CN105305889A - Solar light-operated wireless remote control single-phase micromotor fabric art exhibition machine - Google Patents
Solar light-operated wireless remote control single-phase micromotor fabric art exhibition machine Download PDFInfo
- Publication number
- CN105305889A CN105305889A CN201410286268.6A CN201410286268A CN105305889A CN 105305889 A CN105305889 A CN 105305889A CN 201410286268 A CN201410286268 A CN 201410286268A CN 105305889 A CN105305889 A CN 105305889A
- Authority
- CN
- China
- Prior art keywords
- control
- wireless remote
- machine
- remote control
- relay
- 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.)
- Withdrawn
Links
Landscapes
- Remote Monitoring And Control Of Power-Distribution Networks (AREA)
Abstract
The invention relates to the technical field of electrics, in particular to a solar light-operated wireless remote control single-phase micromotor fabric art exhibition machine. The fabric art exhibition machine comprises a protective cover, a six-layered fabric art exhibit, seven single-phase micromotors, a light-operated module, a wireless remote control transmitter and receiver assembly, and a seven-track transmission mechanism. Since a solar power supply is used, the solar light-operated wireless remote control single-phase micromotor fabric art exhibition machine once purchased can be used for a long time without further cost and is low in on/off power consumption and easy to maintain; the protective cover can be automatically controlled to open and close in a light-operated mode, so as to achieve the effect of timely preventing dust, avoiding the trouble of manual operation and keeping the color of the exhibit bright; under wireless remote control, the fabric art exhibit can be folded or unfolded for selection by customers and the protective cover can be opened or closed; multiple layers of fabric art products can be exhibited in an overlapped manner, thereby saving space; the fabric art exhibition machine is flexible and convenient to use and improves the exhibition effect. In addition, the control mode can be changed by switching a light-operated mode power supply and a wireless remote control mode power supply, thereby achieving the effects of reusing elements and saving cost. The solar light-operated wireless remote control single-phase micromotor fabric art exhibition machine can be used for marketing exhibition of curtains, portieres and indoor decoration cloth products.
Description
Technical field
The present invention relates to electronic technology field, specifically the light-operated wireless remote control of a kind of solar energy single-phase electrical micro-machine cloth art display machine.
Background technology
Sun-generated electric power is pollution-free new forms of energy, just at popularity.Cloth curtain, door curtain, interior decorative fabric art kind are a lot of; consumption is large, client selects frequently; manual operations is difficult to reply; multilayer cloth art product laid out flat area occupied is excessive, is subject to travel fatigue and pollutes, be set as multilayer cloth art product and be stacked exhibition; carry out and automatically controlled to pull open guard shield by houselights; show cloth art product, close the dimly lit automatic control of exhibition and close up guard shield, operation is omitted in dust-proof pollution.Wireless remote control is by laminates art show product opening and closing, or half-open position, meets client and selects.
Summary of the invention
The object of this invention is to provide sun-generated electric power, put on display the light-operated wireless remote control of a kind of solar energy single-phase electrical micro-machine cloth art display machine of multilayer cloth art product.
The technology of the present invention solution: comprise sun-generated electric power, full-bridge inverter, guard shield, six layers of cloth art showpiece, single-phase electrical micro-machine M
1, M
2, M
3, M
4, M
5, M
6, M
7, control module, wireless remote control emitter and receiver assembly, seven rail transmission mechanisms, wherein, control module is by optical sensor, preamplifier, shaping inverter, pull open stroke timer, close up stroke timer composition, wireless remote control emitter and receiver assembly are by a, b, c, d, e, f, g, h, i, j, k, l, m, n, o, p ten Hexamermis spp pulse code, decoding, pulse modulation wireless transmission, receive, interlocking controls, control module optical sensor connects pull open stroke timer through a preamplifier shaping inverter of connecting, pull open the output of stroke timer and meet triode VT through resistance R1
1and relay J
1, control module optical sensor engages stroke timer through connect two shaping inverters of preamplifier, closes up stroke timer and exports through resistance R
2meet triode VT
2and relay J
2, wireless remote controlled 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", passage e and f, g and h, i and j, k and l four groups, the resistance equally through correspondence connects triode and relay, single-phase electrical micro-machine M
1control circuit control coil L
1two ends are contact relay J respectively
1, J
2tool arm contact, relay contact J
1-1, J
1-2with J
2-1, J
2-2commutation intersection connects full-bridge inverter output AC power source, single-phase electrical micro-machine M
2~ M
7control coil two ends connect corresponding relay tool arm contact respectively, and corresponding relay contact intersects the full-bridge inverter output AC power source that connects, single-phase electrical micro-machine M
