CN201986234U - Solar street light controller - Google Patents
Solar street light controller Download PDFInfo
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- CN201986234U CN201986234U CN 201120082077 CN201120082077U CN201986234U CN 201986234 U CN201986234 U CN 201986234U CN 201120082077 CN201120082077 CN 201120082077 CN 201120082077 U CN201120082077 U CN 201120082077U CN 201986234 U CN201986234 U CN 201986234U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/72—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps in street lighting
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Abstract
The utility model relates to a solar street light controller which comprises a shell and a controlling circuit arranged in the shell, wherein the input end of a charging module in the control circuit is connected with a solar photovoltaic panel; the control end of the charging module is connected with a microprocessor module; the output end of the charging module is connected with a storage cell; the storage cell is connected with the input end of a power supply conversion module and the input end of a voltage output module; the output end of the voltage output module is connected with an LED street light; the control end of the voltage output module is connected with the output end of a boost control module; the input end of the voltage detection module is respectively connected with the storage cell and the solar photovoltaic panel; the output end of the voltage detection module is respectively connected with the microprocessor module; and the microprocessor module is connected with the input end of the boost control module. The solar street light controller has a simple structure, is convenient to install and is convenient to maintain. According to different environments, different working parameters and states, charging and discharging can be automatically controlled, so that the charging and discharging are controlled under an optimal state, and the solar utilization rate is improved.
Description
Technical field
The utility model relates to a kind of controller for road lamp, relate in particular to a kind of can according to varying environment and operating state automatically control discharge and recharge, the solar street lamp controller of solar energy utilization ratio height, energy savings.
Background technology
Along with the development of heliotechnics, solar street light is widely adopted more and more.Solar street light generally includes solar energy photovoltaic panel, storage battery, controller for road lamp and street lamp.In the prior art, usually controller for road lamp and storage battery are combined, this brings inconvenience for the maintenance of solar street light.And existing solar street lamp controller, its circuit structure is generally by solar energy photovoltaic panel and storage battery and is connected to form charge circuit, storage battery and light fixture connect and compose the work loop, can adopt the break-make of photosensitive switch control circuit in the loop in charge circuit and work, make bright lamp of its energy storage on daytime, evening.But this structure generally only has unidirectional controlled function, does not have information feedback function, and the control that discharges and recharges does not reach optimum state, causes solar energy utilization ratio not high, wastes energy.
Summary of the invention
The utility model mainly solves original solar street lamp controller and only has unidirectional controlled function, does not have information feedback function, and the control that discharges and recharges does not reach optimum state, causes solar energy utilization ratio not high, the technical problem that wastes energy; Providing a kind of can control discharging and recharging automatically according to varying environment, different operating parameter and state, is controlled at optimum state thereby make to discharge and recharge, and improves solar energy utilization rate, effective energy savings, the solar street lamp controller that intelligent degree is high.
The utility model solves original solar street lamp controller simultaneously and usually controller for road lamp and storage battery is combined, and safeguards inconvenient technical problem; Provide be arranged a kind of dividing equally with solar energy photovoltaic panel, storage battery, simplified structure, easy for installation, the solar street lamp controller of being convenient to safeguard.
Above-mentioned technical problem of the present utility model is mainly solved by following technical proposals: the utility model comprises housing and is located at the interior wiring board of housing, wiring board is provided with control circuit, and described control circuit comprises charging module, voltage detection module, micro treatment module, the control module of boosting and voltage output module and the power conversion module that operating voltage is provided for the The whole control circuit; The input of described charging module links to each other with solar energy photovoltaic panel, the control end of charging module links to each other with described micro treatment module, the output of charging module links to each other with storage battery, storage battery links to each other with the input of described power conversion module, the input of voltage output module again, the output of voltage output module links to each other with the LED street lamp, and the control end of voltage output module links to each other with the output of the described control module of boosting; The input of described voltage detection module links to each other with storage battery, solar energy photovoltaic panel respectively, and the output of voltage detection module links to each other with described micro treatment module respectively, and micro treatment module links to each other with the input of the described control module of boosting.Solar energy photovoltaic panel charges to storage battery through charging module.Voltage detection module is gathered the voltage of storage battery, solar energy photovoltaic panel, and the voltage signal that collects flowed to micro treatment module, internal processes by micro treatment module is analyzed, is calculated and judges, sends control signal and gives charging module, is responsible for the control of charge mode.Micro treatment module sends control signal and gives the control module of boosting simultaneously, sends control signal by the control module of boosting again and gives the voltage output module, and control is boosted, and the LED street lamp is supplied with in the voltage output of boosting after stablizing.The utility model can be controlled discharging and recharging automatically according to varying environment, different operating parameter and state, is controlled at optimum state thereby make to discharge and recharge, and improves solar energy utilization rate, effectively energy savings.The pressure-increasning state of voltage output module also carries out Based Intelligent Control by micro treatment module simultaneously, guarantees to offer stable, the reliable operating voltage of LED street lamp.
