CN203873504U - Solar power supply infrared module remote control and light-controlled curtain - Google Patents
Solar power supply infrared module remote control and light-controlled curtain Download PDFInfo
- Publication number
- CN203873504U CN203873504U CN201420339824.7U CN201420339824U CN203873504U CN 203873504 U CN203873504 U CN 203873504U CN 201420339824 U CN201420339824 U CN 201420339824U CN 203873504 U CN203873504 U CN 203873504U
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- Prior art keywords
- curtain
- light
- remote control
- control
- operated
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Abstract
The utility model relates to the technical field of electronics, in particular to a solar power supply infrared module remote control and light-controlled curtain which comprises a solar power supply, a curtain, a direct-current micromotor, a light-controlled circuit, an infrared remote control transmitter and receiver module, a full-bridge driver and a curtain opening and closing transmission mechanism. When it is dawn and the light becomes strong, a light-controlled device is subject to light irradiation, a curtain opening stroke timer controls the direct-current micromotor to perform forward direction transmission, the curtain is opened automatically; when night falls and it is dim, the light-controlled device is subject to no light irradiation, a curtain closing stroke timer controls the direct-current micromotor to perform reverse direction transmission, the curtain is automatically closed; and the curtain can be opened or closed at any time or in a half open state through infrared remote control and is flexible and convenient to use. A solar power supply is put into use in one time and used for a long term, and no electric consumption occurs. The solar power supply infrared module remote control and light-controlled curtain is suitable for living rooms, bedrooms, villas, hotels, wineshops, offices, shops and entertainment venues.
Description
Technical field
The utility model relates to electronic technology field, specifically the remote control of a kind of sun-generated electric power infrared module and light-operated curtain.
Background technology
The inexhaustible new forms of energy of sun-generated electric power, but sun-generated electric power electrically driven curtain is seldom.The natural daylight of solar radiation on daytime is automatically controlled and is opened curtain, and The night screen has hung down, and dim light is automatically controlled and closed up curtain, and visible, light-operated curtain has Practical significance.Yet light-operated curtain can be applicable to instructions for use in the not all time.For example, have daytime and many times also need curtain to close, need night to ventilate and open curtain, or half-open position, obviously the function singleness of light-operated curtain, can't reach people's will.And remote-controlled curtain suspension is controlled at any time, there is no a photosensitive automatic control function, in time, has Changes in weather wind and rain, sand and dust to fly upward to can not get closing in time curtain and pollutes.
Summary of the invention
That the purpose of this utility model is to provide is solar powered, direct current micromotor drives the remote control of a kind of sun-generated electric power infrared module and light-operated curtain.
The utility model technical solution is: comprise sun-generated electric power, curtain, direct current micromotor, light-operated circuit module, infrared remote-control emitter and receiver module, full bridge driver, curtain open/close transmission mechanism, wherein, light-operated module is by light control sensor, preamplifier, shaping phase inverter, curtain is opened stroke timer, curtain closing stroke timer forms, infrared remote-control emitter and receiver module are by A, B, C, D four-way pulse code, decoding, impulse modulation infrared emission, receive, bimodulus switching device consists of four bidirectional analog switches and phase inverter N, four bidirectional analog switches are divided into the DPDT electronic switch of two groups of intersection incoming control signals through phase inverter N, light-operated module light control sensor connects curtain through a shaping phase inverter of preamplifier series connection and opens stroke timer, curtain is opened the output of stroke timer and is met electronic switch K
1contact, light-operated module light control sensor connects curtain closing stroke timer through two shaping phase inverters of preamplifier series connection, and the output of curtain closing stroke timer meets electronic switch K
3contact, infrared remote control receiver decoding A channel meets electronic switch K
2contact, B passage meets electronic switch K
4contact, C-channel is unsettled, D passage is the signal controlling end from interlocking electronic switch through flip and flop generator Z, electronic switch double-arm knife contact connects respectively two inputs of full bridge driver, full bridge driver output connects direct current micromotor, curtain open/close transmission mechanism is by the gear reduction of direct current micromotor beam warp transmission case, and transmission Timing Belt draws curtain open/close, infrared remote-control emitter button S
1control infrared remote control receiver, output positive pulse electronic switch K
1connecting full bridge driver drives the transmission of direct current micromotor forward to open curtain, button S
3a channel output negative pulse electronic switch K is controlled in interlocking
1turn-off button S
2control infrared remote control receiver, output positive pulse electronic switch K
2connecting full bridge driver drives direct current micromotor reverse drive to close up curtain, button S
3b passage output negative pulse electronic switch K is controlled in interlocking
2turn-off button S
4control and switch light-operated and infrared remote control pattern, sun-generated electric power accesses light-operated module, infrared remote control receiver, full bridge driver power end,
Wherein, sun-generated electric power is by photovoltaic battery panel E
2output is through blocking diode VD
6, relay J contact J
-1meet battery E
3, light-operated module, infrared remote control receiver, full bridge driver power end, battery E
