CN108488737A - A kind of intelligent road lamp system and management method based on computer control - Google Patents

Abstract

The present invention is based on the intelligent road lamp systems of computer control, including lamp bracket, it is connected with switch board in the lower end of the lamp bracket, it is fixed with the first lamp group and the second lamp group in the middle part bolt of lamp bracket, it is connected with solar energy acquisition part and accumulator in the upper end of lamp bracket, the collecting unit for acquiring light intensity is connected in the lower part of lamp bracket；Switch board includes computer；Solar energy acquisition part is rotated into according to the preset intensity of illumination of computer to acquire solar energy；The light intensity of collecting unit acquisition ambient enviroment is simultaneously sent to the computer；Computer sends the first light regulating command to the first lamp group according to the light intensity information received and the light intensity of environment is adjusted；Computer sends the second light regulating command to the second lamp group according to the light intensity information received and the light intensity of environment is adjusted；Solar energy acquisition part adjusts the direction of its own adequately to acquire solar energy according to preset illumination intensity value and the intensity of illumination acquired in real time.

Description

A kind of intelligent road lamp system and management method based on computer control

Technical field

The present invention relates to street lamp technology fields, and in particular to a kind of intelligent road lamp system and management based on computer control Method.

Background technology

Street lamp is indispensable in people's daily life.Traditional street lamp all uses fixed lighting system, works as needs Street lamp will be light when illumination.But be in the morning continually changing with natural lighting intensity when owl-light, therefore compare Bright needs should be changed according to the concrete condition of prevailing circumstances；If in the morning with the relatively good feelings of light when owl-light The waste of electric energy can be caused by being all turned on street lamp under condition；Traditional street lamp cannot be real-time according to the light conditions of ambient enviroment Lighting condition is adjusted.And traditional street lamp can not daytime weather it is good, according to light conditions into line direction adjust Adequately to acquire solar energy.

Accordingly, it is desirable to provide a kind of road lamp system, direction can be adjusted according to light conditions to acquire solar energy on daytime, It can be according to the real-time regulating illumination intensity of light conditions when changing in the morning with owl-light light.

Invention content

The purpose of the present invention is to provide a kind of intelligent road lamp systems and management method based on computer control, to solve Certainly existing street lamp in real time cannot be adjusted its own lighting condition according to the light conditions of ambient enviroment, daytime not The problem of solar energy acquisition part direction can be adjusted according to intensity of illumination.

To achieve the above object, the technical scheme is that

A kind of intelligent road lamp system based on computer control, including lamp bracket, control is connected in the lower end of the lamp bracket Cabinet is fixed with the first lamp group and the second lamp group in the middle part bolt of the lamp bracket, solar energy is connected in the upper end of the lamp bracket Part and accumulator are acquired, the collecting unit for acquiring light intensity is connected in the lower part of the lamp bracket；The switch board packet Include computer.

Wherein, first lamp group includes the first discoid mounting bracket, is connected in the middle part of first mounting bracket Round table-like cabinet is fixed with first motor in the upper bolt of the cabinet, in being electrically connected with first in the first motor Motor driver；Along the axial direction of the cabinet wear to its upper and screw thread be rotatably connected in the first motor upper end round bar The output shaft of shape is connected with adjustment disk in the upper end of the output shaft, and ellipsoid is installed in the edge of first mounting bracket The outer swivel mount of shape is connected with the first LED light, in the upper of first LED light in the inner along the radial direction of the outer swivel mount End is screwed with spherical swivel head, and the pull rod of round bar shape is connected between the swivel head and the adjustment disk；In the machine The first singlechip unit for controlling the first motor is connected on case；The number of first LED light is 20.

Wherein, the collecting unit includes upper fixed frame, interior driving head is connected in the top of fixed frame, in institute The threaded upper ends for stating interior driving head are screwed with bogie, in being connected with the first dsp controller in the bogie, in the driving The threaded upper ends of frame are screwed with the adjusting rod of round bar shape；It is trapezoidal first in being connected with longitudinal section on the outer wall of the bogie Stir tooth, be connected on the inside of fixed frame longitudinal section be it is trapezoidal with described first stir tooth be adapted second group Dynamic tooth；

It is connected with intermediate fixed frame on the downside of fixed frame, disk is connected on the downside of the intermediate fixed frame The lower fixed frame of shape；In being connected with several the first optical sensors on the intermediate fixed frame, under the lower fixed frame Side is connected with several the second optical sensors；

The interior driving head includes outer support frame, is ellipsoid in being connected with outer wall on the outer wall of the outer support frame Outer spill spin block, it is solid in the center along the axial center fixed link for being connected with round bar shape in it of the outer support frame It is the first trapezoidal clamping block that longitudinal section is welded on the outer wall of the lower end of fixed pole；In the center fixed link and the outer support The reinforcer that outer wall is inner sunken face is connected between frame.

