CN203883713U - Solar-energy three-phase micro motor cloth exhibiter controlled by infrared or light - Google Patents

Abstract

The utility model relates to electric technical field and specifically to a solar-energy three-phase micro motor cloth exhibiter controlled by infrared or light. The cloth exhibiter comprises a shield, six-layer double-faced cloth exhibits, seven three-phase micro motors, a light control module, an infrared remote control emitter assembly, an infrared remote control receiver assembly, and seven-rail transmission mechanisms. The three-phase induction micro motors are powerful in controlling and bearing performance and drag heavy cloth exhibits. Light automatically controls the shield to be opened and closed. Dust is timely prevented and manual operation is eliminated. The bright colors of the exhibits are protected. The cloth exhibits can be unfolded or folded by infrared remote control when selected by a customer. The shield can be opened or closed. Space is saved by exhibiting the multilayer exhibits in an overlapping manner. The cloth exhibiter is flexible and easy to use, saves time and labor, and improves an exhibiting effect. A solar power supply is invested and used for a long term, has no electric energy consumption, and is low in on-off power consumption and easy to maintain. Control modes can be changed by switching light control and infrared remote control. Elements are shared and cost is reduced. The cloth exhibiter is suitable for sale and exhibition of curtains, door curtains, and indoor decorative cloth products.

Description

Infrared and the photocontrol three-phase electrical micro-machine cloth art display machine of solar energy

Technical field

The utility model relates to electronic technology field, specifically infrared the and photocontrol three-phase electrical micro-machine cloth art display machine of a kind of solar energy.

Background technology

The inexhaustible pollution-free new forms of energy of sun-generated electric power, generally application.Cloth curtain, door curtain, a lot of consumption of interior decoration cloth art kind are large, and client selects frequently, and manual operations is difficult to reply, and multilayer cloth art product plane shows that area occupied is excessive, are subject to travel fatigue and pollute, and are set as the cloth art display machine that multilayer cloth art product are stacked exhibition.Carry out by houselights and automatically control and pull open guard shield, show cloth art showpiece, close the dimly lit automatic control of exhibition and close up guard shield, omission operation is dustproof pollutes.Heavy cloth art show product need to be controlled with the strong three-phase induction electrical micro-machine of heavy burden ability, and infrared remote control is by cloth art showpiece opening and closing, or half-open position, meets client and selects.

Summary of the invention

The purpose of this utility model is to provide sun-generated electric power, put on display the infrared and photocontrol three-phase electrical micro-machine cloth art display machine of a kind of solar energy of thick and heavy multilayer cloth art product.

