC contactor, the switch contact of up AC contactor disconnects, traction motor stops, make hanging basket rest in the top layer flooring, at this moment, feedback resistance 3a(R32) make not gate 3a(IC31) input end and not gate 3b(IC32) mouth keep low level, feedback resistance 3b(R35) make and door 3(IC33) and the 2nd input end keep low level.In like manner, when hanging basket rests in low layer, in the time of need making hanging basket arrive intermediate floor, press interlayer button switch (10-5), with door 2b(IC24) the output high level, by isolation diode 3c(VD311) and current-limiting resistance 3c(R36) make aerotron b(VT3) conducting, the switch by relay b (K3 ') and the switch of up AC contactor make the driving traction motor just transport row respectively then, make upwards operation of hanging basket, stop automatically when arriving intermediate floor.When hanging basket rests in the top layer flooring, press interlayer button switch (10-5) or bottom button switch (10-6), to make and door 2a(IC23) mouth or make and door 1(IC13) mouth be high level, by isolation diode 1c(VD111) or isolation diode 1b(VD110), current-limiting resistance 1c(R16) make aerotron a(VT1) conducting, make switch (the K1 ') adhesive of relay a, the coil of descending AC contactor is got, the switch contact closure of descending AC contactor, make traction motor counter-rotating operation, hanging basket is moved downwards, when hanging basket arrives intermediate floor or bottom, the limit switch closure of intermediate floor or bottom, when the limit switch (3) of middle floor is closed, high level is by feedback diode 2a(VD26) be input to not gate 2b(IC22) input end, make not gate 2b(IC22) mouth, with door 2a(IC23) mouth be converted to low level simultaneously, make aerotron a(VT1) end, when the limit switch (5) of bottom is closed, high level is by feedback diode 1a(VD16) be input to not gate 1b(IC12) input end, make not gate 1b(IC12) mouth, with door 1(IC13) mouth be converted to low level simultaneously, make aerotron a(VT1) end, aerotron a(VT1) end after, the switch of relay a (K1 ') disconnect, make the coil losing electricity of descending AC contactor, the switch contact of descending AC contactor disconnects, traction motor is stopped, and hanging basket rests in interlayer floor or low layer.The present invention is when work, when hanging basket rests in top layer, make limit switch (1) closure of top layer, high level is by feedback diode 3a(VD36) be input to not gate 3b(IC32) input end, make top layer stop control circuit and be locked in halted state, simultaneously, high level is by feedback diode 2c(VD29) be input to and door 2a(IC23) the 1st input end and by feedback diode 1b(VD18) be input to and door 1(IC13) the 1st input end, make and door 2a(IC23) and with 1(IC13) be ready; When hanging basket rests in interlayer, make limit switch (3) closure of interlayer, high level is by feedback diode 2a(VD26) be input to not gate 2b(IC22) input end, make interlayer stop control circuit and be locked in halted state, simultaneously, high level is by feedback diode 3b(VD38) be input to and door 3(IC33) the 2nd input end and by feedback diode 1c(VD19) be input to and door 1(IC13) the 1st input end, make and door 3(IC33) and with 1(IC13) be ready; When hanging basket rests in bottom, make limit switch (5) closure of bottom, high level is by feedback diode 1a(VD16) be input to not gate 1b(IC12) input end, make bottom stop control circuit and be locked in halted state, simultaneously, high level is by feedback diode 2b(VD28) be input to and door 2b(IC24) the 2nd input end and by feedback diode 3c(VD39) be input to and door 3(IC33) the 2nd input end, make and door 2b(IC24) and with 3(IC33) be ready; With door 2b(IC24) or with door 3(IC33) when being ready, in case with door 2b(IC24) the 1st input end or with door 3(IC33) the 1st input end signal is arranged, with door 2b(IC24) mouth or with door 3(IC33) the mouth line output circuit that will make progress carry control signal; With door 1(IC13) or with door 2a(IC23) when being ready, in case with door 1(IC13) the 2nd input end or with door 2a(IC23) the 2nd input end signal is arranged, with door 1(IC13) mouth or with door 2a(IC23) mouth downward line output circuit is carried control signal.This control module is installed in needs the hanging basket Jing Men of dock floor to be close to, and by user's action button voluntarily, therefore hanging basket just can, not need the special messenger to operate in the automatic accurate stop of the floor of user's appointment, saves artificial.

The invention has the beneficial effects as follows: a kind of material elevator control module of design, be applied in the construction of building ground, realize the automatic dock floor of hanging basket, stop position is accurate, does not need the special messenger to operate, and saves manpower.The interior circuit of module uses the cmos digital integrated circuit, has that power consumption is little, a reliable operation, non-damageable characteristics, and module adopts epoxy resin to encapsulate, and has characteristics dustproof, waterproof, and the harsh environment that adapts to the building ground uses, and makes engineering construction smooth.

Description of drawings

Accompanying drawing 1 is the exterior view of a kind of material elevator control module of the present invention.

Accompanying drawing 2 is internal circuit diagrams of a kind of material elevator control module of the present invention.

Accompanying drawing 3 is internal circuit diagrams of another kind of material elevator control module of the present invention.

