CN106122886B - A kind of wind light mutual complementing LED both arms energy-conserving road lamp control method - Google Patents

Abstract

A kind of wind light mutual complementing LED both arms energy-conserving road lamp control method, including initialization, adjust the distance of the height and distance lamp stand of LED, maximal wind-energy corresponding angle is obtained, wind power generation plant angle is adjusted, adjusts solar battery group angle, acquisition electric energy and wind energy simultaneously store, and acquire intensity of illumination and handle, power and lighting hours rate-determining steps, vdiverse in function, energy efficiency is high, good heat dissipation effect, long service life, maintenance cost is cheap, and energy conservation and environmental protection, manipulation is intelligent, and illumination region is wide.

Description

A kind of wind light mutual complementing LED both arms energy-conserving road lamp control method

Technical field

The present invention relates to illumination and its control fields, and in particular to a kind of wind light mutual complementing LED both arms energy-conserving road lamp controlling party Method.

Background technique

With the rapid growth of world economy, global energy shortage is got worse, and low-carbon development model is sought in energy-saving and emission-reduction Cry grow louder and stronger.The industry development of integrated driving intelligent LED is like a raging fire under this overall background, especially in LED light source Application in terms of modularization is even more to be concerned.Under energy-saving and emission-reduction, the nervous urgent situation of conventional electric power resource, country and political affairs A large amount of policies and regulations are put into effect to support the development of renewable energy, as city and the continuous of new countryside construction paces add in mansion Fastly, wind-solar hybrid new energy LED street lamp obtains the popularization and application of large area at home.It can count, end according to Chinese illumination 2011, domestic wind light mutual complementing illuminating industry realized 18,000,000,000 yuan of the output value, and is increased with the speed every year close to 10%.At home Application be concentrated mainly on urban road illumination and related public illumination independent electric power supply, urban and suburban roads brightening shine Bright, park plaza brightening illumination, illumination brightening of areas without electricity (including offshore islands) etc..

With scientific and technological progress, energy-saving lighting product is popularized, and the technical level of blower and solar product will be mentioned gradually High and price will gradually decrease.Currently, the cost of wind and light complementary road lamp has been approached the average level of conventional street lamp cost.From long-range It sees, wind and light complementary road lamp does not consume electric energy, and operating cost is far below conventional street lamp.And meet national energy conservation and emission reduction industry political affairs Plan realizes street lighting using wind energy and solar energy complemental power-generation, and full utilization renewable energy replaces traditional fossil energy, is The inevitable requirement of energy trend development is conducive to energy saving and utilizes new energy,

However, the domestic wind-solar complementary type LED lamp structure occurred is single at present, control method is only simple dependence Wind energy and luminous energy realize power supply and electric power storage, and efficiency of energy utilization is lower, and control method is simple, and intelligence degree is low, can not The LED street lamp of single support arm is only set when meeting the needs of social, and being arranged, two-way photograph is needed for main road and bypass etc. Bright situation is not applicable.

Summary of the invention

It is an object of the invention to overcome the deficiencies of the prior art and provide a kind of vdiverse in function, energy efficiency height, heat dissipation effects Fruit is good, and long service life, maintenance cost is cheap, and energy conservation and environmental protection, and manipulation is intelligent, the wide wind light mutual complementing LED of illumination region Both arms energy-conserving road lamp control method.

The present invention provides a kind of wind light mutual complementing LED both arms energy-conserving road lamp control method, wherein wind light mutual complementing LED both arms section Energy streetlight includes pedestal, battery group, processing control apparatus, connecting rod, lamp stand, first support arm and corresponding first LED light Head, second support arm and the second LED lamp holder, solar battery group, light sensor and wind power generation plant, processing control apparatus are set It is placed in inside the hollow structure of connecting rod, the lower end radii of connecting rod is greater than upper end radius, and lower end is fixedly connected with pedestal, battery Group is set to chassis interior, and the lower end of lamp stand can be inserted by the hollow structure of connecting rod from the upper end of connecting rod, and first One end of boom is set to the side on lamp stand, and the other end extends outwardly and connects the first LED lamp holder, one end of second support arm The other side being set on lamp stand, the other end extend outwardly and connect the second LED lamp holder, and wherein the length of second support arm is big In the length of first support arm, first support arm and second support arm respectively include two sub- support arms, two sub- support arms with Lamp stand collectively forms the shape similar to triangle, and two sub- support arms are arc, wherein a support arm is than other one Boom is long and radian is big, and the distance of the height and distance lamp stand of the first LED lamp holder and the second LED lamp holder is adjustable, the first LED lamp holder Height it is higher than the height of the second LED lamp holder；