The utility model technical solution: comprise sun-generated electric power, three-phase inverter, guard shield, six layers of cloth art showpiece, three-phase electrical micro-machine M ₁, M ₂, M ₃, M ₄, M ₅, M ₆, M ₇, light-operated module, infrared remote-control emitter and receiver assembly, seven rail transmission mechanisms, wherein, light-operated module is by optical sensor, preamplifier, shaping inverter, pull open stroke timer, closing up stroke timer forms, infrared remote-control emitter and receiver assembly are by a, b, c, d, e, f, g, h, i, j, k, l, m, n, o, p 16 channel pulse codings, decoding, pulse modulation infrared emission, receive, interlocking is controlled, light-operated module optical sensor connects and pulls open stroke timer through a shaping inverter of preamplifier series connection, pull open the output of stroke timer through resistance R ₁meet triode VT ₁and relay J ₁, light-operated module optical sensor engages stroke timer through two shaping inverters of preamplifier series connection, closes up the output of stroke timer through resistance R ₂meet triode VT ₂and relay J ₂, infrared remote control receiver decoding a passage is through resistance R ₃meet triode VT ₁and relay J ₁, b passage is through resistance R ₄meet triode VT ₂and relay J ₂, c passage is through resistance R _{3 '}meet triode VT _{1 '}and relay J _{1 '}, d passage is through resistance R _{4 '}meet triode VT _{2 '}and relay J _{2 '}, m passage is through resistance R _{3 "}meet triode VT _{1 "}and relay J _{1 "}, n passage is through resistance R _{4 "}meet triode VT _{2 "}and relay J _{2 "}, tetra-groups of passage e and f, g and h, i and j, k and l, connect triode and relay through corresponding resistance, three-phase electrical micro-machine M equally ₁control circuit is through heat-carrying protector FR, relay contact J _1-1, J _2-2, A.C. contactor K ₁, K ₂connect sun-generated electric power three-phase inverter center line N, phase line, three-phase electrical micro-machine M ₁through ac contactor contact K _1-1, K _1-2, K _1-3with K _2-1, K _2-2, K _2-3be connected into phase sequence A, B, the reversible positive decommuntation of C, by fuse F ₁, F ₂, F ₃access sun-generated electric power three-phase inverter output, three-phase electrical micro-machine M ₂～M ₇control circuit and three-phase electrical micro-machine M ₁control circuit is identical, and seven rail transmission mechanisms are by three-phase electrical micro-machine M ₁～M ₇axle all draws respectively guard shield and the folding of six layers of cloth art showpiece, infrared remote-control emitter button S through transmission case gear reduction transmission Timing Belt ₁control guard shield pulls open, button S ₂control guard shield closes up, button S ₃s ₄control the folding of ground floor cloth art showpiece, button S ₅s ₆control the folding of second layer cloth art showpiece, button S ₇s ₈control the 3rd layer of cloth art showpiece folding, button S ₉s ₁₀control the 4th layer of cloth art showpiece folding, button S ₁₁s ₁₂control the folding of layer 5 cloth art showpiece, button S ₁₃s ₁₄control the folding of layer 6 cloth art showpiece, o passage is unsettled, button S ₁₅control guard shield and six layers of cloth art showpiece folding optional position and stop, p passage is through resistance R ₅meet triode VT ₃and bistable state memory self-locking relay J ₃, normally-closed contact J _3-1meet light-operated modular power source end, normally opened contact J _3-2connect infrared remote control receiver power end, tool arm contact meets sun-generated electric power V _dd, button S ₁₆control and switch light-operated and infrared remote control pattern,

Wherein, sun-generated electric power is by photovoltaic battery panel E ₂output is through blocking diode VD ₂₀, relay J contact J _-1meet storage battery E ₃, light-operated module, infrared remote control receiver power end, three-phase inverter input, storage battery E ₃cross pressure-controlled sampling and meet potentiometer RP ₃, modulation termination window voltage comparable chip ICa positive input terminal, under-voltage control sampling meets potentiometer RP ₂, modulation termination window voltage comparable chip IC _bnegative input end, window voltage comparable chip ICa negative input end and window voltage comparable chip IC _bpositive input terminal is through resistance R ₁₈, R ₁₉divide crimping voltage-stabiliser tube VD ₂₄voltage is made reference, and window voltage is relatively exported through triode and connect relay J, storage battery E ₃be connected in series quick fuse F, and take over control reversal connection diode VD ₂₁;

Three-phase inverter is by insulated gate power triode VT ₆, VT ₇, VT ₈, VT ₉, VT ₁₀, VT ₁₁form PWM pulse-width modulation inversion, six pipe grids connect respectively PWM controller signals voltage, and collector and emitter fly-wheel diode in parallel suppresses transformer and produces reverse voltage, VT ₆emitter series connection VT ₉collector electrode meets transformer T primary inductance TL ₁, VT ₇emitter series connection VT ₁₀collector electrode meets primary inductance TL ₂, VT ₈emitter series connection VT ₁₁collector electrode meets transformer T primary inductance TL ₃, sun-generated electric power positive pole meets VT ₆, VT ₇, VT ₈collector electrode, sun-generated electric power negative pole meets VT ₉, VT ₁₀, VT ₁₁emitter, transformer secondary output inductance TL _{1 '}, TL _{2 '}, TL _{3 '}as three-phase inverter output terminals A, B, C, relay contact J _1-1, J _1-2a.C. contactor K connects respectively ₁, K ₂access center line N, phase line, three-phase induction electrical micro-machine M ₁through ac contactor contact K _1-1, K _1-2, K _1-3with K _2-1, K _2-2, K _2-3be connected into positive antireciprocal commutation, through fuse F ₁, F ₂, F ₃connect three-phase inverter output, three-phase electrical micro-machine M ₂control circuit and three-phase electrical micro-machine M ₁control circuit is identical, and instrument transformer PL penetrates phase line and picks up load current signal feedback and connect the pulse-width modulation of PWM controller;