Wherein, second lamp group includes circular outer installing frame, in the interior peace for being connected with rectangle in the outer installing frame It frames up, several the second motors is fixed in the upper clamping of the interior installing frame or bolt, along the diameter of the outer installing frame To the drive shaft for being equipped with the round bar shape that end thread is rotatably connected on second motor in the inner, in reaching for the drive shaft One end outside the outer installing frame is connected with illumination part, and the 2nd DSP controls are fixed in clamping or bolt in the interior installing frame Device processed；In being electrically connected with the second motor driver on second motor；

The illumination part includes the outer lamp fixed cylinder of cylindrical shape, and disk is connected in the bottom of the outer lamp fixed cylinder The bottom plate of shape is connected with discoid top plate at the top of the outer lamp fixed cylinder；

It is concavely provided with the first slide-and-guide slot in the bottom plate, cube is equipped in sliding in the first slide-and-guide slot First sliding shoe of shape；The second slide-and-guide slot is recessed on the downside of the top plate, in sliding in the second slide-and-guide slot The dynamic the second sliding shoe equipped with cubic；It is connected with the first lamps and lanterns between first sliding shoe and the second sliding shoe Mounting plate, in being uniformly connected with the second LED light on the first lamp installation plate；

In being connected with third LED light in the side wall of the outer lamp fixed cylinder；It is connected with lampshade on the upside of the top plate, The lampshade includes hemispherical inner housing and hemispherical outer housing；Is formed between the inner housing and the outer housing One lock chamber, in being uniformly connected with third LED light in first lock chamber；It is connected on the downside of the bottom plate round table-like First clamping seat, along it is described first be clamped seat axial direction be equipped in the inner with the drive shaft be adapted first be clamped Hole；In being connected with withstanding tight block in the side wall of first blocked hole.

Wherein, the solar energy acquisition part includes substrate, and the first ARM controls have been bolted in the upper end of the substrate Device processed and third motor；In being electrically connected with third motor driver on the third motor；Along the third motor driver The adjustment axis that round bar shape is screwed with axially to the upper end screw thread；

In in the adjustment axis clamping either screw thread be screwed with first bevel gear in the adjustment axis upper end clamping or Screw thread is screwed with second bevel gear；

It is engaged with the first gear frame in the outboard gears of the first bevel gear, in spiral shell on the outer wall of first gear frame Line is screwed with first hydraulic cylinder, in being connected with solenoid valve in the first hydraulic cylinder；Along the first hydraulic cylinder axially to The first hydraulic stem for being equipped with round bar shape of its one end sliding far from first gear frame, in the remote of first hydraulic stem Threaded one end from the first hydraulic cylinder is screwed with pushing plate；

In being connected with solar panel on the pushing plate；In being uniformly connected with light intensity on the solar panel Sensor；In being screwed with the first spherical swivel head on the side wall of the solar panel；

It is engaged with the second gear frame in the outboard gears of the second bevel gear, in second gear frame and described first The first swingle of round bar shape is connected between swivel head；

The first bevel gear is consistent with the structure of the second bevel gear；First gear frame and second transmission The structure of frame is consistent；In being equipped with the internal gear being adapted with the first bevel gear in first gear frame, being used for will be described The rotary motion of third motor is converted to the rotation of the first bevel gear in the horizontal direction.

A kind of intelligent road-lamp management method, for the intelligent road lamp system based on computer control, including step：

The solar energy acquisition part is rotated into according to the preset intensity of illumination of the computer to acquire solar energy；

The light intensity of the collecting unit acquisition ambient enviroment is simultaneously sent to the computer；

The computer sends the first light regulating command to first lamp group according to the light intensity information received The light intensity of environment is adjusted；

The computer sends the second light regulating command to second lamp group according to the light intensity information received The light intensity of environment is adjusted.

Wherein, the solar energy acquisition part is rotated according to the preset intensity of illumination of the computer to acquire solar energy packet It includes：

Pass through the computer goal-selling illumination intensity value t1；

The light intensity sensor acquires illumination intensity value t2 and is sent to first ARM controller and the meter in real time Calculation machine；

If the t2/t1 is less than 0.8, first ARM controller sends rotation order and is driven to the third motor To drive the third motor to rotate, the angle value and the t2/t1 of the third motor rotation are inversely proportional dynamic device；

Meanwhile first ARM controller sends scale commands to the solenoid valve, first described in the solenoid-driven Hydraulic cylinder and the first hydraulic stem are flexible, and the solar panel is driven to be rotated around first swivel head；First liquid The flexible length of compression bar and the t2/t1 are inversely proportional.