Control method in turn includes the following steps:

(1) solar battery group, wind power generation plant and photosensitive are arranged by the processor in the control processing unit The initial parameter of sensor checks solar battery group, the working condition of wind power generation plant and photosensitive sensor；

(2) distance of the height and distance lamp stand of the first LED lamp holder and the second LED lamp holder is adjusted, the first LED lamp holder and the Height of two LED lamp holders apart from ground and the distance apart from lamp stand are denoted as H1 respectively, and H2, L1, L2 meet H1/H2 after adjustment =L1/L2；

(3) control command is issued by the driving unit in control device, control driving motor drives wind power generation plant It is rotated clockwise 2 weeks in horizontal plane, while acquiring wind energy and recording corresponding acquisition angles, by collected wind energy data and angle For degree according to processor is sent to simultaneously, processor, which calculates, obtains the corresponding angle of maximal wind-energy；

(4) control command is issued by the driving unit in control device, control driving motor is counterclockwise in the horizontal plane The angle of wind power generation plant is adjusted, so that the angle of wind power generation plant acquisition wind energy is that processor calculates the most strong wind obtained It can corresponding angle；

(5) two solar battery groups for adjusting asymmetric setting on the lamp stand of street lamp, so that two solar battery groups It is to differ 120 degree two-by-two with the angle of wind power generation plant on a projection plane；

(6) by wind power generation plant or two solar battery groups, or both combination acquire wind energy or light respectively Energy or wind energy and luminous energy are simultaneously converted to electric energy, and then electric energy is stored in battery group；

(7) using the first, second photosensitive sensor being arranged at the position of the center of two solar battery groups, and The third photosensitive sensor that one end end on wind power generation plant far from fan is arranged acquires illumination intensity information respectively, and Collected illumination intensity information respectively is sent to the processor in processing control apparatus to handle；

(8) power and illumination are carried out to the first LED lamp holder and the corresponding LED light source of the second LED lamp holder according to processing result Time control.

Further, two solar battery groups of asymmetric setting are to pass through on the lamp stand of adjustment street lamp in step (5) Two solar battery groups are rotated along horizontal direction and are realized.

Further, collected illumination intensity information respectively is sent at the processor in processing control apparatus The collected illumination intensity information of first, second and third photosensitive sensor is denoted as G1 particular by using processor by reason respectively, G2, G3 are calculated

If P1 is less than or equal to 0.03, using P as processor progress treated processing result；

If P1 is greater than 0.03, calculate separatelyTake W1, W2, W3 In one, two or three value be less than or equal to 0.03 corresponding illumination intensity information and carry out average value processing, by average value Result that treated carries out treated processing result as processor.

Further, step (7) further includes aligning step, and by W1, W2, W3 value is greater than 0.03 corresponding photosensitive sensor It is re-calibrated.

Further, it is 45cm that two solar battery groups, which are arranged, in the distance of vertical direction.

Further, solar battery group includes one or more solar batteries.

Further, the distance of the height and distance lamp stand of the first LED lamp holder and the second LED lamp holder is adjusted in step (3) When, so that second support arm is than second support brachium 30-100cm.

Further, the LED light source is one or more.

Further, in step (8) according to processing result to the first LED lamp holder and the corresponding LED light source of the second LED lamp holder Carrying out power and lighting hours control is independent or simultaneously corresponding to the first LED lamp holder and/or the second LED lamp holder The control of LED light source progress power and lighting hours.

Further, independent that power and illumination are carried out to the first LED lamp holder or the corresponding LED light source of the second LED lamp holder The control of time is realized by way of weight.