Infrared remote-control emitter is by analog switch chip IC ₁weave into 8421-BCD code, ten six press keys switch S ₁～S ₁₆control, through pulse coding chip IC ₂data processing serial code output modulation NAND gate carrier-frequency oscilaltor, access triode VT ₁₂drive infrarede emitting diode VD ₁₇transmitting remote control command;

Infrared remote receiver is by photodiode VD ₁₈, infrared receiving chip IC ₃receive command signal, amplify, demodulation, shaping access band decoding indication light diode VD ₁₉, four are latched 16 line coding chip IC ₄, IC ₅pulse decoding a, b, c, d, e, f, g, h, i, j, k, l, m, n, o, 16 passages of p, interlocking is controlled, and wherein, o passage is unsettled, and a, b, c, d, e, f, g, h, i, j, k, l, m, n passage are controlled three-phase electrical micro-machine M ₁, M ₂, M ₃, M ₄, M ₅, M ₆, M ₇the positive and negative transmission of seven rails and stopping, traction guard shield and the folding of six layers of cloth art showpiece, p passage switches light-operated and infrared remote control pattern;

Seven rail transmission mechanisms connect respectively transmission case by seven guide rail two ends, in guide rail, by Timing Belt closure, mesh two ends transmission case gear, Timing Belt meshes respectively traction crane, traction crane is inserted one group of hanging wheel subsequently, hook support is put respectively in transmission case outside, the transmission case gear shaft socket three-phase micro-motor of guide rail one end, guard shield, cloth art showpiece top hook are hooked in respectively on traction crane, guard shield, cloth art showpiece end hook are hooked in respectively in hook support, and guard shield, all the other hooks of cloth art showpiece are hooked on hanging wheel respectively.

The utility model produces good effect: it is strong that three-phase induction electrical micro-machine is controlled heavy burden ability, drag heavy cloth art show product, sun-generated electric power once drops into long-term use, there is no electricity charge consumption, folding is low in energy consumption, easy care, carry out by houselights and automatically control and pull open guard shield, close exhibition illumination and extinguish that automatically to close up guard shield dustproof in time, remove manual operation from, protection showpiece is bright in luster, client selects infrared remote control and pulls open or close up cloth art product and put on display, or half-open position, and can open at any time, close guard shield, multilayer cloth art product are stacked to put on display saves position, flexible and convenient to use time saving and energy saving, promote and put on display effect.Switch two kinds of control models of power supply change light-operated and infrared remote control, components and parts are multiplexing, save cost.

Accompanying drawing explanation

Fig. 1 technical solutions of the utility model schematic diagram

Fig. 2 three-phase inverter and seven rail three-phase electrical micro-machine control circuits