Wherein, the collecting unit, which acquires the light intensity of ambient enviroment and is sent to the computer, includes：

The computer presets first object light intensity value d1 and the second target light intensity value d2, and d2 is more than d1；

The first practical light intensity value a is collected by first optical sensor and is sent to the first DSP controls Device and the computer；

The second practical light intensity value b is collected by second optical sensor and is sent to the first DSP controls Device and the computer；

The computer by a and b according toThe first practical light is calculated to measure Value c.

Wherein, the computer sends the first light regulating command to described first according to the light intensity information received Lamp group to the light intensity of environment be adjusted including：

If the c is less than d1, the computer, which is sent, starts order to first dsp controller；Described first Dsp controller sends electric motor starting order and drives the first motor rotation to the first motor driver；First electricity The angle of machine rotation is directly proportional to the difference of the d1-c；

If c/d1 is less than 0.5, it is all bright that first dsp controller controls 20 first LED light；

If c/d1 is equal to 0.5,10 in 20 first LED light of the first dsp controller control are bright；

If c/d1 is more than or equal to 0.8, first dsp controller control in 20 first LED light 5 it is bright.

Wherein, the computer sends the second light regulating command to described second according to the light intensity information received Lamp group to the light intensity of environment be adjusted including：

If c/d1 is less than 0.5, and c/d2 is less than 0.4, then the computer sends to start to order to the 2nd DSP and control Device processed；Second dsp controller sends electric motor starting order and drives the second motor rotation to second motor driver Turn；

When the c/d2 is less than 0.4, it is bright that second dsp controller controls the second LED light；

If c/d2 is less than 0.3, it is bright that second dsp controller controls the third LED light；

If c/d2 is less than 0.2, it is bright that second dsp controller controls the 4th LED light.

The invention has the advantages that：

A kind of intelligent road lamp system based on computer control, including lamp bracket, control is connected in the lower end of the lamp bracket Cabinet is fixed with the first lamp group and the second lamp group in the middle part bolt of the lamp bracket, solar energy is connected in the upper end of the lamp bracket Part and accumulator are acquired, the collecting unit for acquiring light intensity is connected in the lower part of the lamp bracket；The switch board packet Include computer；

A kind of intelligent road-lamp management method, for the intelligent road lamp system based on computer control, including step：

The solar energy acquisition part is rotated into according to the preset intensity of illumination of the computer to acquire solar energy；

The light intensity of the collecting unit acquisition ambient enviroment is simultaneously sent to the computer；

The computer sends the first light regulating command to first lamp group according to the light intensity information received The light intensity of environment is adjusted；

The computer sends the second light regulating command to second lamp group according to the light intensity information received The light intensity of environment is adjusted；

The solar energy acquisition part can adjust it certainly according to preset illumination intensity value and the intensity of illumination acquired in real time The direction of body is adequately to acquire solar energy；

The first lamp group and the second lamp group are opened according to the current environment illumination intensity information of collecting unit acquisition, it is real Now to the adjusting of the light intensity of the transmitting of the intelligent road lamp system, illumination, energy saving electric energy are adjusted according to ambient conditions.

Description of the drawings

Fig. 1 is the structural schematic diagram of the intelligent road lamp system of the present invention.

Fig. 2 is the structural schematic diagram of the first lamp group of the present invention.

Fig. 3 is the structural schematic diagram of the collecting unit of the present invention.

Fig. 4 is the structural schematic diagram of the second lamp group of the present invention.

Fig. 5 is the structural schematic diagram of the illumination part of the present invention.

Fig. 6 is the structural schematic diagram of the solar energy acquisition part of the present invention.

Fig. 7 is the structural schematic diagram of the interior driving head of the present invention.