1~ M
7magnetizing coil L
2through electric capacity C
1connect full-bridge inverter output AC power source, single-phase electrical micro-machine M
2~ M
7control circuit and single-phase electrical micro-machine M
1control circuit is identical, and seven rail transmission mechanisms are by single-phase electrical micro-machine M
1~ M
7axle is all through transmission case gear reduction, and drive coordination band draws guard shield and the folding of six layers of cloth art showpiece respectively, wireless remote control emitter button S
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 folding of third layer cloth art showpiece, 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 positions stopping, p passage is through resistance R
5meet triode VT
3and bistable state memory self-locking relay J
3, normally-closed contact J
3-1meet control module power end, normally opened contact J
3-2meet the power end V of wireless remote controlled receiver
cc, tool arm contact connects sun-generated electric power, button S
16control to switch light-operated and remote control mode,
Wherein, wireless remote control emitter is by analog switch chip IC
1weave into 8421-BCD code, ten six press keys switch S
1~ S
16control, pulse code chip IC
2data processing serial code exports modulation wireless launcher Y
1carrier-frequency oscilaltor, meets antenna T through power amplifier
1launch remote control command;
Wireless receiver is by antenna T
2, wireless receiver Y
2receive command signal, carry out that height is put, detection, lowly put access band decoding indication light diode VD
21, four are latched 16 line coding chip IC
3, IC
4pulse decoding a, b, c, d, e, f, g, h, i, j, k, l, m, n, o, p 16 passages, interlocking controls, and wherein, o passage is unsettled, and a, b, c, d, e, f, g, h, i, j, k, l, m, n passage controls single-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 six layers of cloth art showpiece folding, p passage bridge is light-operated with wireless remote control pattern;
Sun-generated electric power is by photovoltaic battery panel E
2export through blocking diode VD
18, relay J contact J
-1meet storage battery E
3, control module, infrared remote control receiver power end, full-bridge inverter input, storage battery E
3cross pressure-controlled sampling and meet potentiometer RP
2, adjustable termination window voltage comparable chip ICa positive input terminal, under-voltage control sampling meets potentiometer RP
1, adjustable 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
13, R
14divide crimping voltage-stabiliser tube VD
22voltage makes reference, and window voltage compares output through triode contact relay J, storage battery E
3serial connection quick acting fuse F, and take over control reversal connection diode VD
19.
Full-bridge inverter is by insulated gate power triode VT
4, VT
5, VT
6, VT
7composition PWM pulse-width modulation bridge type inverse, four pipe grids connect PWM controller signal voltage respectively, and collector and emitter fly-wheel diode in parallel suppresses transformer to produce reverse voltage, VT
4emitter series connection VT
5collector electrode connection transformer T primary inductance TL
1one end, VT
6emitter series connection VT
7collector electrode connection transformer primary inductance TL
1the other end, sun-generated electric power positive pole meets VT
4, VT
6collector electrode, sun-generated electric power negative pole meets VT
5, VT
7emitter, transformer secondary output inductance TL
2as full-bridge inverter output, single-phase electrical micro-machine is through relay contact J
1-1, J
1-2with J
2-1, J
2-2interconnection commutates, and instrument transformer PL penetrates load pickup current signal feedback and connects PWM controller pulse-width modulation;
Seven rail transmission mechanisms connect transmission case respectively by seven guide rail two ends, by Timing Belt closed engagement two ends transmission case gear in guide rail, Timing Belt engages traction crane respectively, traction crane inserts one group of hanging wheel subsequently, hook support is put respectively outside transmission case, the transmission case gear bush order phase micro-motor of guide rail one end, guard shield, cloth art showpiece top hook is hooked on traction crane respectively, guard shield, cloth art showpiece end hook is hooked in hook support respectively, and all the other hooks of guard shield, cloth art showpiece are hooked on hanging wheel respectively.
The present invention produces good effect: sun-generated electric power once drops into Long-Time Service; folding power consumption is little, easy care, carries out houselights unlatching and automatically pulls open guard shield, closes exhibition illumination extinguishing and closes up guard shield; dust-proofly in time remove manual operation from; protection showpiece is bright in luster, and client selects wireless remote control and pulls open or close up the displaying of cloth art product, or half-open position; and can opening and closing guard shield at any time; multilayer cloth art product are stacked to put on display saves position, flexible and convenient to use time saving and energy saving, promotes bandwagon effect.Switch and light-operatedly change control model with the power supply of wireless remote control, components and parts are multiplexing, save cost.