Fig. 3 16 button infrared remote-control emitters

Fig. 4 16 passage infrared remote control receivers

Fig. 5 solar-electricity source circuit

Fig. 6 seven rail lists are opened cloth art and are shown intention

Embodiment

With reference to Fig. 1,2,3,4,5,6, the utility model embodiment and embodiment: comprise sun-generated electric power 4, three-phase inverter 5, guard shield 8, six layers of cloth art showpiece 11,14, three-phase electrical micro-machine M ₁, M ₂, M ₃, M ₄, M ₅, M ₆, M ₇6, 9, 12, light-operated module 1, infrared remote-control emitter 2 and receiver 3 assemblies, seven rail transmission mechanisms 7, 8, 9, wherein, light-operated module 1 is by optical sensor 1a, preamplifier 1b, shaping inverter 1c, pull open stroke timer 1d, closing up stroke timer 1e forms, infrared remote-control emitter 2 and receiver 3 assemblies are by a, b, c, d, e, f, g, h, i, j, k, l, m, n, o, p 16 channel pulse codings, decoding, pulse modulation infrared emission, receive, interlocking is controlled, light-operated module 1 optical sensor 1a connects and pulls open stroke timer 1d through a shaping inverter 1c of preamplifier 1b series connection, pull open stroke timer 1d output through resistance R ₁meet triode VT ₁and relay J ₁, light-operated module 1 optical sensor 1a engages stroke timer 1e through two shaping inverter 1c of preamplifier 1b series connection, closes up stroke timer 1e output through resistance R ₂meet triode VT ₂and relay J ₂, infrared remote control receiver 3 decoding a passages are through resistance R ₃meet triode VT ₁and relay J ₁, b passage is through resistance R ₄meet triode VT ₂and relay J ₂, c passage is through resistance R _{3 '}meet triode VT _{1 '}and relay J _{1 '}, d passage is through resistance R _{4 '}meet triode VT _{2 '}and relay J _{2 '}, m passage is through resistance R _{3 "}meet triode VT _{1 "}and relay J _{1 "}, n passage is through resistance R _{4 "}meet triode VT _{2 "}and relay J _{2 "}, tetra-groups of passage e and f, g and h, i and j, k and l, connect triode and relay through corresponding resistance, three-phase electrical micro-machine M equally ₁control circuit Q ₁through heat-carrying protector FR, relay contact J _1-1, J _2-2, A.C. contactor K ₁, K ₂connect sun-generated electric power 4 three-phase inverter 5 center line N, phase line, three-phase electrical micro-machine M ₁through ac contactor contact K _1-1, K _1-2, K _1-3with K _2-1, K _2-2, K _2-3be connected into phase sequence A, B, the reversible positive decommuntation of C, by fuse F ₁, F ₂, F ₃access three-phase inverter 5, three-phase electrical micro-machine M ₂～M ₇control circuit Q ₂～Q ₇with three-phase electrical micro-machine M ₁control circuit Q ₁identical, seven rail transmission mechanisms 7,10,13 are by three-phase electrical micro-machine M ₁～M ₇axle all draws respectively guard shield 8 and six layers of cloth art showpiece 11,14 folding, infrared remote-control emitter 2 button S through transmission case gear reduction transmission Timing Belt ₁control guard shield 8 and pull open, button S ₂control guard shield 8 and close up, button S ₃s ₄control the folding of ground floor cloth art showpiece, button S ₅s ₆control the folding of second layer cloth art showpiece, button S ₇s ₈control the 3rd layer of cloth art showpiece folding, button S ₉s ₁₀control the 4th layer of cloth art showpiece folding, button S ₁₁s ₁₂control the folding of layer 5 cloth art showpiece, button S ₁₃s ₁₄control the folding of layer 6 cloth art showpiece, o passage is unsettled, button S ₁₅control guard shield 10 and six layers of cloth art showpiece 12 folding optional position and stop, p passage is through resistance R ₅meet triode VT ₃and bistable state memory self-locking relay J ₃, normally-closed contact J _3-1meet light-operated module 1 power end, normally opened contact J _3-2connect infrared remote control receiver 3 power ends, tool arm contact connects sun-generated electric power 4, button S ₁₆control and switch light-operated and infrared remote control pattern.

Seven rail transmission mechanisms, guide rail 7a, transmission case 7b, Timing Belt 7c, traction crane 7d, hanging wheel 7e, hook support 7f, three-phase electrical micro-machine 6,9,12, guard shield 8, cloth art showpiece 11,14.