As preferably, described voltage output module is provided with current sampling circuit, and described current sampling circuit links to each other with the described control module of boosting.Current sampling circuit is gathered the current signal of voltage output module, and feeds back to the control module of boosting, and is compared by boost control module and reference voltage, the voltage output module is controlled, thus the voltage swing of adjustment size of current and voltage stabilizing output.
As preferably, the left side of described housing is provided with left junction block, the right side of housing is provided with right junction block, the inboard of left side junction block links to each other by the input of lead and described charging module, the outside of left side junction block links to each other with solar energy photovoltaic panel by cable, the inboard of right junction block links to each other by the output of lead with described voltage output module, and the outside of right junction block links to each other with the LED street lamp by cable.Simple in structure, easy for installation, the utility model and solar energy photovoltaic panel, storage battery are divided equally and are arranged, and are convenient to very much safeguard.
As preferably, described voltage detection module comprises resistance R 2, resistance R 3, resistance R 4, resistance R 20 and diode D4, diode D5, capacitor C 4, capacitor C 5; Resistance R 2, capacitor C 4 and diode D5 are in parallel, and this parallel circuits links to each other with solar energy photovoltaic panel through resistance R 3, described charging module, and resistance R 2 links to each other with input resistance R 3 and contact and described micro treatment module; Resistance R 20, capacitor C 5 and diode D4 are in parallel, and this parallel circuits links to each other with described storage battery through resistance R 4, and resistance R 20 links to each other with another input resistance R 4 and contact and described micro treatment module.Resistance R 20 and resistance R 4 constitute the Acquisition Circuit of battery tension, and resistance R 2 and resistance R 3 constitute the Acquisition Circuit of solar energy photovoltaic panel voltage, and above-mentioned resistance all adopts accuracy resistance, guarantees the accuracy of acquired signal.
As preferably, described voltage output module comprises inductance L 1, resistance R 21, resistance R 23, resistance R 24, resistance R 25, resistance R 26, resistance R 27, resistance R 19, resistance R 41, electric capacity E9, electric capacity E15, capacitor C 6 and diode D12, triode P6, triode N10, field effect transistor V3, field effect transistor V4, described storage battery links to each other through an end of fuse F and inductance L 1, the other end of inductance L 1 links to each other with the positive pole of diode D12, the negative pole of diode D12 links to each other with the positive pole of LED street lamp, the positive pole of diode D12 links to each other with the drain electrode of field effect transistor V3, the source ground of field effect transistor V3, the utmost point of deleting of field effect transistor V3 links to each other through an output of resistance R 21 and the described control module of boosting, electric capacity E9 and electric capacity E15 are in parallel and be connected between the negative pole and ground of diode D12, the parallel circuits of resistance R 24 and capacitor C 6 is connected with resistance R 23 again, this series circuit also is connected between the negative pole and ground of diode D12, earth terminal links to each other through the source electrode of resistance R 25 with field effect transistor V4, resistance R 25 is exactly described current sampling circuit, the source electrode of field effect transistor V4 links to each other with the described control module of boosting, the source electrode of field effect transistor V4 and delete and be connected with resistance R 26 between the utmost point, field effect transistor V4 deletes the utmost point through resistance R 27, triode P6, resistance R 19, triode N10, resistance R 41 links to each other with described micro treatment module, and the drain electrode of field effect transistor V4 links to each other with the negative pole of LED street lamp.Adopt the inductance boost mode, the circuit oneself power consumption is low, the energy conversion efficiency height.Triode N10, triode P6 and field effect transistor V4 form switching circuit, and the signal of sending here by micro treatment module is controlled the work of this switching circuit.The signal that the control module of boosting is sent here drives the work of field effect transistor V3.
As preferably, described micro treatment module adopts the SN8P2711A single-chip microcomputer.
As preferably, the described control module of boosting adopts the KA7500B pulsewidth modulated intergrated circuit.
The beneficial effects of the utility model are: simple in structure, easy for installation, be convenient to safeguard.Can control discharging and recharging automatically according to varying environment, different operating parameter and state, be controlled at optimum state, improve solar energy utilization rate thereby make to discharge and recharge, effective energy savings, automation, intelligent degree height, performance is also more stable.