1- lamp brackets；The first lamp groups of 2-；21- cabinets；The first dsp controllers of 22-；The first mounting brackets of 23-；The outer swivel mounts of 24-； The first LED light of 25-；26- swivel heads；27- pull rods；28- output shafts；29- adjustment disks；210- first motors；The second lamp groups of 3-； The outer installing frames of 31-；The second dsp controllers of 32-；Installing frame in 33-；The second motors of 34-；35- drive shafts；36- illuminates part；361- First clamping seat；362- bottom plates；The first sliding shoes of 363-；The second LED light of 364-；365- the first lamp installation plates；366- second Sliding shoe；367- lampshades；368- third LED light；369- top plates；The 4th LED light of 3610-；3611- outer lamp fixed cylinders；4- is too Sun can acquire part；The first ARM controllers of 41-；42- substrates；43- third motor drivers；44- third motors；45- first is driven Frame；46- first bevel gears；47- adjustment axis；48- second bevel gears；The second gear frames of 49-；410- solar panels；411- Light intensity sensor；The first swingles of 412-；The first swivel heads of 413-；414- solenoid valves；415- first hydraulic cylinders；The first liquid of 416- Compression bar；417- pushing plates；5- accumulators；6- switch boards；7- collecting units；71- bogies；72- adjusting rods；Driving head in 73-； 731- reinforcers；732- outer support frames；The outer spill spin blocks of 733-；The first clamping blocks of 734-；The centers 735- fixed link；74- first Dsp controller；75- first stirs tooth；76- second stirs tooth；The upper fixed frames of 77-；Fixed frame among 78-；Fixed frame under 79-； The first optical sensors of 710-；The second optical sensors of 711-.

Specific implementation mode

The following examples are used to illustrate the present invention, but are not intended to limit the scope of the present invention..

Embodiment 1

The intelligent road lamp system based on computer control of the present embodiment 1, including lamp bracket 1, in the lower end card of the lamp bracket 1 It is connected to switch board 6, the first lamp group 2 and the second lamp group 3 are fixed in the middle part bolt of the lamp bracket 1, in the upper end of the lamp bracket 1 It is connected with solar energy acquisition part 4 and accumulator 5, the acquisition list for acquiring light intensity is connected in the lower part of the lamp bracket 1 Member 7；The switch board 6 includes computer.

The solar energy acquisition part 4 can adjust it certainly according to preset illumination intensity value and the intensity of illumination acquired in real time The direction of body is adequately to acquire solar energy；

The first lamp group 2 and the second lamp group are opened according to the current environment illumination intensity information of the acquisition of the collecting unit 7 3, it realizes the adjusting of the light intensity of the transmitting to the intelligent road lamp system, illumination, energy saving electric energy is adjusted according to ambient conditions.

Embodiment 2

Further, increase following feature and connection relation on the basis of embodiment 1：

First lamp group 2 includes the first discoid mounting bracket 23, is connected in the middle part of first mounting bracket 23 Round table-like cabinet 21 is fixed with first motor 210 in the upper bolt of the cabinet 21, is powered in the first motor 210 It is connected with first motor driver；It is worn to its upper along the axial direction of the cabinet 21 and screw thread is rotatably connected in the first motor The output shaft 28 of the round bar shape of 210 upper end is connected with adjustment disk 29 in the upper end of the output shaft 28, in first installation The edge of frame 23 is installed with the outer swivel mount 24 of ellipsoid, and first is connected in the inner along the radial direction of the outer swivel mount 24 LED light 25 is screwed with spherical swivel head 26 in the upper end of first LED light 25, in the swivel head 26 and the adjusting The pull rod 27 of round bar shape is connected between disk 29；In being connected with for controlling the first motor 210 on the cabinet 21 One single machine unit 22；The number of first LED light 25 is 20.

The collecting unit 7 includes upper fixed frame 77, and interior driving head 73 is connected in the top of fixed frame 77, in The threaded upper ends of the interior driving head 73 are screwed with bogie 71, in being connected with the first dsp controller 74 in the bogie 71, It is screwed with the adjusting rod 72 of round bar shape in the threaded upper ends of the bogie 71；It is vertical in being connected on the outer wall of the bogie 71 Section is trapezoidal first to stir tooth 75, and it is trapezoidal with described first to be connected with longitudinal section in the inside of fixed frame 77 It stirs tooth 75 is adapted second and stirs tooth 76；

It is connected with intermediate fixed frame 78 in the downside of fixed frame 77, is clamped in the downside of the intermediate fixed frame 78 There is discoid lower fixed frame 79；In being connected with several the first optical sensors 710 on the intermediate fixed frame 78, in described The downside of lower fixed frame 79 is connected with several the second optical sensors 711；

The interior driving head 73 includes outer support frame 732, in being connected with outer wall on the outer wall of the outer support frame 732 For the outer spill spin block 733 of ellipsoid, along the axial center fixed link for being connected with round bar shape in it of the outer support frame 732 735, it is the first trapezoidal clamping block 734 in being welded with longitudinal section on the outer wall of the lower end of the center fixed link 735；In described The reinforcer 731 that outer wall is inner sunken face is connected between center fixed link 735 and the outer support frame 732.