Accompanying drawing 4 is scheme drawings that material elevator control module of the present invention is used in the building ground.

Among the figure: R01. current-limiting resistance 0, R11. current-limiting resistance 1a, R12. feedback resistance 1a, R13. be close to road resistance 1, R14. current-limiting resistance 1b, R15. feedback resistance 1b, R16. current-limiting resistance 1c, R21. current-limiting resistance 2a, R22. feedback resistance 2a, R23. be close to road resistance 2, R24. current-limiting resistance 2b, R25. feedback resistance 2b, R27. feedback resistance 2c, R31. current-limiting resistance 3a, R32. feedback resistance 3a, R33. be close to road resistance 3, R34. current-limiting resistance 3b, R35. feedback resistance 3b, R36. current-limiting resistance 3c, C01. filter capacitor a, C02. filter capacitor b, VD01-VD04. bridge rectifier, VD05. light-emitting diode 0, VD11. infrared emission tube 1, VD12. infrared receiver tube 1, VD13. interlock diode 1a, VD14. interlocking diode 1b, VD15. isolation diode 1a, VD16. feedback diode 1a, VD17. light-emitting diode 1, VD18. feedback diode 1b, VD19. feedback diode 1c, VD110. isolation diode 1b, VD111. isolation diode 1c, VD112. clamping diode 1, VD21. infrared emission tube 2, VD22. infrared receiver tube 2, VD23. interlock diode 2a, VD24. interlocking diode 2b, VD25. isolation diode 2a, VD26. feedback diode 2a, VD27. light-emitting diode 2, VD28. feedback diode 2b, VD29. feedback diode 2c, VD31. infrared emission tube 3, VD32. infrared receiver tube 3, VD33. interlocking diode 3a, VD34. interlocking diode 3b, VD35. isolation diode 3a, VD36. feedback diode 3a, VD37. light-emitting diode 3, VD38. feedback diode 3b, VD39. feedback diode 3c, VD310. isolation diode 3b, VD311. isolation diode 3c, VD312. clamping diode 3, IC01. three-terminal regulator block, IC11. not gate 1a, IC12. not gate 1b, IC13. and door 1, IC21. not gate 2a, IC22. not gate 2b, IC23. and a door 2a, IC24. and a door 2b, IC31. not gate 3a, IC32. not gate 3b, IC33. and door 3, VT1. aerotron a, VT3. aerotron b, K1. the coil of relay a, the coil of K3. relay b, K1 '. the switch of relay a, K3 '. the switch of relay b, the power end of Vcc. integrated circuit; A1. power input a, A2. power input b, V1. working power cathode output end a, B1. the interface of bottom button switch, B2. the interface of interlayer button switch, B3. the interface of top layer button switch, V2. working power cathode output end b, Q1. the interface of bottom limit switch, the interface of Q2. interlayer limit switch, the interface of Q3. top layer limit switch, L1. the input interface a of power supply phase line, L2. the output interface a of power supply phase line, the input interface b of L3. power supply phase line, the output interface b of L4. power supply phase line; 1. the top layer limit switch 2. prevents rushing to summit limit switch, 3. interlayer limit switch, 4. top layer door switch, 5. bottom limit switch, 6. gate intermediate layer switch, 7. bottom door switch, 8. erosion control lowest limit bit switch, the 9. switch of thermal relay, 10. material elevator control module, the installation screw of 10-1. control module, 10-2. power light, 10-3. the indicator lamp of dock floor, 10-4. top layer button switch, 10-5. interlayer button switch, 10-6. bottom button switch, 11. the coil of AC contactor a, the coil of 12. AC contactor b, 13. traction motors, 14. thermal relay, 15. AC contactor a, 16. AC contactor b, 17. rectifier transformers, 18. fuse a, 19. fuse b, 20. 3 utmost point air switchs, 21. 2 utmost point air switchs, 22. control phase line of power loop, the zero line loop of 23. control power supplys.

The specific embodiment

In embodiment 1 embodiment shown in Figure 1, the material elevator control module is made up of housing and interior circuit, interior circuit comprises electronic component and circuit card, interior circuit places in the housing, carry out package curing with epoxy resin, four jiaos in control module have installation screw (10-1), and the button of bottom button switch (10-6), interlayer button switch (10-5) and top layer button switch (10-4) stretches out from the panel of control module; The indicator lamp (10-3) that power light (10-2) and dock floor are arranged at the panel of control module, indicator lamp (10-3) is respectively by light-emitting diode 1(VD17), light-emitting diode 2(VD27) and light-emitting diode 3(VD37) constitute light-emitting diode 1(VD17), light-emitting diode 2(VD27) and light-emitting diode 3(VD37) pin be connected on the circuit card; In the side of control module power input a(A1 is arranged), power input b(A2), working power cathode output end b(V2), the interface (Q1) of bottom limit switch, the interface (Q2) of interlayer limit switch, the interface (Q3) of top layer limit switch, the input interface a(L1 of power supply phase line), the output interface a(L2 of power supply phase line), the input interface b(L3 of power supply phase line) and the output interface b(L4 of power supply phase line) pick out.