Description of drawings
Fig. 1 is that a kind of circuit theory of the present utility model connects block diagram.
Fig. 2 is a kind of circuit diagram of charging module in the utility model, micro treatment module and the control module of boosting.
Fig. 3 is a kind of circuit diagram of voltage detection module in the utility model, power conversion module and voltage output module.
Fig. 4 is a kind of three-dimensional decomposition texture schematic diagram of the present utility model.
1. charging modules among the figure, 2. voltage detection module, 3. micro treatment module, the control module of 4. boosting, 5. voltage output module, 6. power conversion module, 7. solar energy photovoltaic panel, 8. storage battery, 9.LED street lamp, 10. housing, 11. wiring boards.
Embodiment
Below by embodiment, and in conjunction with the accompanying drawings, the technical solution of the utility model is described in further detail.
Embodiment 1: a kind of solar street lamp controller of present embodiment, as shown in Figure 4, comprise housing 10 and be installed on wiring board 11 in the housing 10, the left side of housing 10, right side are connected with baffle plate respectively, on the baffle plate in left side left junction block is installed, right junction block is installed on the baffle plate on right side, and above-mentioned parts all adopt waterproof nut, waterproof nut to connect.Be welded with control circuit on the wiring board 11, as shown in Figure 1, control circuit comprises charging module 1, voltage detection module 2, micro treatment module 3, the control module of boosting 4 and voltage output module 5 and the power conversion module 6 that operating voltage is provided for the The whole control circuit.The input of charging module 1 links to each other with solar energy photovoltaic panel 7, the control end of charging module 1 links to each other with micro treatment module 3, the output of charging module 1 links to each other with storage battery 8, storage battery 8 links to each other with the input of power conversion module 6, the input of voltage output module 5 again, the output of voltage output module 5 links to each other with LED street lamp 9, and the control end of voltage output module 5 links to each other with the output of the control module 4 of boosting.In the voltage output module 5 current sampling circuit is arranged, current sampling circuit links to each other with the control module 4 of boosting.The input of voltage detection module 2 links to each other with storage battery 8, solar energy photovoltaic panel 7 respectively, and the output of voltage detection module 2 links to each other with micro treatment module 3 respectively, and micro treatment module 3 links to each other with the input of the control module 4 of boosting again.The inboard of left side junction block links to each other by the input of lead with charging module 1, the outside of left side junction block links to each other with solar energy photovoltaic panel 7 by cable, the inboard of right junction block links to each other by the output of lead with voltage output module 5, and the outside of right junction block links to each other with LED street lamp 9 by cable.
The circuit diagram that present embodiment is concrete such as Fig. 2, shown in Figure 3, micro treatment module 3 adopts the SN8P2711A single-chip microcomputer, and the control module of boosting 4 adopts the KA7500B pulsewidth modulated intergrated circuit.Voltage detection module 2 comprises resistance R 2, resistance R 3, resistance R 4, resistance R 20 and diode D4, diode D5, capacitor C 4, capacitor C 5; Resistance R 2, capacitor C 4 and diode D5 are in parallel, field effect transistor V1, the field effect transistor V2 of this parallel circuits in resistance R 3, diode D17 and charging module 1 links to each other, the positive pole of diode D17 links to each other with solar energy photovoltaic panel 7 through resistance R 5, and resistance R 2 links to each other with 13 pin resistance R 3 and contact and SN8P2711A single-chip microcomputer; Resistance R 20, capacitor C 5 and diode D4 are in parallel, and this parallel circuits links to each other with storage battery 8 through resistance R 4, and resistance R 20 links to each other with 12 pin resistance R 4 and contact and SN8P2711A single-chip microcomputer.
The course of work:
Solar energy photovoltaic panel charges to storage battery through charging module.Charging module adopts the PWM control mode, and through the field effect transistor V1 and the field effect transistor V2 of two series connection, the control solar energy photovoltaic panel is to the charging of storage battery.The signal that 5 pin of SN8P2711A single-chip microcomputer and 6 pin are sent is through the push pull circuit driving field effect transistor V1 of triode N3, triode P2, triode N2, triode N4, triode P3, triode N5 composition and the work of field effect transistor V2.According to the battery discharging situation, charging process is divided into 3 stages: (1) storage battery deep discharge needs and promotes charging smaller or equal to 11.2V, is charged to 14.7V, reduces charging voltage then, enters floating charge state, keeps electric 13.6V; (2) storage battery deep discharge not greater than 11.2V and less than 13.2V, does not need to promote charging, is charged to 14.2V, reduces charging voltage then, enters floating charge state, keeps voltage 13.6V; (3) greater than 13.2V, do not need the charging, be considered as filling full, the positive and negative 0.2V of above error.