Accompanying drawing explanation
Fig. 1 technical solution of the present invention schematic diagram
Fig. 2 full-bridge inverter and the single-phase electrical micro-machine control circuit of seven rails
Fig. 3 ten Hexamermis spp wireless remote control emitter
Fig. 4 ten Hexamermis spp wireless remote controlled receiver
Fig. 5 solar-electricity source circuit
Fig. 6 seven rail cloth art shows intention
Embodiment
With reference to Fig. 1,2,3,4,5,6, the specific embodiment of the invention and embodiment: comprise sun-generated electric power 13, full-bridge inverter 14, guard shield 10, six layers of cloth art showpiece 11,12, single-phase electrical micro-machine M
1, M
2, M
3, M
4, M
5, M
6, M
74, 5, 6, control module 1, wireless remote control emitter 2 and receiver 3 assembly, seven rail transmission mechanisms 7, 8, 9, wherein, control module 1 is by optical sensor 1a, preamplifier 1b, shaping inverter 1c, pull open stroke timer 1d, close up stroke timer 1e to form, wireless remote control emitter 2 and receiver 3 assembly are by a, b, c, d, e, f, g, h, i, j, k, l, m, n, o, p ten Hexamermis spp pulse code, decoding, pulse modulation wireless transmission, receive, interlocking controls, control module 1 optical sensor 1a through preamplifier 1b connect a shaping inverter 1c connect pull open stroke timing 1d, pull open stroke timer 1d to export through resistance R
1meet triode VT
1and relay J
1, control module 1 optical sensor 1a engages stroke timer 1e through connect two shaping inverter 1c of preamplifier 1b, closes up stroke timer 1e and exports through resistance R
2meet triode VT
2and relay J
2, wireless remote controlled receiver 3 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", rest channels e and f, g and h, i and j, k and l four groups, the resistance equally through correspondence connects triode and relay, single-phase electrical micro-machine M
1control circuit Q
1control coil L
1two ends are contact relay J respectively
1, J
2tool arm contact, relay contact J
1-1, J
1-2with J
2-1, J
2-2commutation intersection connects full-bridge inverter 14 output AC power source, single-phase electrical micro-machine M
2~ M
7control coil two ends connect corresponding relay tool arm contact respectively, and corresponding relay contact intersects full-bridge inverter 14 output AC power source that connects, single-phase electrical micro-machine M
1~ M
74,5,6 magnetizing coil L
2through electric capacity C
1connect full-bridge inverter 14 output AC power source, single-phase electrical micro-machine M
2~ M
7control circuit Q
2~ Q
7with single-phase electrical micro-machine M
1control circuit Q
1identical, seven rail transmission mechanisms 7,8,9 are by single-phase electrical micro-machine M
1~ M
7axle is all through transmission case gear reduction, and drive coordination band draws guard shield 10 and the single folding of six layers of cloth art showpiece 11,12 respectively, wireless remote control emitter 2 button S
1control guard shield 10 to pull open, button S
2control guard shield 10 to close up, button S
3s
4control the folding of ground floor cloth art showpiece 11, button S
5s
6control the folding of second layer cloth art showpiece, button S
7s
8control the folding of third layer cloth art showpiece, 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 12, o passage is unsettled, button S
15control guard shield 10 and six layers of cloth art showpiece 11,12 folding optional positions stopping, p passage is through resistance R
5meet triode VT
3and bistable state memory self-locking relay J
3, normally-closed contact J
3-1meet control module 1 power end Vcc, normally opened contact J
3-2meet wireless remote controlled receiver 3 power end Vcc, tool arm contact connects sun-generated electric power 13, button S
16control to switch light-operated and remote control mode.
Seven rail transmission mechanisms, guide rail 7a, transmission case 7b, Timing Belt 7c, traction crane 7d, hanging wheel 7e, hook support 7f, single-phase electrical micro-machine 4,5,6, guard shield 10, cloth art showpiece 11,12.
Solar cell E
2daylight supplies 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
8relay J is driven 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
3when voltage is 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, and overvoltage control voltage is 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.Folding power consumption reduces storage battery E
3voltage, sun-generated electric power recovers charging.Relay J two ends diode VD in parallel
23suppress reverse voltage.Voltage-stabiliser tube VD
22and resistance R
12, electric capacity C
6voltage stabilizing ensures that under-voltage, overvoltage accurately controls.Window voltage comparable chip IC selects LM358 double operational.Switch S
18control light-operated, wireless remote controlled receiver power supply, switch S
19control full-bridge inverter input power.