Solar cell E ₂daylight is for the folding of cloth art showpiece, simultaneously to storage battery E ₃charging, night is by storage battery E ₃power supply.Window voltage comparable chip IC _a, Ic _boutput level is through triode VT ₁₂drive relay J to control under-voltage, the overvoltage of charging, protection storage battery E ₃normal operation.

Control that sun-generated electric power is under-voltage, at storage battery E ₃voltage is during lower than window voltage comparable chip ICa reference voltage, relay J adhesive, contact J _-1connect storage battery E ₃charging, as storage battery E ₃voltage is sufficient, crosses pressure-controlled voltage higher than window voltage comparable chip IC _bduring reference voltage, relay J releasing contact J _-1, cut off solar cell E ₂to storage battery E ₃charging.Cloth art showpiece folding power consumption reduces storage battery E ₃voltage, sun-generated electric power is recovered charging.Relay J two ends diode VD in parallel ₂₅suppress reverse voltage.Voltage-stabiliser tube VD ₂₄and resistance R ₁₇, capacitor C ₁₃voltage stabilizing guarantee is under-voltage, overvoltage is accurately controlled.Window voltage comparable chip IC selects LM358 double operational.Switch S ₇control light-operated, Infrared remote controller power supply, switch S ₈control three-phase inverter input power.

Infrared remote-control emitter coding chip IC ₁cD4067, IC ₂mC145026, receiver chip IC ₃cX20106A, coding chip IC ₄mC145027, IC ₅cD4514, NAND gate CD4011, regulate RP ₁frequency-selecting 38KHz, command range 20～25m, the errorless light-emitting diode VD of decoding ₁₉light to show correctly voltage stabilizing chip IC ₆select 78 serial three terminal devices, infrared remote-control emitter is powered by battery Eq, mains switch S ₁₇.

Relay J ₃select ZS01 bistable state memory self-locking type.Switch light-operated and infrared remote control power supply, change two kinds of control models, triode VT ₁, VT ₂and relay J ₁, J ₂light-operated multiplexing with infrared remote control, save components and parts, reduce costs.

Optical sensor is installed near display lighting lamp, carries out houselights well-illuminated, and light control sensor is irradiated by light, stroke Timer Controlling three-phase electrical micro-machine M ₁guard shield is pulled open in forward transmission automatically, and automatic Display cloth art showpiece closes exhibition lights dimmed, and light shutter device dull thread irradiates, and closes up stroke Timer Controlling three-phase electrical micro-machine M ₁reverse transmission, automatically closes up guard shield and prevents that in time travel fatigue from corroding, and protection showpiece is bright in luster.It is strong that three-phase induction electrical micro-machine is controlled heavy burden ability, drags heavy cloth art show product.

Infrared remote control is answered client to select to pull open or is closed up cloth art showpiece, at any time operation push-button switch S ₁₆cloth art showpiece is at track staying at random location, or half-open position, meets client and selects.And opening and closing guard shield at any time, multilayer cloth art product are stacked to put on display saves position, and seven maximum six layers of rail cloth art showpieces, can increase and decrease as required, flexible and convenient to use time saving and energy saving, promote bandwagon effect.

Claims (6)