Second lamp group 3 includes circular outer installing frame 31, in the interior peace for being connected with rectangle in the outer installing frame 31 It frames up 33, several the second motors 34 is fixed in the upper clamping of the interior installing frame 33 or bolt, along the outer installation The radial direction of frame 31 is equipped with the drive shaft 35 for the round bar shape that end thread is rotatably connected on second motor 34 in the inner, in described The one end of drive shaft 35 reached outside the outer installing frame 31 is connected with illumination part 36, in the interior installing frame 33 clamping or Bolt is fixed with the second dsp controller 32；In being electrically connected with the second motor driver on second motor 34；

The illumination part 36 includes the outer lamp fixed cylinder 3611 of cylindrical shape, in the bottom of the outer lamp fixed cylinder 3611 It is connected with discoid bottom plate 362, discoid top plate 369 is connected in the top of the outer lamp fixed cylinder 3611；

It is concavely provided with the first slide-and-guide slot in the bottom plate 362, is equipped in sliding in the first slide-and-guide slot vertical First sliding shoe 363 of cube shape；It is recessed with the second slide-and-guide slot in the downside of the top plate 369, in second sliding The second sliding shoe 366 of the sliding equipped with cubic in guide groove；In first sliding shoe 363 and the second sliding shoe The first lamp installation plate 365 is connected between 366, in being uniformly connected with the second LED light on the first lamp installation plate 365 364；

In being connected with third LED light 3610 in the side wall of the outer lamp fixed cylinder 3611；In the upside of the top plate 369 It is connected with lampshade 367, the lampshade 367 includes hemispherical inner housing and hemispherical outer housing；In the inner housing and institute It states and forms the first lock chamber between outer housing, in being uniformly connected with third LED light 368 in first lock chamber；In described The downside of bottom plate 362 is connected with the first round table-like clamping seat 361, and the axial direction that seat 361 is clamped along described first is worn in the inner Equipped with the first blocked hole being adapted with the drive shaft 35；In being connected with withstanding tight block in the side wall of first blocked hole.

The solar energy acquisition part 4 includes substrate 42, and the first ARM controls have been bolted in the upper end of the substrate 42 Device 41 and third motor 44 processed；In being electrically connected with third motor driver 43 on the third motor 44；Along third electricity The adjustment axis 47 that round bar shape is screwed with axially to the upper end screw thread of machine driver 43；

It is screwed with first bevel gear 46 in clamping or screw thread in the adjustment axis 47, in the upper end card of the adjustment axis 47 It connects or screw thread is screwed with second bevel gear 48；

It is engaged with the first gear frame 45 in the outboard gears of the first bevel gear 46, in the outer of first gear frame 45 Screw thread is screwed with first hydraulic cylinder 415 on wall, in being connected with solenoid valve 414 in the first hydraulic cylinder 415；Along described first The first hydraulic stem for being equipped with round bar shape axially to its one end sliding far from first gear frame 45 of hydraulic cylinder 415 416, it is screwed with pushing plate 417 in the threaded one end far from the first hydraulic cylinder 415 of first hydraulic stem 416；

In being connected with solar panel 410 on the pushing plate 417；In uniform on the solar panel 410 It is connected with light intensity sensor 411；In being screwed with the first spherical swivel head 413 on the side wall of the solar panel 410；

It is engaged with the second gear frame 49 in the outboard gears of the second bevel gear 48, in second gear frame 49 and institute State the first swingle 412 that round bar shape is connected between the first swivel head 413；

The first bevel gear 46 is consistent with the structure of the second bevel gear 48；First gear frame 45 and described The structure of two gear frames 49 is consistent；It is interior equipped with the internal tooth being adapted with the first bevel gear 46 in first gear frame 45 Wheel, for the rotary motion of the third motor 44 to be converted to the rotation of the first bevel gear 46 in the horizontal direction.

Embodiment 3

Further, on the basis of implementing 2：

A kind of intelligent road-lamp management method, for the intelligent road lamp system based on computer control, including step：

The solar energy acquisition part 4 is rotated into according to the preset intensity of illumination of the computer to acquire solar energy；

The collecting unit 7 acquires the light intensity of ambient enviroment and is sent to the computer；

The computer sends the first light regulating command to first lamp group 2 according to the light intensity information received The light intensity of environment is adjusted；

The computer sends the second light regulating command to second lamp group 3 according to the light intensity information received The light intensity of environment is adjusted.