3cross pressure-controlled sampling and meet potentiometer RP
1, adjustable termination window voltage comparable chip ICa positive input terminal, under-voltage control sampling meets potentiometer RP
2, 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
3, R
4divide crimping voltage-stabiliser tube VD
10voltage is made reference, and window voltage is relatively exported through triode and connect relay J, battery E
3be connected in series quick fuse F, and take over control reversal connection diode VD
7;
Infrared Remote-Control Sending module P
1by carrier-frequency oscilaltor, modulation circuit, pulse code A, B, C, D four-way, through four key switch S
1~S
4control infrarede emitting diode VD
5transmitting telecommand;
Infrared remote receiver module P
2by phototriode VT
1, infrared receiving module receives remote control command signal, amplifies, demodulation, pulse decoding A, B, C, D four-way, interlocking is controlled, wherein, C-channel is unsettled, and A, B passage are controlled the opening and closing of direct current micromotor M traction curtain, and D passage switches light-operated and infrared remote control pattern;
Full bridge driver is by MOS power tube VT
3, VT
5and VT
4, VT
6grid is respectively through current-limiting resistance R
7, R
8connect electronic switch double-arm knife contact, VT
3, VT
4source electrode meets respectively VT
5, VT
6drain electrode, its contact parallel connection direct micro machine, filtering spark interference capacitors C
3, VT
3, VT
4drain electrode meets sun-generated electric power V
dd, VT
5, VT
6source ground, four pipe drain electrode, source electrodes also connect the backward voltage that diode suppresses direct current micromotor generation;
Curtain open/close transmission mechanism is comprised of guide rail, two transmission cases, Timing Belt, traction crane, one group of hanging wheel, hook support, guide rail two ends connect respectively transmission case, guide rail inside is by the closed engagement of Timing Belt two ends transmission case gear, Timing Belt meshes respectively traction crane, traction crane is inserted one group of hanging wheel subsequently, hook support is placed in transmission case outside, the transmission case gear shaft socket direct current micromotor axle of guide rail one end, curtain top is hooked on traction crane, curtain end is hooked in hook support, and all the other hooks of curtain are hooked on one group of hanging wheel.
The utility model produces good effect: solar radiation is controlled folding curtain automatically, removes manual trouble from and omits operation, and infrared electrical remote control is opened at any time, closed curtain, and can open, stop in optional position, or half-open position, give comfortable impression easily, enrich the joy of life.Sun-generated electric power once drops into long-term use, and without electricity charge consumption, curtain open/close power consumption is little, easy care, long service life.Control circuit modular structure is compact, and easy to implement, reliability is high.
Accompanying drawing explanation
Fig. 1 technical solutions of the utility model theory diagram
Fig. 2 Infrared Remote-Control Sending and receiver module
Fig. 3 sun-generated electric power and control circuit
Fig. 4 direct current micromotor full-bridge driver circuit
Fig. 5 curtain open/close schematic diagram
The specific embodiment
With reference to Fig. 1, 2, 3, 4, 5, the utility model specific embodiment and embodiment: comprise sun-generated electric power 8, curtain 7, direct current micromotor 5, light-operated module 1, infrared remote-control emitter and receiver module 2, full bridge driver 4, curtain open/close transmission mechanism 6, wherein, light-operated module 1 is by light control sensor 1a, preamplifier 1b, shaping phase inverter 1c, 1d curtain is opened stroke timer 1e, curtain closing stroke timer 1f forms, infrared remote-control emitter and receiver module 2 are by A, B, C, D four-way pulse code, decoding, impulse modulation infrared emission, receive, bimodulus switching device consists of four bidirectional analog switches and phase inverter N, four bidirectional analog switches are divided into the DPDT electronic switch 3 of two groups of intersection incoming control signals through phase inverter N, light-operated module 1 light control sensor 1a connects curtain through a shaping phase inverter 1c of preamplifier 1b series connection and opens stroke timer 1e, curtain is opened stroke timer 1e output and is met electronic switch K
1contact, light-operated module 1 light control sensor 1a meets curtain closing stroke timer 1f through preamplifier 1b series connection two shaping phase inverter 1c, 1d, and curtain closing stroke timer 1f output meets electronic switch K
3contact, infrared remote control receiver 2b decoding A channel meets electronic switch K
2contact, B passage meets electronic switch K
4contact, C-channel is unsettled, D passage is the signal controlling end from interlocking electronic switch through flip and flop generator Z, electronic switch double-arm knife contact connects respectively 4 two inputs of full bridge driver, full bridge driver 4 outputs connect direct current micromotor 5, curtain open/close transmission mechanism 6 is by direct current micromotor 5 beam warp transmission case gear reductions, and transmission Timing Belt draws curtain 7 foldings, infrared remote-control emitter 2a button S
1control infrared remote control receiver 2b, output positive pulse electronic switch K
1connecting full bridge driver 4 drives direct current micromotor 5 forward transmissions to open curtain 7, button S
3a channel output negative pulse electronic switch K is controlled in interlocking
1turn-off button S
2control infrared remote control receiver 2b, output positive pulse electronic switch K
2connecting full bridge driver 4 drives direct current micromotor 5 reverse drive to close up curtain 7, button S
3b passage output negative pulse electronic switch K is controlled in interlocking
2turn-off button S
4control and switch light-operated and infrared remote control pattern, the light-operated module 1 of sun-generated electric power 8 access, infrared remote control receiver 2b, full bridge driver 4 power ends.