1. the infrared and photocontrol three-phase electrical micro-machine cloth art display machine of solar energy, is characterized in that: comprise sun-generated electric power, three-phase inverter, guard shield, six layers of cloth art showpiece, three-phase electrical micro-machine M ₁, M ₂, M ₃, M ₄, M ₅, M ₆, M ₇, light-operated module, infrared remote-control emitter and receiver assembly, seven rail transmission mechanisms, wherein, light-operated module is by optical sensor, preamplifier, shaping inverter, pull open stroke timer, closing up stroke timer forms, infrared remote-control emitter and receiver assembly are by a, b, c, d, e, f, g, h, i, j, k, l, m, n, o, p 16 channel pulse codings, decoding, pulse modulation infrared emission, receive, interlocking is controlled, light-operated module optical sensor connects and pulls open stroke timer through a shaping inverter of preamplifier series connection, pull open the output of stroke timer through resistance R ₁meet triode VT ₁and relay J ₁, light-operated module optical sensor engages stroke timer through two shaping inverters of preamplifier series connection, closes up the output of stroke timer through resistance R ₂meet triode VT ₂and relay J ₂, infrared remote control receiver decoding a passage is through resistance R ₃meet triode VT ₁and relay J ₁, b passage is through resistance R ₄meet triode VT ₂and relay J ₂, c passage is through resistance R _{3 '}meet triode VT _{1 '}and relay J _{1 '}, d passage is through resistance R _{4 '}meet triode VT _{2 '}and relay J _{2 '}, m passage is through resistance R _{3 "}meet triode VT _{1 "}and relay J _{1 "}, n passage is through resistance R _{4 "}meet triode VT _{2 "}and relay J _{2 "}, tetra-groups of passage e and f, g and h, i and j, k and l, connect triode and relay through corresponding resistance, three-phase electrical micro-machine M equally ₁control circuit is through heat-carrying protector FR, relay contact J _1-1, J _2-2, A.C. contactor K ₁, K ₂connect sun-generated electric power three-phase inverter center line N, phase line, three-phase electrical micro-machine M ₁through ac contactor contact K _1-1, K _1-2, K _1-3with K _2-1, K _2-2, K _2-3be connected into phase sequence A, B, the reversible positive decommuntation of C, by fuse F ₁, F ₂, F ₃access sun-generated electric power three-phase inverter, three-phase electrical micro-machine M ₂～M ₇control circuit and three-phase electrical micro-machine M ₁control circuit is identical, and seven rail transmission mechanisms are by three-phase electrical micro-machine M ₁～M ₇axle all draws respectively guard shield and the folding of six layers of cloth art showpiece, infrared remote-control emitter button S through transmission case gear reduction transmission Timing Belt ₁control guard shield pulls open, button S ₂control guard shield closes up, button S ₃s ₄control the folding of ground floor cloth art showpiece, button S ₅s ₆control the folding of second layer cloth art showpiece, button S ₇s ₈control the 3rd layer of cloth art showpiece folding, button S ₉s ₁₀control the 4th layer of cloth art showpiece folding, button S ₁₁s ₁₂control the folding of layer 5 cloth art showpiece, button S ₁₃s ₁₄control the folding of layer 6 cloth art showpiece, o passage is unsettled, button S ₁₅control guard shield and six layers of cloth art showpiece folding optional position and stop, p passage is through resistance R ₅meet triode VT ₃and bistable state memory self-locking relay J ₃, normally-closed contact J _3-1meet light-operated modular power source end, normally opened contact J _3-2connect infrared remote control receiver power end, tool arm contact connects sun-generated electric power, button S ₁₆control and switch light-operated and infrared remote control pattern.

2. the infrared and photocontrol three-phase electrical micro-machine cloth art display machine of solar energy according to claim 1, is characterized in that: sun-generated electric power is by photovoltaic battery panel E ₂output is through blocking diode VD ₂₀, relay J contact J _-1meet storage battery E ₃, light-operated module, infrared remote control receiver power end, three-phase inverter input, storage battery E ₃cross pressure-controlled sampling and meet potentiometer RP ₃, modulation termination window voltage comparable chip ICa positive input terminal, under-voltage control sampling meets potentiometer RP ₂, modulation termination window voltage comparable chip IC _bnegative input end, window voltage comparable chip ICa negative input end and window voltage comparable chip IC _bpositive input terminal is through resistance R ₁₈, R ₁₉divide crimping voltage-stabiliser tube VD ₂₄voltage is made reference, and window voltage is relatively exported through triode and connect relay J, storage battery E ₃be connected in series quick fuse F, and take over control reversal connection diode VD ₂₁.