The solar energy acquisition part 4 is rotated according to the preset intensity of illumination of the computer to acquire solar energy：

Pass through the computer goal-selling illumination intensity value t1；

The light intensity sensor 411 acquires illumination intensity value t2 and is sent to 41 He of the first ARM controller in real time The computer；

If the t2/t1 is less than 0.8, first ARM controller 41 sends rotation order and arrives the third motor To drive the third motor 44 to rotate, angle value and the t2/t1 that the third motor 44 rotates are inversely proportional driver 43；

Meanwhile first ARM controller 41 sends scale commands to the solenoid valve 415, the solenoid valve 414 drives The first hydraulic cylinder 415 and the first hydraulic stem 416 are flexible, drive the solar panel 410 around first rotation First 413 rotation；The flexible length of first hydraulic stem 416 and the t2/t1 are inversely proportional.

The collecting unit 7 acquires the light intensity of ambient enviroment and is sent to the computer：

The computer presets first object light intensity value d1 and the second target light intensity value d2, and d2 is more than d1；

The first practical light intensity value a is collected by first optical sensor 710 and is sent to the first DSP controls Device 22 processed and the computer；

The second practical light intensity value b is collected by second optical sensor 711 and is sent to the first DSP controls Device 22 processed and the computer；

The computer by a and b according toThe first practical light is calculated to measure Value c.

The computer sends the first light regulating command to first lamp group 2 according to the light intensity information received To the light intensity of environment be adjusted including：

If the c is less than d1, the computer, which is sent, starts order to first dsp controller 22；Described One dsp controller 22 sends electric motor starting order and drives the first motor 210 to rotate to the first motor driver；It is described The angle that first motor 210 rotates is directly proportional to the difference of the d1-c；

If c/d1 is less than 0.5, it is all bright that first dsp controller 22 controls 20 first LED light 25；

If c/d1 is equal to 0.5, first dsp controller 22 controls 10 in 20 first LED light 25 It is bright；

If c/d1 is more than or equal to 0.8, first dsp controller 22 controls in 20 first LED light 25 5 It is bright.

The computer sends the second light regulating command to second lamp group 3 according to the light intensity information received To the light intensity of environment be adjusted including：

If c/d1 is less than 0.5, and c/d2 is less than 0.4, then the computer sends to start to order to the 2nd DSP and control Device 32 processed；Second dsp controller 32 sends electric motor starting order to second motor driver driving, second electricity Machine 34 rotates；

When the c/d2 is less than 0.4, it is bright that second dsp controller 32 controls the second LED light 364；

If c/d2 is less than 0.3, it is bright that second dsp controller 32 controls the third LED light 368；

If c/d2 is less than 0.2, it is bright that second dsp controller 32 controls the 4th LED light 3610.

Although above having used general explanation and specific embodiment, the present invention is described in detail, at this On the basis of invention, it can be made some modifications or improvements, this will be apparent to those skilled in the art.Therefore, These modifications or improvements without departing from theon the basis of the spirit of the present invention belong to the scope of protection of present invention.

Claims (10)

1. a kind of intelligent road lamp system based on computer control, which is characterized in that including lamp bracket (1), in the lamp bracket (1) Lower end is connected with switch board (6), and the first lamp group (2) and the second lamp group (3) are fixed in the middle part bolt of the lamp bracket (1), in The upper end of the lamp bracket (1) is connected with solar energy acquisition part (4) and accumulator (5), and in the lower part of the lamp bracket (1), clamping is useful In the collecting unit (7) of acquisition light intensity；The switch board (6) includes computer.

2. the intelligent road lamp system according to claim 1 based on computer control, which is characterized in that first lamp group (2) include discoid the first mounting bracket (23), round table-like cabinet is connected in the middle part of first mounting bracket (23) (21), it is fixed with first motor (210) in the upper bolt of the cabinet (21), is electrically connected in the first motor (210) There is first motor driver；It is worn to its upper along the axial direction of the cabinet (21) and screw thread is rotatably connected in the first motor (210) output shaft (28) of the round bar shape of upper end is connected with adjustment disk (29), in described in the upper end of the output shaft (28) The edge of first mounting bracket (23) is installed with the outer swivel mount (24) of ellipsoid, along the outer swivel mount (24) radial to It is connected with the first LED light (25) in it, spherical swivel head (26) is screwed in the upper end of first LED light (25), in institute State the pull rod (27) that round bar shape is connected between swivel head (26) and the adjustment disk (29)；It is connected on the cabinet (21) First singlechip unit (22) for controlling the first motor (210)；The number of first LED light (25) is 20.