Curtain open/close mechanism, guide rail 6a, transmission case 6b, Timing Belt 6c, hanging wheel 6d, traction crane 6e, hook support 6f, direct current micromotor 5, curtain 7.
Light control sensor fills outdoor, the same day, light shutter device was irradiated by light during bright light rays grow, and curtain is opened stroke Timer Controlling full bridge driver and driven the transmission of direct current micromotor M forward, automatically control and open curtain, when The night screen has hung down, light is dark, and light shutter device dull thread irradiates, and curtain closing stroke Timer Controlling full bridge driver drives the reverse transmission of direct current micromotor M, automatic control curtain closes up, infrared remote control can be opened at any time or close up curtain, or half-open position, flexible and convenient to use.
Solar cell E
2daylight is for curtain open/close, simultaneously also to battery E
3charging, night is by battery E
3curtain open/close is powered.Window voltage comparable chip IC
a, Ic
boutput level is through triode VT
2drive relay J to control under-voltage, the overvoltage of charging, protection battery E
3normal operation.Control that sun-generated electric power is under-voltage is at battery E
3voltage is during lower than window voltage comparable chip ICa reference voltage, relay J adhesive, contact J
-1connect battery E
3charging, as 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 battery E
3charging.Curtain open/close power consumption reduces battery E
3voltage, sun-generated electric power is recovered charging.
Relay J two ends diode VD in parallel
11suppress backward voltage.Voltage-stabiliser tube VD
10and resistance R
2, capacitor C
2voltage stabilizing guarantee is under-voltage, overvoltage is accurately controlled.Window voltage comparable chip IC selects LM358 double operational.Switch S
6control light-operated infrared remote control receiver power supply.Infrared Remote-Control Sending module P
1zHF9901 and infrared remote control receiver module P
2zHJ9902, frequency of oscillation 40KHz, command range 15~20m.Infrared Remote-Control Sending modular battery E
1power supply, four bidirectional analog switches are selected CD4066, and phase inverter is selected CD4069.Direct current micromotor gear reduction increases moment, can drive thicker fabric curtain, and gear engagement toothed belt transmission traction curtain is non-slip quiet, and folding is steady.
Claims (6)
1. sun-generated electric power infrared module remote control and light-operated curtain, comprise curtain, direct current micromotor, it is characterized in that: also comprise sun-generated electric power, light-operated module, infrared remote-control emitter and receiver module, full bridge driver, curtain open/close transmission mechanism, wherein, light-operated module is by light control sensor, preamplifier, shaping phase inverter, curtain is opened stroke timer, curtain closing stroke timer forms, infrared remote-control emitter and receiver module are by A, B, C, D four-way pulse code, decoding, impulse modulation infrared emission, receive, bimodulus switching device consists of four bidirectional analog switches and phase inverter N, four bidirectional analog switches are divided into the DPDT electronic switch of two groups of intersection incoming control signals through phase inverter N, light-operated module light control sensor connects curtain through a shaping phase inverter of preamplifier series connection and opens stroke timer, curtain is opened the output of stroke timer and is met electronic switch K
1contact, light-operated module light control sensor connects curtain closing stroke timer through two shaping phase inverters of preamplifier series connection, and the output of curtain closing stroke timer meets electronic switch K
3contact, infrared remote control receiver decoding A channel meets electronic switch K
2contact, B passage meets electronic switch K
4contact, C-channel is unsettled, D passage is the signal controlling end from interlocking electronic switch through flip and flop generator Z, electronic switch double-arm knife contact connects respectively two inputs of full bridge driver, full bridge driver output connects direct current micromotor, curtain open/close transmission mechanism is by direct current micromotor beam warp transmission case reduction gearing, and transmission Timing Belt draws curtain open/close, infrared remote-control emitter button S
1control infrared remote control receiver, output positive pulse electronic switch K
1connecting full bridge driver drives the transmission of direct current micromotor forward to open curtain, button S
3control A channel output negative pulse electronic switch K
1turn-off button S
2infrared remote control receiver is controlled in interlocking, output positive pulse electronic switch K
2connecting full bridge driver drives direct current micromotor reverse drive to close up curtain, button S
3b passage output negative pulse electronic switch K is controlled in interlocking
2turn-off button S
4control and switch light-operated and infrared remote control pattern, sun-generated electric power accesses light-operated module, infrared remote control receiver, full bridge driver power end.