In embodiment 2 embodiment shown in Figure 2, the interior circuit of material elevator control module is mainly by working power circuit, bottom is stopped control circuit, interlayer is stopped control circuit, top layer is stopped control circuit, last line output circuit, following line output circuit, the interface of bottom limit switch (Q1), the interface (Q3) of the interface of interlayer limit switch (Q2) and top layer limit switch is formed, wherein, by bridge rectifier (VD01-VD04), filter capacitor a(C01), three-terminal regulator block (IC01) and filter capacitor b(C02) the formation working power circuit; By bottom button switch (10-6), not gate 1a(IC11), isolation diode 1a(VD15), not gate 1b(IC12), feedback resistance 1a(R12), interlocking diode 1a(VD13), interlocking diode 1b(VD14), feedback diode 1a(VD16), with a door 1(IC13), feedback resistance 1b(R15), feedback diode 1b(VD18) and feedback diode 1c(VD19) constitute bottom stop control circuit; By interlayer button switch (10-5), not gate 2a(IC21), isolation diode 2a(VD25), not gate 2b(IC22), feedback resistance 2a(R22), interlocking diode 2a(VD23), interlocking diode 2b(VD24), feedback diode 2a(VD26), with door 2a(IC23), feedback resistance 2b(R25), feedback diode 2c(VD29), with door 2b(IC24), feedback resistance 2c(R27) and feedback diode 2b(VD28) constitute interlayer and stop control circuit; By top layer button switch (10-4), not gate 3a(IC31), isolation diode 3a(VD35), not gate 3b(IC32), feedback resistance 3a(R32), interlocking diode 3a(VD33), interlocking diode 3b(VD34), feedback diode 3a(VD36), with a door 3(IC33), feedback resistance 3b(R35), feedback diode 3b(VD38) and feedback diode 3c(VD39) constitute top layer stop control circuit; By isolation diode 3b(VD310), isolation diode 3c(VD311), current-limiting resistance 3c(R36), aerotron b(VT3), clamping diode 3(VD312) and relay b formation on line output circuit; By isolation diode 1b(VD110), isolation diode 1c(VD111), current-limiting resistance 1c(R16), aerotron a(VT1), clamping diode 1(VD112) and relay a constitute line output circuit down.In the present embodiment, bottom button switch (10-6), interlayer button switch (10-5) and top layer button switch (10-4) are noncontacting switch, the square hole chute is arranged on each button switch, infrared ray transmitting aperture and infrared receiving aperture, infrared ray transmitting aperture and infrared receiving aperture be corresponding the setting linearly, the square hole chute vertically passes between infrared ray transmitting aperture and infrared receiving aperture, in the infrared ray transmitting aperture, infrared emission tube is installed, infrared receiver tube is installed in infrared receiving aperture, infrared emission tube points to infrared receiving aperture, and infrared receiver tube is towards the infrared ray transmitting aperture; In the square hole chute, be inserted between infrared ray transmitting aperture and the infrared receiving aperture, loop hole is arranged on the slide bar, button is in position the time, slide bar is blocked between infrared ray transmitting aperture and the infrared receiving aperture, when pressing the button, the loop hole on infrared ray transmitting aperture, the slide bar and infrared receiving aperture be coordination linearly, and light is passed through; Slide bar resets by coil spring, and button is connected on the slide bar; In the contact pointless button circuit, infrared emission tube 1(VD11) anode, infrared receiver tube 1(VD12) negative electrode, infrared emission tube 2(VD21) anode, infrared receiver tube 2(VD22) negative electrode, infrared emission tube 3(VD31) anode and infrared receiver tube 3(VD32) negative electrode be connected to the positive pole of working power, infrared emission tube 1(VD11) negative electrode is by current-limiting resistance 1a(R11) hold with being connected to, infrared receiver tube 1(VD12) anode is connected to not gate 1a(IC11) input end, infrared emission tube 2(VD21) negative electrode is by current-limiting resistance 2a(R21) hold with being connected to, infrared receiver tube 2(VD22) anode is connected to not gate 2a(IC21) input end, infrared emission tube 3(VD31) negative electrode is by current-limiting resistance 3a(R31) with being connected to the end, infrared receiver tube 3(VD32) anode be connected to not gate 3a(IC31) input end.In the present embodiment, the connection mode of working power circuit is: power input a(A1) and power input b(A2) be connected respectively to two ac input ends of bridge rectifier (VD01-VD04), the positive pole of bridge rectifier (VD01-VD04) is connected to filter capacitor a(C01) positive pole and the input end of three-terminal regulator block (IC01), the mouth of three-terminal regulator block (IC01) is connected to filter capacitor b(C02) positive pole, the negative pole of bridge rectifier (VD01-VD04), filter capacitor a(C01) negative pole, the earthing pole of three-terminal regulator block (IC01) and filter capacitor b(C02) negative pole hold with being connected to, the mouth of three-terminal regulator block (IC01) and filter capacitor b(C02) anodal point of connection constitute the positive pole of working power, cathode output end a(V1 is arranged on the positive pole of working power) and cathode output end b(V2) pick out; The connection mode that bottom is stopped control circuit is: mouth not gate 1a(IC11) is connected to isolation diode 1a(VD15) anode, isolation diode 1a(VD15) negative electrode, interlocking diode 1a(VD13) negative electrode, interlocking diode 1b(VD14) negative electrode and feedback diode 1a(VD16) negative electrode be connected to not gate 1b(IC12) input end, not gate 1b(IC12) mouth is connected to feedback resistance 1a(R12) the 1st pin, with door 1(IC13) the 2nd input end, interlocking diode 2b(VD24) anode and interlocking diode 