Wind light mutual complementing LED both arms energy-conserving road lamp control method of the invention, may be implemented:

1) vdiverse in function, intelligent control integrated driving, lamp post structure is simple, and efficiency of energy utilization is high, good heat dissipation effect；

2) the removable wire type design of equipment, maintains easily, maintenance cost is cheap, and long service life；

3) well-designed intensity signal acquisition sensor and its design position of optimization, in conjunction with specific processing mode, number Highly reliable according to acquiring, error rate is low, and accuracy rate improves, and efficiency improves；

4) lamp stand is rotatable, so that the orientation angle that wind power generation plant receives wind-force is adjustable, obtains wind to the greatest extent Can, to be converted into electric energy to the greatest extent, and reduce the influence to solar battery group acquisition luminous energy, so that itself Efficiency also improves the efficiency of solar battery while raising；

5) optimal setting of double bracket arm makes irradiation area flexibility stronger, utilizes especially for main and side road same Illumination can be realized in control unit control street lamp, and high-efficient, region is wide, and at low cost, low energy consumption.

Detailed description of the invention

Fig. 1 is wind light mutual complementing LED both arms energy-conserving road lamp structural schematic diagram

Fig. 2 is wind light mutual complementing LED both arms energy-saving street lamp circuit connection schematic diagram

Fig. 3 is wind light mutual complementing LED both arms energy-conserving road lamp control method flow diagram

Specific embodiment

The following detailed description of specific implementation of the invention, it is necessary to it is indicated herein to be, implement to be only intended to this hair below Bright further explanation, should not be understood as limiting the scope of the invention, and field person skilled in the art is according to above-mentioned Some nonessential modifications and adaptations that summary of the invention makes the present invention, still fall within protection scope of the present invention.

LED has many advantages, such as service life length, low pollution, low-power consumption, energy conservation and shock resistance.It is compared with traditional luminaire The advantages that not only monochromaticjty is good, optical efficiency is high, light efficiency is strong compared with, LED, wind light mutual complementing LED both arms energy-conserving road lamp are applied to various Illumination is more extensive, greatly speeds up diversification, the versatile of LED industry, and LED is utilized to realize that street lighting is also more and more general Time, thus the present invention provides a kind of wind light mutual complementing LED both arms energy-conserving road lamp control method, can effectively control in this way Street lamp processed improves efficiency of energy utilization, while improving data acquisition accuracy, reduces street lamp loss, prolongs the service life, shine Area pellucida domain is higher, and flexibility is more preferable.

As shown in Figure 1, wind light mutual complementing LED both arms energy-conserving road lamp includes pedestal 1, battery group 2, processing control apparatus 3, company Extension bar 4, lamp stand, first support arm 6 and corresponding first LED lamp holder 7, second support arm 6 and the second LED lamp holder 7, solar-electricity Pond group 8, photosensitive sensor 9 and wind power generation plant 10, as shown in Fig. 2, solar battery group, photosensitive sensor, LED light source, Battery component is not electrically connected with processing control apparatus, and wind power generation plant is electrically connected by driving motor and control processing unit It connects.Wherein, connecting rod 4 is hollow structure, and processing control apparatus 3 is set to inside the hollow structure of connecting rod 4, connecting rod 4 Lower end radii is greater than upper end radius, and lower end is fixedly connected with pedestal 1, and the lower end radii of pedestal 1 is also greater than upper end radius, during pedestal is Hollow structure, battery group 2 are set to inside pedestal 1.The diameter of lamp stand is less than lower end and the upper end radius of connecting rod 4, and lamp The lower end of bar can be inserted by the hollow structure of connecting rod 4 from the upper end of connecting rod 4, so that lamp stand can be in Vertical Square To fixation.

One end of first support arm 6 is set to the side on lamp stand, and the other end extends outwardly and connects the first LED lamp holder 7, So that LED lamp holder 7, far from lamp stand, one end of second support arm 6 is set to the other side on lamp stand, and the other end extends outwardly simultaneously The second LED lamp holder 7 is connected, wherein the length of second support arm is greater than the length of first support arm, and in preferred scheme, the Two support arms respectively include two sons than second support brachium 30-100cm, preferably 55cm, first support arm and second support arm Support arm, two sub- support arms and lamp stand collectively form a shape for being similar to triangle, and two sub- support arms are arc, Wherein a support arm is bigger than other bracket brachium and radian.The height of first LED lamp holder is higher than the height of the second LED lamp holder, The height of first LED lamp holder and the second LED lamp holder apart from ground and the distance apart from lamp stand are denoted as H1, H2, L1, L2 respectively, Meet H1/H2=L1/L2 when setting；And the distance of the height and distance lamp stand of the first LED lamp holder and the second LED lamp holder can It adjusts.