Wireless remote control emitting module IC
1cD4067, IC
2mC145026 secondary coding signal madulation wireless launcher Y
1m303S carrier frequency oscillation, receiver Y
2m303R, coding chip IC
3mC145027, IC
4tetrad is decoded into decimal code by CD4514, command range 30 ~ 40m, the errorless light-emitting diode VD of decoding
17light to show that correctly wireless remote control emitter is by battery E
1power supply, mains switch S
17.Relay J
3zS01 bistable state is selected to remember self-locking type.Switch light-operated with wireless remote control power supply, change control model, triode VT
1, VT
2and relay J
1, J
2light-operated multiplexing with wireless 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 irradiates by light, the single-phase electrical micro-machine M of stroke Timer Controlling
1forward transmission pulls open guard shield automatically, automatic Display cloth art product, and close exhibition lights dimmed, light shutter device dull thread irradiates, and closes up the single-phase electrical micro-machine M of stroke Timer Controlling
1reverse transmission, closes up guard shield automatically, prevents travel fatigue from corroding in time, protects bright in luster.
Answer client to select wireless remote control pull open or close up cloth art showpiece, operation push-button switch S at any time
16cloth art showpiece is at track staying at random location, or half-open position, meets client and selects, and can opening and closing guard shield at any time, multilayer cloth art product are stacked to put on display saves position, seven maximum six layers of rail transmission cloth art showpieces, can increase and decrease as required, flexible and convenient to use, promote bandwagon effect.Sun-generated electric power once drops into Long-Time Service, and folding power consumption is little, easy care, long service life.
Claims (6)
1. the light-operated wireless remote control of a solar energy single-phase electrical micro-machine cloth art display machine, is characterized in that: comprise sun-generated electric power, full-bridge inverter, guard shield, six layers of cloth art showpiece, single-phase electrical micro-machine M
1, M
2, M
3, M
4, M
5, M
6, M
7, control module, wireless remote control emitter and receiver assembly, seven rail transmission mechanisms, wherein, control module is by optical sensor, preamplifier, shaping inverter, pull open stroke timer, close up stroke timer composition, wireless remote control emitter and receiver assembly are by a, b, c, d, e, f, g, h, i, j, k, l, m, n, o, p ten Hexamermis spp pulse code, decoding, pulse modulation wireless transmission, receive, interlocking controls, control module optical sensor connects pull open stroke timer through a preamplifier shaping inverter of connecting, pull open stroke timer to export through resistance R
1meet triode VT
1and relay J
1, control module optical sensor engages stroke timer through connect two shaping inverters of preamplifier, closes up stroke timer and exports through resistance R
2meet triode VT
2and relay J
2, wireless remote controlled 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", passage e and f, g and h, i and j, k and l four groups, the resistance equally through correspondence connects triode and relay, single-phase electrical micro-machine M
1control circuit control coil L
1two ends are contact relay J respectively
1, J
2tool arm contact, relay contact J
1-1, J
1-2with J
2-1, J
2-2commutation intersection connects full-bridge inverter output AC power source, single-phase electrical micro-machine M
2~ M
7control coil two ends connect corresponding relay tool arm contact respectively, and corresponding relay contact intersects the full-bridge inverter output AC power source that connects, single-phase electrical micro-machine M
1~ M
7magnetizing coil L
2through electric capacity C
1connect full-bridge inverter output AC power source, single-phase electrical micro-machine M
2~ M
7control circuit and single-phase electrical micro-machine M
1control circuit is identical, and seven rail transmission mechanisms are by single-phase electrical micro-machine M
1~ M
7axle is all through transmission case gear reduction, and drive coordination band draws guard shield and the folding of six layers of cloth art showpiece respectively, wireless remote control emitter button S
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 folding of third layer cloth art showpiece, 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 positions stopping, p passage is through resistance D
5meet triode VT
3and bistable state memory self-locking relay J
3, normally-closed contact J
3-1meet control module power end V
cc, normally opened contact J
3-2meet wireless remote controlled receiver power end V
cc, tool arm contact connects sun-generated electric power, button S
16control to switch light-operated with wireless remote control pattern.