2. sun-generated electric power infrared module according to claim 1 remote control and light-operated curtain, is characterized in that: sun-generated electric power is by photovoltaic battery panel E
2output is through blocking diode VD
6, relay J contact J
-1meet battery E
3, light-operated module, infrared remote control receiver, full bridge driver power end, battery E
3cross pressure-controlled sampling and meet potentiometer RP
1, adjustable termination window voltage comparable chip ICa positive input terminal, under-voltage control sampling meets potentiometer RP
2, 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
3, R
4divide crimping voltage-stabiliser tube VD
10voltage is made reference, and window voltage is relatively exported through triode and connect relay J, battery E
3be connected in series quick fuse F, and take over control reversal connection diode VD
7.
3. sun-generated electric power infrared module according to claim 1 remote control and light-operated curtain, is characterized in that: Infrared Remote-Control Sending module is by carrier-frequency oscilaltor, modulation circuit, and pulse code A, B, C, D four-way, through four key switch S
1~S
4control infrarede emitting diode VD
5transmitting telecommand.
4. sun-generated electric power infrared module according to claim 1 remote control and light-operated curtain, is characterized in that: infrared remote receiver is by phototriode VT
1, infrared receiving module receives remote control command signal, amplifies, demodulation, pulse decoding A, B, C, D four-way, interlocking is controlled, wherein, C-channel is unsettled, and A, B passage are controlled the opening and closing of direct current micromotor M traction curtain, and D passage switches light-operated and infrared remote control pattern.
5. sun-generated electric power infrared module according to claim 1 remote control and light-operated curtain, is characterized in that: full bridge driver is by MOS power tube VT
3, VT
5and VT
4, VT
6grid is respectively through current-limiting resistance R
7, R
8connect electronic switch double-arm knife contact, VT
3, VT
4source electrode meets respectively VT
5, VT
6drain electrode, its contact parallel connection direct micro machine, filtering spark interference capacitors C
3, VT
3, VT
4drain electrode meets sun-generated electric power V
dd, VT
5, VT
6source ground, four pipe drain electrode, source electrodes also connect the backward voltage that diode suppresses direct current micromotor generation.
6. sun-generated electric power infrared module according to claim 1 remote control and light-operated curtain, it is characterized in that: curtain open/close transmission mechanism is by guide rail, two transmission cases, Timing Belt, traction crane, one group of hanging wheel, hook support forms, guide rail two ends connect respectively transmission case, guide rail inside is by the closed engagement of Timing Belt two ends transmission case gear, Timing Belt meshes respectively traction crane, traction crane is inserted one group of hanging wheel subsequently, hook support is placed in transmission case outside, the transmission case gear shaft socket direct current micromotor axle of guide rail one end, curtain top is hooked on traction crane, curtain end is hooked in hook support, all the other hooks of curtain are hooked on one group of hanging wheel.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420339824.7U CN203873504U (en) | 2014-06-13 | 2014-06-13 | Solar power supply infrared module remote control and light-controlled curtain |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420339824.7U CN203873504U (en) | 2014-06-13 | 2014-06-13 | Solar power supply infrared module remote control and light-controlled curtain |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN203873504U true CN203873504U (en) | 2014-10-15 |
Family
ID=51674068
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201420339824.7U Expired - Fee Related CN203873504U (en) | 2014-06-13 | 2014-06-13 | Solar power supply infrared module remote control and light-controlled curtain |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN203873504U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN108836093A (en) * | 2018-06-14 | 2018-11-20 | 深圳绿米联创科技有限公司 | Intelligent curtain control method, device and computer readable storage medium |
| CN111711846A (en) * | 2020-06-30 | 2020-09-25 | 深圳创维-Rgb电子有限公司 | Television terminal, brightness adjusting system and brightness adjusting method |
-
2014
- 2014-06-13 CN CN201420339824.7U patent/CN203873504U/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN108836093A (en) * | 2018-06-14 | 2018-11-20 | 深圳绿米联创科技有限公司 | Intelligent curtain control method, device and computer readable storage medium |
| CN111711846A (en) * | 2020-06-30 | 2020-09-25 | 深圳创维-Rgb电子有限公司 | Television terminal, brightness adjusting system and brightness adjusting method |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20141015 Termination date: 20150613 |
|
| EXPY | Termination of patent right or utility model |