3a(VD33) anode, feedback resistance 1a(R12) the 2nd pin is connected to not gate 1a(IC11) input end, with door 1(IC13) mouth be connected to feedback resistance 1b(R15) the 1st pin and isolation diode 1b(VD110) anode, feedback resistance 1b(R15) the 2nd pin, feedback diode 1b(VD18) negative electrode and feedback diode 1c(VD19) negative electrode be connected to and door 1(IC13) the 1st input end; The connection mode that interlayer is stopped control circuit is: mouth not gate 2a(IC21) is connected to isolation diode 2a(VD25) anode, isolation diode 2a(VD25) negative electrode, interlocking diode 2a(VD23) negative electrode, interlocking diode 2b(VD24) negative electrode and feedback diode 2a(VD26) negative electrode be connected to not gate 2b(IC22) input end, not gate 2b(IC22) mouth is connected to feedback resistance 2a(R22) the 1st pin, with door 2a(IC23) the 2nd input end, with door 2b(IC24) the 1st input end, interlocking diode 1a(VD13) anode and interlocking diode 3b(VD34) anode, feedback resistance 2a(R22) the 2nd pin is connected to not gate 2a(IC21) input end, with door 2a(IC23) mouth be connected to feedback resistance 2b(R25) the 1st pin and isolation diode 1c(VD111) anode, feedback resistance 2b(R25) the 2nd pin and feedback diode 2c(VD29) negative electrode be connected to and door 2a(IC23) the 1st input end, with door 2b(IC24) mouth be connected to feedback resistance 2c(R27) the 1st pin and isolation diode 3c(VD311) anode, feedback resistance 2c(R27) the 2nd pin and feedback diode 2b(VD28) negative electrode be connected to and door 2b(IC24) the 2nd input end; The connection mode that top layer is stopped control circuit is: mouth not gate 3a(IC31) is connected to isolation diode 3a(VD35) anode, isolation diode 3a(VD35) negative electrode, interlocking diode 3a(VD33) negative electrode, interlocking diode 3b(VD34) negative electrode, feedback diode 3a(VD36) negative electrode is connected to not gate 3b(IC32) input end, not gate 3b(IC32) mouth is connected to feedback resistance 3a(R32) the 1st pin, with door 3(IC33) the 1st input end, interlocking diode 1b(VD14) anode and interlocking diode 2a(VD23) anode, feedback resistance 3a(R32) the 2nd pin is connected to not gate 3a(IC31) input end, with door 3(IC33) mouth be connected to feedback resistance 3b(R35) the 1st pin and isolation diode 3b(VD310) anode, feedback resistance 3b(R35) the 2nd pin, feedback diode 3b(VD38) negative electrode and feedback diode 3c(VD39) negative electrode be connected to and door 3(IC33) the 2nd input end; The interface of bottom limit switch (Q1) is connected to feedback diode 1a(VD16) anode, feedback diode 2b(VD28) anode and feedback diode 3c(VD39) anode; The interface of interlayer limit switch (Q2) is connected to feedback diode 2a(VD26) anode, feedback diode 3b(VD38) anode and feedback diode 1c(VD19) anode; The interface of top layer limit switch (Q3) is connected to feedback diode 3a(VD36) anode, feedback diode 1b(VD18) anode and feedback diode 2c(VD29) anode; The connection mode of last line output circuit is: negative electrode isolation diode 3b(VD310) and isolation diode 3c(VD311) negative electrode be connected to current-limiting resistance 3c(R36) the 1st pin, current-limiting resistance 3c(R36) the 2nd pin is connected to aerotron b(VT3) base stage, aerotron b(VT3) emitter connects ground terminal, aerotron b(VT3) collecting electrode is connected to clamping diode 3(VD312) anode and the 2nd end of relay b coil (K3), the 1st end of relay b coil (K3) and clamping diode 3(VD312) negative electrode be connected to the positive pole of working power, the input end of relay b switch (K3 ') is connected to the input interface (L1) of power supply phase line, and the input end of relay b switch (K3 ') is connected to the output interface (L2) of power supply phase line; The connection mode of following line output circuit is: negative electrode isolation diode 1b(VD110) and isolation diode 1c(VD111) negative electrode be connected to current-limiting resistance 1c(R16) the 1st pin, current-limiting resistance 1c(R16) the 2nd pin is connected to aerotron a(VT1) base stage, aerotron a(VT1) emitter is held with being connected to, aerotron a(VT1) collecting electrode is connected to clamping diode 1(VD112) anode and the 2nd end of relay a coil (K1), the 1st end of negative electrode clamping diode 1(VD112) and relay a coil (K1) is connected to the positive pole of working power, the input end of relay a switch (K1 ') is connected to the input interface b(L3 of power supply phase line), the mouth of relay a switch (K1 ') is connected to the output interface b(L4 of power supply phase line); At not gate 1b(IC12) input end and ground end between the road of being close to resistance 1(R13 is arranged), at not gate 2b(IC22) input end and ground end between the road of being close to resistance 2(R23 is arranged), at not gate 3b(IC32) input end the road of being close to resistance 3(R33 is arranged between holding with ground); At not gate 1b(IC12) mouth and ground end between current-limiting resistance 1b(R14 is arranged) and light-emitting diode 1(VD17), current-limiting resistance 1b(R14) with light-emitting diode 1(VD17) be connected in series light-emitting diode 1(VD17) as the indicator lamp of stopping bottom; At not gate 2b(IC22) mouth and ground end between current-limiting resistance 2b(R24 is arranged) and light-emitting diode 2(VD27), current-limiting resistance 2b(R24) and light-emitting diode 2(VD27) be connected in series light-emitting diode 2(VD27) as the indicator lamp of stopping interlayer; At not gate 3b(IC32) mouth and ground end between current-limiting resistance 3b(R34 is arranged) and light-emitting diode 3(VD37), current-limiting resistance 3b(R34) and light-emitting diode 3(VD37) be connected in series light-emitting diode 3(VD37) as the indicator lamp of stopping top layer.