First LED lamp holder and the second LED lamp holder all include lampshade and LED light source；The top of lamp stand is arranged a wind-force and sends out Electric installation 10, wherein wind power generation plant 10 can use driving unit, drive driving motor by lamp stand by control command Along rotating in the horizontal direction, the orientation angle that this setup makes wind power generation plant 10 receive wind-force is adjustable, from And wind energy can be obtained to the greatest extent, to be converted into electric energy to the greatest extent；In wind power generation plant 10 and first Asymmetrical between support arm 6 and second support arm that two solar battery groups 8 are arranged on lamp stand, this setup makes Wind power generation plant 10 when rotated, can avoid having blocked one of those or two solar batteries in a direction as far as possible Group 8 part when, still can it is efficient receive sunlight irradiation, to the greatest extent obtain luminous energy be converted into electricity Can, wherein the electric energy obtained can be stored by battery group 2, it, can be by two solar energy in one of embodiment Battery pack 8 is set as differing 120 degree two-by-two with the angle of wind power generation plant 10 on a projection plane, and can be by solar energy Battery pack is set as 45cm in the distance of vertical direction, and further, the present invention also designs wind power generation plant 10 can be along While rotation in the horizontal direction, also designing two solar battery groups 8 can equally rotate along horizontal direction, in this way may be used To guarantee wind power generation plant 10 when receiving wind energy progress angle conciliation to the greatest extent, in order to avoid blocking solar battery Group receives luminous energy, while the rotation that two solar battery groups 8 can be distinguished, on a projection plane so as to adjust three Angle remain at 120 degree, to improve efficiency to the greatest extent.In actual street lamp application, if for a long time Opening street lamp will cause the waste of the energy, therefore the control street lamp of Intelligent time-sharing can effectively reduce energy consumption, improve work effect Rate.One photosensitive sensor is usually only set in the prior art, and strong using single or simple acquisition mode acquisition illumination Spend information, to directly carry out the control of street lamp based on this, and this setup compares limitation, when photosensitive sensor failure or Person then acquires due to blocking or when other factors lead to photosensitive sensor acquisition interference of the illumination intensity information by external environment The illumination intensity information inaccuracy arrived, so as to the error of Street lamps control processing mode or there is inefficient operation.Base In this, the first, second photosensitive sensor 9 is respectively set in the present invention at the position of the center of two solar battery groups 8, and And third photosensitive sensor 9 is set far from one end end of fan in wind power generation plant 10, three photosensitive sensors 9 are adopted respectively Collect illumination intensity information, and collected illumination intensity information respectively is sent to processing control apparatus 3, processing control apparatus 3 Including processor and driving power, processor collected illumination intensity information will be handled respectively, then be tied according to processing Fruit carries out power and lighting hours to LED light source and controls, and wherein processor will be respectively at collected illumination intensity information Reason is denoted as G1, G2, G3 particular by by the collected illumination intensity information of the first, second and third photosensitive sensor 9 respectively:

If P1 is less than or equal to 0.03, treated processing result is carried out to LED light source progress function using P as processor Rate and lighting hours control；

If P1 is greater than 0.03, calculate separatelyTake W1, W2, W3 In one, two or three value be less than or equal to 0.03 corresponding illumination intensity information and carry out average value processing, by average value Result that treated carries out that treated processing result carries out power to LED light source and lighting hours is controlled as processor, will W1, W2, W3 value are greater than 0.03 corresponding photosensitive sensor and are re-calibrated.