3. the infrared and photocontrol three-phase electrical micro-machine cloth art display machine of solar energy according to claim 1, is characterized in that: three-phase inverter is by insulated gate power triode VT ₆, VT ₇, VT ₈, VT ₉, VT ₁₀, VT ₁₁form PWM pulse-width modulation inversion, six pipe grids connect respectively PWM controller signals voltage, and collector and emitter fly-wheel diode in parallel suppresses transformer and produces reverse voltage, VT ₆emitter series connection VT ₉collector electrode meets transformer T primary inductance TL ₁, VT ₇emitter series connection VT ₁₀collector electrode meets primary inductance TL ₂, VT ₈emitter series connection VT ₁₁collector electrode meets transformer T primary inductance TL ₃, sun-generated electric power positive pole meets VT ₆, VT ₇, VT ₈collector electrode, sun-generated electric power negative pole meets VT ₉, VT ₁₀, VT ₁₁emitter, transformer secondary output inductance TL _{1 '}, TL _{2 '}, TL _{3 '}as three-phase inverter output terminals A, B, C, relay contact J _1-1, J _1-2a.C. contactor K connects respectively ₁, K ₂access center line N, phase line, three-phase electrical micro-machine M ₁through ac contactor contact K _1-1, K _1-2, K _1-3with K _2-1, K _2-2, K _2-3be connected into positive antireciprocal commutation, through fuse F ₁, F ₂, F ₃connect three-phase inverter output, three-phase electrical micro-machine M ₂control circuit and three-phase electrical micro-machine M ₁control circuit is identical, and instrument transformer PL penetrates phase line and picks up load current signal feedback and connect the pulse-width modulation of PWM controller.

4. the infrared and photocontrol three-phase electrical micro-machine cloth art display machine of solar energy according to claim 1, is characterized in that: infrared remote-control emitter is by analog switch chip IC ₁weave into 8421-BCD code, ten six press keys switch S ₁～S ₁₆control, through pulse coding chip IC ₂data processing serial code output modulation NAND gate carrier-frequency oscilaltor, access triode VT ₁₃drive infrarede emitting diode VD ₁₇transmitting remote control command.

5. the infrared and photocontrol three-phase electrical micro-machine cloth art display machine of solar energy according to claim 1, is characterized in that: infrared remote receiver is by photodiode VD ₁₈, infrared receiving chip IC ₃, IC ₄receive command signal, amplify, demodulation, shaping access band decoding indication light diode VD ₁₉, four are latched 16 line coding chip IC ₄, IC ₅pulse decoding a, b, c, d, e, f, g, h, i, j, k, l, m, n, o, 16 passages of p, interlocking is controlled, and wherein, o passage is unsettled, and a, b, c, d, e, f, g, h, i, j, k, l, m, n passage are controlled three-phase electrical micro-machine M ₁, M ₂, M ₃, M ₄, M ₅, M ₆, M ₇the positive and negative transmission of seven rails and stopping, traction guard shield and the folding of six layers of cloth art showpiece, p passage switches light-operated and infrared remote control pattern.

6. the infrared and photocontrol three-phase electrical micro-machine cloth art display machine of solar energy according to claim 1, it is characterized in that: seven rail transmission mechanisms connect respectively transmission case by seven guide rail two ends, in guide rail, by Timing Belt closure, mesh two ends transmission case gear, Timing Belt meshes respectively traction crane, traction crane is inserted one group of hanging wheel subsequently, hook support is put respectively in transmission case outside, the transmission case gear shaft socket three-phase micro-motor of guide rail one end, guard shield, cloth art showpiece top hook is hooked in respectively on traction crane, guard shield, cloth art showpiece end hook is hooked in respectively in hook support, guard shield, all the other hooks of cloth art showpiece are hooked on hanging wheel respectively.