Accumulator positive voltage is after electric capacity E13 filtering, form level and smooth direct voltage, circuit through triode VN3 and voltage-stabiliser tube Z2 composition, again through forming level and smooth and stable+12V voltage after the electric capacity E2 filtering, this voltage offers the KA7500B pulsewidth modulated intergrated circuit and part drives triode as operating voltage, + 12V voltage also forms accurate+5V voltage through accurate voltage voltage-stabilizing device U3, offer the SN8P2711A single-chip microcomputer as working power.
Voltage detection module is gathered the voltage of storage battery, solar energy photovoltaic panel, and the voltage signal that collects flowed to micro treatment module, internal processes by micro treatment module is analyzed, is calculated and judges, sends control signal and gives charging module, is responsible for the control of charge mode.Micro treatment module sends control signal and gives the control module of boosting simultaneously, sends control signal by the control module of boosting again and gives the voltage output module, and control is boosted, and the LED street lamp is supplied with in the voltage output of boosting after stablizing.Current sampling circuit is gathered the current signal of voltage output module, and feeds back to the control module of boosting, and is compared by boost control module and reference voltage, the voltage output module is controlled, thus the voltage swing of adjustment size of current and voltage stabilizing output.
Battery tension discharges after 5 hours greater than 12V, flat power work, to daytime close output automatically.When storage battery is lower than 12V, 1/2 power discharge, to daytime close discharge automatically.Discharge into the 10V under-voltage protection.If solar energy photovoltaic panel voltage is lower than battery tension 2V, to cut off and being connected of storage battery, conversion identification has the delay about 20 seconds.If storage battery is lower than 10V or solar energy photovoltaic panel voltage greater than 5V, the control load interface is closed output; If the voltage of storage battery greater than 12V or solar energy photovoltaic panel voltage greater than 5V, the load of recovery controller output automatically.Solar energy photovoltaic panel voltage is judged as daytime greater than 4~5V, does not allow battery discharging, when about solar energy photovoltaic panel voltage and the nearly 0.6V of battery tension differential, starts charge function, and charging current slowly increases.Solar energy photovoltaic panel voltage begins discharge less than 3~4V, and above conversion identification has 20 seconds delay.Status indicator lamp, i.e. light-emitting diode DD, the Chang Liang that charging daytime does not charge and glimmered in 1 second 1 time, discharges flicker in 5 seconds once.
The utility model can be controlled discharging and recharging automatically according to varying environment, different operating parameter and state, is controlled at optimum state thereby make to discharge and recharge, and improves solar energy utilization rate, effectively energy savings.The pressure-increasning state of voltage output module also carries out Based Intelligent Control by micro treatment module simultaneously, guarantees to offer stable, the reliable operating voltage of LED street lamp.The utility model is simple in structure, and is easy for installation, and discord solar energy photovoltaic panel, storage battery are incorporated in the integral body, is convenient to very much safeguard.
Claims (7)
1. solar street lamp controller, it is characterized in that comprising housing (10) and be located at the interior wiring board (11) of housing (10), wiring board (11) is provided with control circuit, and described control circuit comprises charging module (1), voltage detection module (2), micro treatment module (3), the control module of boosting (4) and voltage output module (5) and the power conversion module (6) that operating voltage is provided for the The whole control circuit; The input of described charging module (1) links to each other with solar energy photovoltaic panel (7), the control end of charging module (1) links to each other with described micro treatment module (3), the output of charging module (1) links to each other with storage battery (8), storage battery (8) links to each other with the input of described power conversion module (6), the input of voltage output module (5) again, the output of voltage output module (5) links to each other with LED street lamp (9), and the control end of voltage output module (5) links to each other with the output of the described control module of boosting (4); The input of described voltage detection module (2) links to each other with storage battery (8), solar energy photovoltaic panel (7) respectively, the output of voltage detection module (2) links to each other with described micro treatment module (3) respectively, and micro treatment module (3) links to each other with the input of the described control module of boosting (4).
2. a kind of solar street lamp controller according to claim 1 is characterized in that described voltage output module (5) is provided with current sampling circuit, and described current sampling circuit links to each other with the described control module of boosting (4).