3. the intelligent road lamp system according to claim 2 based on computer control, which is characterized in that the collecting unit (7) include upper fixed frame (77), interior driving head (73) is connected in the top of fixed frame (77), in the interior driving head (73) threaded upper ends are screwed with bogie (71), in being connected with the first dsp controller (74) in the bogie (71), in institute The threaded upper ends for stating bogie (71) are screwed with the adjusting rod (72) of round bar shape；It is connected on the outer wall of the bogie (71) Longitudinal section is trapezoidal first to stir tooth (75), and longitudinal section is connected on the inside of fixed frame (77) to be trapezoidal with institute State first stir that tooth (75) is adapted second stir tooth (76)；

Intermediate fixed frame (78) is connected on the downside of fixed frame (77), in the downside card of the intermediate fixed frame (78) It is connected to discoid lower fixed frame (79)；In being connected with several the first optical sensors on the intermediate fixed frame (78) (710), several the second optical sensors (711) are connected on the downside of the lower fixed frame (79)；

The interior driving head (73) includes outer support frame (732), outer in being connected on the outer wall of the outer support frame (732) Wall is the outer spill spin block (733) of ellipsoid, along the axial center for being connected with round bar shape in it of the outer support frame (732) Fixed link (735) is the first trapezoidal clamping block in being welded with longitudinal section on the outer wall of the lower end of the center fixed link (735) (734)；It is adding for inner sunken face that outer wall is connected between the center fixed link (735) and the outer support frame (732) Strong part (731).

4. the intelligent road lamp system according to claim 3 based on computer control, which is characterized in that second lamp group (3) include circular outer installing frame (31), in the interior installing frame (33) for being connected with rectangle in the outer installing frame (31), in described The upper clamping of interior installing frame (33) or bolt are fixed with several the second motors (34), along the diameter of the outer installing frame (31) To the drive shaft (35) for being equipped with the round bar shape that end thread is rotatably connected on second motor (34) in the inner, in the driving The one end of the outer installing frame (31) outside that reaches of axis (35) is connected with illumination part (36), in clamping in the interior installing frame (33) Or bolt is fixed with the second dsp controller (32)；In being electrically connected with the second motor driver on second motor (34)；

The illumination part (36) includes the outer lamp fixed cylinder (3611) of cylindrical shape, in the bottom of the outer lamp fixed cylinder (3611) Portion is connected with discoid bottom plate (362), and discoid top plate is connected at the top of the outer lamp fixed cylinder (3611) (369)；

Be concavely provided with the first slide-and-guide slot in the bottom plate (362), in the first slide-and-guide slot sliding be equipped with cube The first sliding shoe (363) of body shape；It is recessed with the second slide-and-guide slot on the downside of the top plate (369), is slided in described second The second sliding shoe (366) of the sliding equipped with cubic in action-oriented slot；It is slided in first sliding shoe (363) and described second It is connected with the first lamp installation plate (365) between motion block (366), is uniformly clamped on the first lamp installation plate (365) There is the second LED light (364)；

In being connected with third LED light (3610) in the side wall of the outer lamp fixed cylinder (3611)；In the upper of the top plate (369) Side is connected with lampshade (367), and the lampshade (367) includes hemispherical inner housing and hemispherical outer housing；In the inner casing The first lock chamber is formed between body and the outer housing, in being uniformly connected with third LED light in first lock chamber (368)；It is connected with the first round table-like clamping seat (361) on the downside of the bottom plate (362), seat is clamped along described first (361) axial direction is equipped with the first blocked hole being adapted with the drive shaft (35) in the inner；In first blocked hole Withstanding tight block is connected in side wall.

5. the intelligent road lamp system according to claim 4 based on computer control, which is characterized in that the solar energy acquisition Part (4) includes substrate (42), and the first ARM controller (41) and third electricity have been bolted in the upper end of the substrate (42) Machine (44)；In being electrically connected with third motor driver (43) on the third motor (44)；Along the third motor driver (43) the adjustment axis (47) that round bar shape is screwed with axially to the upper end screw thread；

It is screwed with first bevel gear (46), the upper end in the adjustment axis (47) in clamping or screw thread in the adjustment axis (47) Clamping or screw thread are screwed with second bevel gear (48)；

It is engaged with the first gear frame (45) in the outboard gears of the first bevel gear (46), in first gear frame (45) Screw thread is screwed with first hydraulic cylinder (415) on outer wall, in being connected with solenoid valve (414) in the first hydraulic cylinder (415)；Along The first hydraulic cylinder (415) is equipped with round bar shape axially to its one end sliding far from first gear frame (45) First hydraulic stem (416) is screwed in the threaded one end far from the first hydraulic cylinder (415) of first hydraulic stem (416) There is pushing plate (417)；