In embodiment 3 embodiment shown in Figure 3, bottom button switch (10-6), interlayer button switch (10-5) and top layer button switch (10-4) are arranged on the periphery of material elevator control module, bottom button switch (10-6), interlayer button switch (10-5) and top layer button switch (10-4) are contact switch, bottom button switch (10-6), the input end of interlayer button switch (10-5) and top layer button switch (10-4) is connected to the positive pole of working power, the mouth of bottom button switch (10-6) is connected to not gate 1a(IC11) input end, the mouth of interlayer button switch (10-5) is connected to not gate 2a(IC21) input end, the mouth of top layer button switch (10-4) is connected to not gate 3a(IC31) input end, working power circuit in the control module, bottom is stopped control circuit, interlayer is stopped control circuit, top layer is stopped control circuit, electronic component formation and the connection mode of last line output circuit and following line output circuit are identical with the 2nd embodiment, repeat no more.

In embodiment 4 embodiment shown in Figure 4, top layer limit switch (1) is installed in the top position of building scaffold, interlayer limit switch (3) is installed in top layer to the scaffold number of plies position that needs feeding between the bottom, bottom limit switch (5) is installed in the position of scaffold bottom, control module (10) is installed in required dock floor and hangs Jing Men and be close to, many control modules (10) adopt the mode of connection in parallel, the anti-limit switch (2) of rushing to summit is installed in series in control phase line of power loop (22), top layer door switch (4), gate intermediate layer switch (6), bottom door switch (7), the switch (9) of erosion control lowest limit bit switch (8) and thermal relay, the anti-limit switch (2) of rushing to summit is installed in the position that is higher than top layer limit switch (1), top layer door switch (4), gate intermediate layer switch (6) and bottom door switch (7) are installed in the side in the well door of hanging of dock floor separately, erosion control lowest limit bit switch (8) is installed in the position that is lower than bottom limit switch (5), thermal relay is installed in the three phase mains input circuit of traction motor (13), the switch of thermal relay (9) is connected in the control phase line of power loop (22) by lead, towing machine is installed on the ground of bottom, be connected with hanging basket by steel rope, three utmost point air switchs (20) are arranged in the three phase mains input circuit of traction motor (13), fuse a(18), AC contactor b(16) and AC contactor a(15), AC contactor b(16) be the just commentaries on classics power element of traction motor (13), AC contactor a(15) be the counter-rotating power element of traction motor (13).In the present embodiment, three-phase ac power supply is connected to three input ends of three utmost point air switchs (20), three mouths of three utmost point air switchs (20) are by three fuse a(18) be connected to AC contactor b(16) three input tip sides and AC contactor a(15) three input tip sides, AC contactor b(16) three output contact ends and AC contactor a(15) three output contact ends be connected to by thermal relay (14) on the terminals of three-phase winding coil of traction motor (13), wherein, AC contactor a(15) there are two to carry out phase place and exchange in the output contact end, make traction motor (13) counter-rotating operation; A three phase mains phase line and zero line two input ends being connected to two utmost point air switchs (21) wherein, the phase line output terminal of two utmost point air switchs (21) is by fuse b(19) be connected to the 2nd input end of rectifier transformer (17) and control phase line of power loop (22), the zero line mouth of two utmost point air switchs (21) is connected to the zero line loop (23) of the 1st input end and the control power supply of rectifier transformer (17), control phase line of power loop (22) is connected to the input end of anti-limit switch (2) of rushing to summit, the mouth of the anti-limit switch (2) of rushing to summit is connected to the input end of top layer door switch (4), the mouth of top layer door switch (4) is connected to the input end of gate intermediate layer switch (6), the mouth of gate intermediate layer switch (6) is connected to the input end of bottom door switch (7), the mouth of bottom door switch (7) is connected to the input end of erosion control lowest limit bit switch (8), the mouth of erosion control lowest limit bit switch (8) is connected to the input end of thermal relay switch (9), the mouth of thermal relay switch (9) is connected to the power supply phase line input interface a(L1 on the control module (10)) and power supply phase line input interface b(L3), power supply phase line output interface a(L2 on the control module (10)) is connected to the 1st end of AC contactor b coil (12), power supply phase line output interface b(L4 on the control module (10)) be connected to the 1st end of AC contactor a coil (11), the 2nd end of the 2nd end of AC contactor b coil (12) and AC contactor a coil (11) is connected on the zero line loop (23) of control power supply; The 1st mouth of rectifier transformer (17) is connected to the power input a(A1 on the control module (10)), the 2nd mouth of rectifier transformer (17) is connected to the power input b(A2 on the control module (10)); The input end of top layer limit switch (1), interlayer limit switch (3) and bottom limit switch (5) is connected to the mouth b(V2 of the working power positive pole on the control module (10)), the mouth of top layer limit switch (1) is connected to the interface (Q3) of the top layer limit switch on the control module (10), the mouth of interlayer limit switch (3) is connected to the interface (Q2) of the interlayer limit switch on the control module (10), and the mouth of bottom limit switch (5) is connected to the interface (Q1) of the bottom limit switch on the control module (10).In the present embodiment, top layer door switch (4), gate intermediate layer switch (6) and bottom door switch (7) are selected the limit switch of open contact for use, behind the door Close All of hanging basket well, the contact of top layer door switch (4), gate intermediate layer switch (6) and bottom door switch (7) is all closed, the loop of control power supply is connected, traction motor (13) could move, thereby plays the safety guard-safeguard effect; Anti-rush to summit limit switch (2) and erosion control lowest limit bit switch (8) are selected the limit switch of normally closed contact for use; when hanging basket rises above top layer continuation rising; touching the anti-limit switch (2) of rushing to summit disconnects its contact; thereby the loop of control power supply is disconnected; traction motor (13) is stopped; play a protective role, in like manner, erosion control lowest limit bit switch (8) can avoid the hanging basket can be the end of towards.