As shown in figure 3, be wind light mutual complementing LED both arms energy-conserving road lamp control method flow diagram, when specific implementation, scene Complementary LED both arms energy-conserving road lamp control method in turn includes the following steps:

(1) solar battery group, wind power generation plant and photosensitive are arranged by the processor in the control processing unit The initial parameter of sensor checks solar battery group, the working condition of wind power generation plant and photosensitive sensor；

(2) distance of the height and distance lamp stand of the first LED lamp holder and the second LED lamp holder is adjusted, the first LED lamp holder and the Height of two LED lamp holders apart from ground and the distance apart from lamp stand are denoted as H1 respectively, and H2, L1, L2 meet H1/H2 after adjustment =L1/L2；

(3) control command is issued by the driving unit in control device, control driving motor drives wind power generation plant It is rotated clockwise 2 weeks in horizontal plane, while acquiring wind energy and recording corresponding acquisition angles, by collected wind energy data and angle For degree according to processor is sent to simultaneously, processor, which calculates, obtains the corresponding angle of maximal wind-energy；

(4) control command is issued by the driving unit in control device, control driving motor is counterclockwise in the horizontal plane The angle of wind power generation plant is adjusted, so that the angle of wind power generation plant acquisition wind energy is that processor calculates the most strong wind obtained It can corresponding angle；

(5) two solar battery groups for adjusting asymmetric setting on the lamp stand of street lamp, so that two solar battery groups It is to differ 120 degree two-by-two with the angle of wind power generation plant on a projection plane, it specifically can be by by two solar battery groups It rotates and realizes along horizontal direction；

(6) by wind power generation plant or two solar battery groups, or both combination acquire wind energy or light respectively Energy or wind energy and luminous energy are simultaneously converted to electric energy, and then electric energy is stored in battery group；

(7) using the first, second photosensitive sensor being arranged at the position of the center of two solar battery groups, and The third photosensitive sensor that one end end on wind power generation plant far from fan is arranged acquires illumination intensity information respectively, and Collected illumination intensity information respectively is sent to the processor in processing control apparatus to handle, further includes correction step Suddenly, by W1, W2, W3 value is greater than 0.03 corresponding photosensitive sensor and is re-calibrated；

(8) power and illumination are carried out to the first LED lamp holder and the corresponding LED light source of the second LED lamp holder according to processing result Time control can be independent or simultaneously corresponding to the first LED lamp holder and/or the second LED lamp holder in specific implementation LED light source carry out the control of power and lighting hours, when using independent corresponding to the first LED lamp holder or the second LED lamp holder LED light source when carrying out the control of power and lighting hours, can be realized by way of weight.

It should be understood that the formula and parameter in technical solution of the present invention and technical solution, is all reasonable It is expected that and being used under reasonable applicable cases, the extreme or formula and parameter that is unsatisfactory in technical solution and technical solution The case where, those skilled in the art can reasonably reject.

Although for illustrative purposes, it has been described that exemplary embodiments of the present invention, those skilled in the art Member it will be understood that, can be in form and details in the case where the scope and spirit for not departing from invention disclosed in appended claims On the change that carry out various modifications, add and replace etc., and all these changes all should belong to appended claims of the present invention Protection scope, and each step in the claimed each department of product and method, can in any combination Form is combined.Therefore, to disclosed in this invention the description of embodiment be not intended to limit the scope of the invention, But for describing the present invention.Correspondingly, the scope of the present invention is not limited by embodiment of above, but by claim or Its equivalent is defined.

Claims (10)

1. a kind of wind light mutual complementing LED both arms energy-conserving road lamp control method, wherein wind light mutual complementing LED both arms energy-conserving road lamp includes bottom Seat, battery group, processing control apparatus, connecting rod, lamp stand, first support arm and corresponding first LED lamp holder, second support arm With the second LED lamp holder, solar battery group, photosensitive sensor and wind power generation plant, processing control apparatus is set to connecting rod Hollow structure inside, the lower end radii of connecting rod is greater than upper end radius, and lower end is fixedly connected with pedestal, and storage battery is placed in bottom Seat is internal, and the lower end of lamp stand can be inserted by the hollow structure of connecting rod from the upper end of connecting rod, one end of first support arm It is set to the side on lamp stand, the other end extends outwardly and connects the first LED lamp holder, and one end of second support arm is set to lamp stand On other side, the other end extends outwardly and connects the second LED lamp holder, and wherein the length of second support arm is greater than first support The length of arm, first support arm and second support arm respectively include two sub- support arms, two sub- support arms and the common structure of lamp stand At the shape of triangle, and two sub- support arms are arc, wherein a support arm is bigger than other bracket brachium and radian, the The distance of the height and distance lamp stand of one LED lamp holder and the second LED lamp holder is adjustable, and the height of the first LED lamp holder is than the second LED light The height of head is high；