2. the light-operated wireless remote control of solar energy according to claim 1 single-phase electrical micro-machine cloth art display machine, is characterized in that: wireless remote control emitter is by analog switch chip IC
1weave into 8421-BCD code, ten six press keys switch S
1~ S
16control, pulse code chip IC
2data processing serial code exports modulation wireless launcher Y
1carrier-frequency oscilaltor, meets antenna T through power amplifier
1launch remote control command.
3. the light-operated wireless remote control of solar energy according to claim 1 single-phase electrical micro-machine cloth art display machine, is characterized in that: wireless receiver is by antenna T
2, wireless receiver Y
2receive command signal, carry out that height is put, detection, lowly put access band decoding indication light diode VD
17, four are latched 16 line coding chip IC
3, IC
4pulse decoding a, b, c, d, e, f, g, h, i, j, k, l, m, n, o, p 16 passages, interlocking controls, and wherein, o passage is unsettled, and a, b, c, d, e, f, g, h, i, j, k, l, m, n passage controls single-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 protective cover and six layers of cloth art showpiece folding, p passage bridge is light-operated with wireless remote control pattern.
4. the light-operated wireless remote control of solar energy according to claim 1 single-phase electrical micro-machine cloth art display machine, is characterized in that: sun-generated electric power is by photovoltaic battery panel E
2export through blocking diode VD
18, relay J contact J
-1meet storage battery E
3, control module, infrared remote control receiver power end, full-bridge inverter input, storage battery E
3cross pressure-controlled sampling and meet potentiometer RP
2, adjustable termination window voltage comparable chip ICa positive input terminal, under-voltage control sampling meets potentiometer RP
1, adjustable 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
13, R
14divide crimping voltage-stabiliser tube VD
22voltage makes reference, and window voltage compares output through triode contact relay J, storage battery E
3serial connection quick acting fuse F, and take over control reversal connection diode VD
19.
5. the light-operated wireless remote control of solar energy according to claim 1 single-phase electrical micro-machine cloth art display machine, is characterized in that: inverter is by insulated gate power triode VT
4, VT
5, VT
6, VT
7composition PWM pulse-width modulation bridge type inverse, four pipe grids connect PWM controller signal voltage respectively, and collector and emitter fly-wheel diode in parallel suppresses transformer to produce reverse voltage, VT
4emitter series connection VT
5collector electrode connection transformer T primary inductance TL
1one end, VT
6emitter series connection VT
7collector electrode connection transformer primary inductance TL
1the other end, sun-generated electric power positive pole meets VT
4, VT
6collector electrode, sun-generated electric power negative pole meets VT
5, VT
7emitter, transformer secondary output inductance TL
2as inverter output end, single-phase electrical micro-machine is through relay contact J
1-1, J
1-2with J
2-1, J
2-2interconnection commutates, and instrument transformer PL penetrates load pickup current signal feedback and connects PWM controller pulse-width modulation.
6. the light-operated wireless remote control of solar energy according to claim 1 single-phase electrical micro-machine cloth art display machine, it is characterized in that: seven rail transmission mechanisms connect transmission case respectively by seven guide rail two ends, by Timing Belt closed engagement two ends transmission case gear in guide rail, Timing Belt engages traction crane respectively, traction crane inserts one group of hanging wheel subsequently, hook support is put respectively outside transmission case, the transmission case gear bush order phase micro-motor of guide rail one end, protective cover, cloth art showpiece top hook is hooked on traction crane respectively, protective cover, cloth art showpiece end hook is hooked in hook support respectively, protective cover, all the other hooks of cloth art showpiece are hooked on hanging wheel respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201410286268.6A CN105305889A (en) | 2014-06-13 | 2014-06-13 | Solar light-operated wireless remote control single-phase micromotor fabric art exhibition machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201410286268.6A CN105305889A (en) | 2014-06-13 | 2014-06-13 | Solar light-operated wireless remote control single-phase micromotor fabric art exhibition machine |
Publications (1)
Publication Number | Publication Date |
---|---|
CN105305889A true CN105305889A (en) | 2016-02-03 |
Family
ID=55202760
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201410286268.6A Withdrawn CN105305889A (en) | 2014-06-13 | 2014-06-13 | Solar light-operated wireless remote control single-phase micromotor fabric art exhibition machine |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN105305889A (en) |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4275394A (en) * | 1978-09-26 | 1981-06-23 | Mabuchi Motor Co. Ltd. | Radio control driving circuit device |