Claims (10)

1. material elevator control module, it is characterized in that control module is mainly by circuit card, working power circuit, bottom is stopped control circuit, interlayer is stopped control circuit, top layer is stopped control circuit, last line output circuit, following line output circuit, the interface of bottom limit switch (Q1), the interface of interlayer limit switch (Q2), the interface of top layer limit switch (Q3), housing and poting materials are formed, working power circuit, bottom is stopped control circuit, interlayer stops control circuit and top layer stop control circuit is installed on the circuit card, circuit card places in the housing, carries out package curing with poting materials; Wherein, by bridge rectifier (VD01-VD04), filter capacitor a(C01), three-terminal regulator block (IC01) and filter capacitor b(C02) constitute working power circuit; By bottom button switch (10-6), not gate 1a(IC11), isolation diode 1a(VD15), not gate 1b(IC12), feedback resistance 1a(R12), interlocking diode 1a(VD13), interlocking diode 1b(VD14), feedback diode 1a(VD16), with a door 1(IC13), feedback resistance 1b(R15), feedback diode 1b(VD18) and feedback diode 1c(VD19) constitute bottom stop control circuit; By interlayer button switch (10-5), not gate 2a(IC21), isolation diode 2a(VD25), not gate 2b(IC22), feedback resistance 2a(R22), interlocking diode 2a(VD23), interlocking diode 2b(VD24), feedback diode 2a(VD26), with door 2a(IC23), feedback resistance 2b(R25), feedback diode 2c(VD29), with door 2b(IC24), feedback resistance 2c(R27) and feedback diode 2b(VD28) constitute interlayer and stop control circuit; By top layer button switch (10-4), not gate 3a(IC31), isolation diode 3a(VD35), not gate 3b(IC32), feedback resistance 3a(R32), interlocking diode 3a(VD33), interlocking diode 3b(VD34), feedback diode 3a(VD36), with a door 3(IC33), feedback resistance 3b(R35), feedback diode 3b(VD38) and feedback diode 3c(VD39) constitute top layer stop control circuit; By isolation diode 3b(VD310), isolation diode 3c(VD311), current-limiting resistance 3c(R36), aerotron b(VT3), clamping diode 3(VD312) and relay b formation on line output circuit; By isolation diode 1b(VD110), isolation diode 1c(VD111), current-limiting resistance 1c(R16), aerotron a(VT1), clamping diode 1(VD112) and relay a constitute line output circuit down.