3. a kind of solar street lamp controller according to claim 1 and 2, the left side that it is characterized in that described housing (10) is provided with left junction block, the right side of housing (10) is provided with right junction block, the inboard of left side junction block links to each other by the input of lead with described charging module (1), the outside of left side junction block links to each other with solar energy photovoltaic panel (7) by cable, the inboard of right junction block links to each other by the output of lead with described voltage output module (5), and the outside of right junction block links to each other with LED street lamp (9) by cable.
4. a kind of solar street lamp controller according to claim 1 and 2 is characterized in that described voltage detection module (2) comprises resistance R 2, resistance R 3, resistance R 4, resistance R 20 and diode D4, diode D5, capacitor C 4, capacitor C 5; Resistance R 2, capacitor C 4 and diode D5 are in parallel, and this parallel circuits links to each other through resistance R 3, described charging module (1) and solar energy photovoltaic panel (7), and resistance R 2 links to each other with input resistance R 3 and contact and described micro treatment module (3); Resistance R 20, capacitor C 5 and diode D4 are in parallel, and this parallel circuits links to each other with described storage battery (8) through resistance R 4, and resistance R 20 links to each other with another input resistance R 4 and contact and described micro treatment module (3).
5. a kind of solar street lamp controller according to claim 2, it is characterized in that described voltage output module (5) comprises inductance L 1, resistance R 21, resistance R 23, resistance R 24, resistance R 25, resistance R 26, resistance R 27, resistance R 19, resistance R 41, electric capacity E9, electric capacity E15, capacitor C 6 and diode D12, triode P6, triode N10, field effect transistor V3, field effect transistor V4, described storage battery (8) links to each other through an end of fuse F and inductance L 1, the other end of inductance L 1 links to each other with the positive pole of diode D12, the negative pole of diode D12 links to each other with the positive pole of LED street lamp (9), the positive pole of diode D12 links to each other with the drain electrode of field effect transistor V3, the source ground of field effect transistor V3, the utmost point of deleting of field effect transistor V3 links to each other through an output of resistance R 21 and the described control module of boosting (4), electric capacity E9 and electric capacity E15 are in parallel and be connected between the negative pole and ground of diode D12, the parallel circuits of resistance R 24 and capacitor C 6 is connected with resistance R 23 again, this series circuit also is connected between the negative pole and ground of diode D12, earth terminal links to each other through the source electrode of resistance R 25 with field effect transistor V4, resistance R 25 is exactly described current sampling circuit, the source electrode of field effect transistor V4 links to each other with the described control module of boosting (4), the source electrode of field effect transistor V4 and delete and be connected with resistance R 26 between the utmost point, field effect transistor V4 deletes the utmost point through resistance R 27, triode P6, resistance R 19, triode N10, resistance R 41 links to each other with described micro treatment module (3), and the drain electrode of field effect transistor V4 links to each other with the negative pole of LED street lamp (9).
6. a kind of solar street lamp controller according to claim 1 and 2 is characterized in that described micro treatment module (3) adopts the SN8P2711A single-chip microcomputer.
7. a kind of solar street lamp controller according to claim 1 and 2 is characterized in that the described control module of boosting (4) adopts the KA7500B pulsewidth modulated intergrated circuit.
Priority Applications (1)
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CN 201120082077 CN201986234U (en) | 2011-03-25 | 2011-03-25 | Solar street light controller |
Applications Claiming Priority (1)
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CN 201120082077 CN201986234U (en) | 2011-03-25 | 2011-03-25 | Solar street light controller |
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CN201986234U true CN201986234U (en) | 2011-09-21 |
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CN 201120082077 Expired - Fee Related CN201986234U (en) | 2011-03-25 | 2011-03-25 | Solar street light controller |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102164443A (en) * | 2011-03-25 | 2011-08-24 | 宁波中博电器有限公司 | Controller for solar street lamp |
CN103476173A (en) * | 2013-09-01 | 2013-12-25 | 西安重装渭南光电科技有限公司 | Solar photovoltaic control device capable of regulating specific time and power |
-
2011
- 2011-03-25 CN CN 201120082077 patent/CN201986234U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102164443A (en) * | 2011-03-25 | 2011-08-24 | 宁波中博电器有限公司 | Controller for solar street lamp |
CN103476173A (en) * | 2013-09-01 | 2013-12-25 | 西安重装渭南光电科技有限公司 | Solar photovoltaic control device capable of regulating specific time and power |
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CF01 | Termination of patent right due to non-payment of annual fee | ||
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Granted publication date: 20110921 Termination date: 20170325 |