It is characterized in that, control method in turn includes the following steps:

(1) solar battery group, wind power generation plant and light sensor are arranged by the processor in the processing control apparatus The initial parameter of device checks solar battery group, the working condition of wind power generation plant and photosensitive sensor；

(2) distance of the height and distance lamp stand of the first LED lamp holder and the second LED lamp holder, the first LED lamp holder and second are adjusted Height of the LED lamp holder apart from ground is denoted as the distance difference of H1, H2, the first LED lamp holder and the second LED lamp holder apart from lamp stand respectively It is denoted as L1, L2 meets H1/H2=L1/L2 after adjustment；

(3) control command is issued by the driving unit in processing control apparatus, control driving motor drives wind power generation plant It is rotated clockwise 2 weeks in horizontal plane, while acquiring wind energy and recording corresponding acquisition angles, by collected wind energy data and angle For degree according to processor is sent to simultaneously, processor, which calculates, obtains the corresponding angle of maximal wind-energy；

(4) control command is issued by the driving unit in processing control apparatus, control driving motor is counterclockwise in the horizontal plane The angle of wind power generation plant is adjusted, so that the angle of wind power generation plant acquisition wind energy is that processor calculates the most strong wind obtained It can corresponding angle；

(5) two solar battery groups for adjusting asymmetric setting on the lamp stand of street lamp, so that two solar battery groups and wind The angle of power generation device on a projection plane is to differ 120 degree two-by-two；

(6) by wind power generation plant or two solar battery groups, or both combination acquire wind energy or luminous energy respectively, or Wind energy and luminous energy are simultaneously converted to electric energy, and then electric energy is stored in battery group；

(7) using the first, second photosensitive sensor being arranged at the position of the center of two solar battery groups, and in wind The third photosensitive sensor that one end end on power generation device far from fan is arranged acquires illumination intensity information respectively, and will divide Not collected illumination intensity information is sent to the processor in processing control apparatus and is handled；

(8) power and lighting hours are carried out to the first LED lamp holder and the corresponding LED light source of the second LED lamp holder according to processing result Control.

2. control method as described in claim 1, it is characterised in that: asymmetric on the lamp stand of adjustment street lamp in step (5) to set Two solar battery groups set are realized by rotating two solar battery groups along horizontal direction.

3. such as the described in any item control methods of claims 1 or 2, it is characterised in that: collected intensity of illumination letter will be distinguished Cease the processor that is sent in processing control apparatus handled particular by using processor by the first, second and third photosensitive biography The collected illumination intensity information of sensor is denoted as G1, G2, G3 respectively, calculates

If P1 is less than or equal to 0.03, using P as processor progress treated processing result；

If P1 is greater than 0.03, calculate separatelyW1 is taken, in W2, W3 One, two or three value is less than or equal to 0.03 corresponding illumination intensity information and carries out average value processing, and average value is handled Result afterwards carries out treated processing result as processor.

4. control method as claimed in claim 3, it is characterised in that: step (7) further includes aligning step, and by W1, W2, W3 is taken Value is greater than 0.03 corresponding photosensitive sensor and is re-calibrated.

5. control method as claimed in claim 4, it is characterised in that: two solar battery groups of setting vertical direction away from From for 45cm.

6. control method as described in claim 1, it is characterised in that: solar battery group includes one or more solar-electricities Pond.

7. control method as described in claim 1, it is characterised in that: the first LED lamp holder of adjustment and the 2nd LED in step (2) The height and distance lamp stand of lamp cap apart from when so that second support arm is than first support brachium 30-100cm.

8. control method as described in claim 1, it is characterised in that: the LED light source is one or more.

9. control method as described in claim 1, it is characterised in that: according to processing result to the first LED lamp holder in step (8) Corresponding with the second LED lamp holder LED light source carry out power and lighting hours control be it is independent or simultaneously to the first LED light Head and/or the corresponding LED light source of the second LED lamp holder carry out the control of power and lighting hours.

10. control method as claimed in claim 9, it is characterised in that: independent to the first LED lamp holder or the second LED lamp holder The control that corresponding LED light source carries out power and lighting hours is realized by way of weight.