2. a kind of material elevator control module according to claim 1, it is characterized in that bottom button switch (10-6), interlayer button switch (10-5) and top layer button switch (10-4) are contact switch or noncontacting switch, as bottom button switch (10-6), when interlayer button switch (10-5) and top layer button switch (10-4) are contact switch, bottom button switch (10-6), the input end of interlayer button switch (10-5) and top layer button switch (10-4) is connected to the positive pole of working power, the mouth of bottom button switch (10-6) is connected to not gate 1a(IC11) input end, the mouth of interlayer button switch (10-5) is connected to not gate 2a(IC21) input end, the mouth of top layer button switch (10-4) is connected to not gate 3a(IC31) input end; As bottom button switch (10-6), when interlayer button switch (10-5) and top layer button switch (10-4) are noncontacting switch, in bottom stop control circuit, infrared emission tube 1(VD11 is arranged), current-limiting resistance 1a(R11) and infrared receiver tube 1(VD12), in interlayer stop control circuit, infrared emission tube 2(VD21 is arranged), current-limiting resistance 2a(R21) and infrared receiver tube 2(VD22), in top layer stop control circuit, infrared emission tube 3(VD31 is arranged), current-limiting resistance 3a(R31) and infrared receiver tube 3(VD32), infrared emission tube 1(VD11) anode, infrared receiver tube 1(VD12) negative electrode, infrared emission tube 2(VD21) anode, infrared receiver tube 2(VD22) negative electrode, infrared emission tube 3(VD31) anode and infrared receiver tube 3(VD32) negative electrode be connected to the positive pole of working power, infrared emission tube 1(VD11) negative electrode is by current-limiting resistance 1a(R11) hold with being connected to, infrared receiver tube 1(VD12) anode is connected to not gate 1a(IC11) input end, infrared emission tube 2(VD21) negative electrode is by current-limiting resistance 2a(R21) hold with being connected to, infrared receiver tube 2(VD22) anode is connected to not gate 2a(IC21) input end, infrared emission tube 3(VD31) negative electrode is by current-limiting resistance 3a(R31) with being connected to the end, infrared receiver tube 3(VD32) anode be connected to not gate 3a(IC31) input end.

3. a kind of material elevator control module according to claim 1, it is characterized in that power input a(A1 is arranged in the working power circuit) and power input b(A2) insert, the connection mode of working power circuit is: power input a(A1) and power input b(A2) be connected respectively to two ac input ends of bridge rectifier (VD01-VD04), the positive pole of bridge rectifier (VD01-VD04) is connected to filter capacitor a(C01) positive pole and the input end of three-terminal regulator block (IC01), the mouth of three-terminal regulator block (IC01) is connected to filter capacitor b(C02) positive pole, the negative pole of bridge rectifier (VD01-VD04), filter capacitor a(C01) negative pole, the earthing pole of three-terminal regulator block (IC01) and filter capacitor b(C02) negative pole hold with being connected to, the mouth of three-terminal regulator block (IC01) and filter capacitor b(C02) anodal point of connection constitute the positive pole of working power, cathode output end a(V1 is arranged on the positive pole of working power) and cathode output end b(V2) pick out.

4. a kind of material elevator control module according to claim 1, it is characterized in that bottom stops the connection mode of control circuit and be: mouth not gate 1a(IC11) is connected to isolation diode 1a(VD15) anode, isolation diode 1a(VD15) negative electrode, interlocking diode 1a(VD13) negative electrode, interlocking diode 1b(VD14) negative electrode and feedback diode 1a(VD16) negative electrode be connected to not gate 1b(IC12) input end, not gate 1b(IC12) mouth is connected to feedback resistance 1a(R12) the 1st pin, with door 1(IC13) the 2nd input end, interlocking diode 2b(VD24) anode and interlocking diode 3a(VD33) anode, feedback resistance 1a(R12) the 2nd pin is connected to not gate 1a(IC11) input end, with door 1(IC13) mouth be connected to feedback resistance 1b(R15) the 1st pin and isolation diode 1b(VD110) anode, feedback resistance 1b(R15) the 2nd pin, feedback diode 1b(VD18) negative electrode and feedback diode 1c(VD19) negative electrode be connected to and door 1(IC13) the 1st input end.

5. a kind of material elevator control module according to claim 1, it is characterized in that interlayer stops the connection mode of control circuit and be: mouth not gate 2a(IC21) is connected to isolation diode 2a(VD25) anode, isolation diode 2a(VD25) negative electrode, interlocking diode 2a(VD23) negative electrode, interlocking diode 2b(VD24) negative electrode and feedback diode 2a(VD26) negative electrode be connected to not gate 2b(IC22) input end, not gate 2b(IC22) mouth is connected to feedback resistance 2a(R22) the 1st pin, with door 2a(IC23) the 2nd input end, with door 2b(IC24) the 1st input end, interlocking diode 1a(VD13) anode and interlocking diode 3b(VD34) anode, feedback resistance 2a(R22) the 2nd pin is connected to not gate 2a(IC21) input end, with door 2a(IC23) mouth be connected to feedback resistance 2b(R25) the 1st pin and isolation diode 1c(VD111) anode, feedback resistance 2b(R25) the 2nd pin and feedback diode 2c(VD29) negative electrode be connected to and door 2a(IC23) the 1st input end, with door 2b(IC24) mouth be connected to feedback resistance 2c(R27) the 1st pin and isolation diode 3c(VD311) anode, feedback resistance 2c(R27) the 2nd pin and feedback diode 2b(VD28) negative electrode be connected to and door 2b(IC24) the 2nd input end.