In being connected with solar panel (410) on the pushing plate (417)；In uniform on the solar panel (410) Be connected with light intensity sensor (411)；In being screwed with the first spherical swivel head on the side wall of the solar panel (410) (413)；

Be engaged with the second gear frame (49) in the outboard gears of the second bevel gear (48), in second gear frame (49) and The first swingle (412) of round bar shape is connected between first swivel head (413)；

The first bevel gear (46) is consistent with the structure of the second bevel gear (48)；First gear frame (45) and described The structure of second gear frame (49) is consistent；It is adapted with the first bevel gear (46) in being equipped in first gear frame (45) Internal gear, for the rotary motion of the third motor (44) to be converted to the first bevel gear (46) in the horizontal direction Rotation.

6. a kind of intelligent road-lamp management method, special for the intelligent road lamp system based on computer control described in claim 5 Sign is, including step：

The solar energy acquisition part (4) is according to the preset intensity of illumination rotation of the computer to acquire solar energy；

The light intensity of collecting unit (7) the acquisition ambient enviroment is simultaneously sent to the computer；

The computer is right to first lamp group (2) according to light intensity information the first light regulating command of transmission received The light intensity of environment is adjusted；

The computer is right to second lamp group (3) according to light intensity information the second light regulating command of transmission received The light intensity of environment is adjusted.

7. intelligent road-lamp management method according to claim 6, which is characterized in that the solar energy acquisition part (4) is according to institute State the preset intensity of illumination rotation of computer includes to acquire solar energy：

Pass through the computer goal-selling illumination intensity value t1；

The light intensity sensor (411) in real time acquisition illumination intensity value t2 and be sent to first ARM controller (41) and The computer；

If the t2/t1 is less than 0.8, first ARM controller (41) sends rotation order and is driven to the third motor Dynamic device (43) to drive the third motor (44) to rotate, the angle value and the t2/t1 of third motor (44) rotation at Inverse ratio；

Meanwhile first ARM controller (41) sends scale commands to the solenoid valve (415), the solenoid valve (414) is driven It moves the first hydraulic cylinder (415) and the first hydraulic stem (416) is flexible, drive the solar panel (410) around described First swivel head (413) rotates；The flexible length of first hydraulic stem (416) and the t2/t1 are inversely proportional.

8. intelligent road-lamp management method according to claim 7, which is characterized in that the collecting unit (7) acquires surrounding ring The light intensity in border is simultaneously sent to the computer and includes：

The computer presets first object light intensity value d1 and the second target light intensity value d2, and d2 is more than d1；

The first practical light intensity value a is collected by first optical sensor (710) and is sent to the first DSP controls Device (22) and the computer；

The second practical light intensity value b is collected by second optical sensor (711) and is sent to the first DSP controls Device (22) and the computer；

The computer by a and b according toCalculate the first practical light measure c.

9. intelligent road-lamp management method according to claim 8, which is characterized in that the computer is according to the light received Strength information send the first light regulating command to first lamp group (2) to the light intensity of environment be adjusted including：

If the c is less than d1, the computer, which is sent, starts order to first dsp controller (22)；Described first Dsp controller (22) sends electric motor starting order and drives first motor (210) rotation to the first motor driver；Institute The angle for stating first motor (210) rotation is directly proportional to the difference of the d1-c；

If c/d1 is less than 0.5, it is all bright that first dsp controller (22) controls 20 first LED light (25)；

If c/d1 is equal to 0.5, first dsp controller (22) controls 10 in 20 first LED light (25) It is bright；

If c/d1 is more than or equal to 0.8, first dsp controller (22) controls in 20 first LED light (25) 5 It is bright.

10. intelligent road-lamp management method according to claim 9, which is characterized in that the computer is according to the light received Line strength information send the second light regulating command to second lamp group (3) to the light intensity of environment be adjusted including：

If c/d1 is less than 0.5, and c/d2 is less than 0.4, then the computer, which sends to start to order, arrives second dsp controller (32)；Second dsp controller (32) sends electric motor starting order to second motor driver driving, second electricity Machine (34) rotates；

When the c/d2 is less than 0.4, it is bright that second dsp controller (32) controls the second LED light (364)；

If c/d2 is less than 0.3, it is bright that second dsp controller (32) controls the third LED light (368)；

If c/d2 is less than 0.2, it is bright that second dsp controller (32) controls the 4th LED light (3610).