CN2166729Y (en) * | 1993-08-24 | 1994-06-01 | 韩建业 | Automatic curtain control device |
CN101982618A (en) * | 2010-09-17 | 2011-03-02 | 山东理工大学 | Manual control and remote control integrated electric fork lift truck |
CN201957315U (en) * | 2011-04-03 | 2011-08-31 | 阮树成 | Solar energy eight push-pull oscillation high voltage sodium lamp |
US20130112354A1 (en) * | 2011-11-03 | 2013-05-09 | Carl David Hardison, III | Powered safety curtains |
CN203883716U (en) * | 2014-06-13 | 2014-10-15 | 张根清 | Solar energy single-phase micro motor cloth exhibiter controlled by light or wireless mode |
-
2014
- 2014-06-13 CN CN201410286268.6A patent/CN105305889A/en not_active Withdrawn
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4275394A (en) * | 1978-09-26 | 1981-06-23 | Mabuchi Motor Co. Ltd. | Radio control driving circuit device |
CN2166729Y (en) * | 1993-08-24 | 1994-06-01 | 韩建业 | Automatic curtain control device |
CN101982618A (en) * | 2010-09-17 | 2011-03-02 | 山东理工大学 | Manual control and remote control integrated electric fork lift truck |
CN201957315U (en) * | 2011-04-03 | 2011-08-31 | 阮树成 | Solar energy eight push-pull oscillation high voltage sodium lamp |
US20130112354A1 (en) * | 2011-11-03 | 2013-05-09 | Carl David Hardison, III | Powered safety curtains |
CN203883716U (en) * | 2014-06-13 | 2014-10-15 | 张根清 | Solar energy single-phase micro motor cloth exhibiter controlled by light or wireless mode |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN203883713U (en) | Solar-energy three-phase micro motor cloth exhibiter controlled by infrared or light | |
CN203883716U (en) | Solar energy single-phase micro motor cloth exhibiter controlled by light or wireless mode | |
CN105193225A (en) | Solar infrared sunlight double-control single-phase micro motor double-rail bilaterally-opened curtain | |
CN203896235U (en) | Solar light and wireless double control DC micromotor split fabric display machine | |
CN203933467U (en) | The light-operated infrared remote control of the single-phase electrical micro-machine of solar energy is split cloth art display machine | |
CN203933464U (en) | Infrared and the photocontrol direct current micromotor list of solar energy is opened cloth art display machine | |
CN203883714U (en) | Three-phase induction micro motor cloth exhibiter controlled by light or wireless mode | |
CN203933468U (en) | Solar energy three-phase electrical micro-machine is wireless splits cloth art display machine with light dual control | |
CN203883715U (en) | Single-phase induction micro motor side-by-side cloth exhibiter controlled by light or remotely controlled by infrared | |
CN105305889A (en) | Solar light-operated wireless remote control single-phase micromotor fabric art exhibition machine | |
CN203883712U (en) | Single-phase induction micro motor single-side cloth exhibiter controlled by light or wireless mode | |
CN204119094U (en) | Three-phase induction electrical micro-machine light and infrared control split cloth art display machine | |
CN203885234U (en) | Solar light-control wireless-remote-control three-phase-induction-micromotor double-track oppositely-opened curtain | |
CN203933465U (en) | Direct current micromotor light and infrared dual control list are opened cloth art display machine | |
CN203885233U (en) | Solar light-control wireless-remote-control single-phase-micromotor double-track oppositely-opened curtain | |
CN203873508U (en) | Solar energy infrared and sunlight double control double-track bilateral open curtain with single phase micromotors | |
CN204049179U (en) | Solar energy daylight infrared dual control three-phase micro machine double track splits curtain | |
CN203873513U (en) | Solar energy infrared and light control double-track single opening curtain with direct-current micromotors | |
CN105207538A (en) | Solar infrared-controlled and light-controlled three-phase micro-motor fabric exhibiter | |
CN203935006U (en) | Solar energy light-operated with the wireless remote control three-phase induction micro machine list curtain of windowing | |
CN203883711U (en) | Four-rail single-side cloth exhibiter | |
CN105281610A (en) | Solar single-phase micro-motor light-controlled infrared remotely-controlled split-opening fabric demonstration machine | |
CN203933466U (en) | Light-operated wireless remote control direct current micromotor is split cloth art display machine | |
CN104660114B (en) | Solar energy three-phase micro machine wirelessly with the split fabrics display machine of light dual control | |
CN104660113A (en) | Single opened fabric demonstrating machine with solar infrared and light control direct-current micro motor |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
WW01 | Invention patent application withdrawn after publication | ||
WW01 | Invention patent application withdrawn after publication |
Application publication date: 20160203 |