6. a kind of material elevator control module according to claim 1, it is characterized in that top layer stops the connection mode of control circuit and be: mouth not gate 3a(IC31) is connected to isolation diode 3a(VD35) anode, isolation diode 3a(VD35) negative electrode, interlocking diode 3a(VD33) negative electrode, interlocking diode 3b(VD34) negative electrode, feedback diode 3a(VD36) negative electrode is connected to not gate 3b(IC32) input end, not gate 3b(IC32) mouth is connected to feedback resistance 3a(R32) the 1st pin, with door 3(IC33) the 1st input end, interlocking diode 1b(VD14) anode and interlocking diode 2a(VD23) anode, feedback resistance 3a(R32) the 2nd pin is connected to not gate 3a(IC31) input end, with door 3(IC33) mouth be connected to feedback resistance 3b(R35) the 1st pin and isolation diode 3b(VD310) anode, feedback resistance 3b(R35) the 2nd pin, feedback diode 3b(VD38) negative electrode and feedback diode 3c(VD39) negative electrode be connected to and door 3(IC33) the 2nd input end.

7. a kind of material elevator control module according to claim 1 is characterized in that the interface (Q1) of bottom limit switch is connected to feedback diode 1a(VD16) anode, feedback diode 2b(VD28) anode and feedback diode 3c(VD39) anode; The interface of interlayer limit switch (Q2) is connected to feedback diode 2a(VD26) anode, feedback diode 3b(VD38) anode and feedback diode 1c(VD19) anode; The interface of top layer limit switch (Q3) is connected to feedback diode 3a(VD36) anode, feedback diode 1b(VD18) anode and feedback diode 2c(VD29) anode.

8. a kind of material elevator control module according to claim 1, the connection mode that it is characterized in that line output circuit is: negative electrode isolation diode 3b(VD310) and isolation diode 3c(VD311) negative electrode be connected to current-limiting resistance 3c(R36) the 1st pin, current-limiting resistance 3c(R36) the 2nd pin is connected to aerotron b(VT3) base stage, aerotron b(VT3) emitter connects ground terminal, aerotron b(VT3) collecting electrode is connected to clamping diode 3(VD312) anode and the 2nd end of relay b coil (K3), the 1st end of relay b coil (K3) and clamping diode 3(VD312) negative electrode be connected to the positive pole of working power, the input end of relay b switch (K3 ') is connected to the input interface (L1) of power supply phase line, and the input end of relay b switch (K3 ') is connected to the output interface (L2) of power supply phase line; The connection mode of following line output circuit is: negative electrode isolation diode 1b(VD110) and isolation diode 1c(VD111) negative electrode be connected to current-limiting resistance 1c(R16) the 1st pin, current-limiting resistance 1c(R16) the 2nd pin is connected to aerotron a(VT1) base stage, aerotron a(VT1) emitter is held with being connected to, aerotron a(VT1) collecting electrode is connected to clamping diode 1(VD112) anode and the 2nd end of relay a coil (K1), the 1st end of negative electrode clamping diode 1(VD112) and relay a coil (K1) is connected to the positive pole of working power, the input end of relay a switch (K1 ') is connected to the input interface b(L3 of power supply phase line), the mouth of relay a switch (K1 ') is connected to the output interface b(L4 of power supply phase line).

9. a kind of material elevator control module according to claim 1, it is characterized in that at not gate 1b(IC12) input end and ground end between the road of being close to resistance 1(R13 is arranged), at not gate 2b(IC22) input end and ground end between the road of being close to resistance 2(R23 is arranged), at not gate 3b(IC32) input end the road of being close to resistance 3(R33 is arranged between holding with ground); At not gate 1b(IC12) mouth and ground end between current-limiting resistance 1b(R14 is arranged) and light-emitting diode 1(VD17), current-limiting resistance 1b(R14) with light-emitting diode 1(VD17) be connected in series light-emitting diode 1(VD17) as the indicator lamp of stopping bottom; At not gate 2b(IC22) mouth and ground end between current-limiting resistance 2b(R24 is arranged) and light-emitting diode 2(VD27), current-limiting resistance 2b(R24) and light-emitting diode 2(VD27) be connected in series light-emitting diode 2(VD27) as the indicator lamp of stopping interlayer; At not gate 3b(IC32) mouth and ground end between current-limiting resistance 3b(R34 is arranged) and light-emitting diode 3(VD37), current-limiting resistance 3b(R34) and light-emitting diode 3(VD37) be connected in series light-emitting diode 3(VD37) as the indicator lamp of stopping top layer.

10. a kind of material elevator control module according to claim 1, the button that it is characterized in that bottom button switch (10-6), interlayer button switch (10-5) and top layer button switch (10-4) stretches out from the panel of control module; The indicator lamp (10-3) that power light (10-2) and dock floor are arranged at the panel of control module; Power input a(A1), working power cathode output end b(V2 power input b(A2)), the interface (Q3) of the interface (Q2) of the interface (Q1) of bottom limit switch, interlayer limit switch, top layer limit switch, the input interface a(L1 of power supply phase line), the output interface a(L2 of power supply phase line), the input interface b(L3 of power supply phase line), the output interface b(L4 of power supply phase line) pick out in the side of control module.

Images