阅读说明：本技术 一种led植物照明智能光控驱动电源 (LED plant illumination intelligent light-operated driving power supply ) 是由 黄辉腾 林家飞 于 2021-09-17 设计创作，主要内容包括：本发明公开的属于植物照明驱动电源技术领域,具体为一种LED植物照明智能光控驱动电源,其技术方案是：包括储能装置,所述储能装置包括太阳能电池板,所述太阳能电池板前端底部固定安装第一活动圈,所述太阳能电池板后端底部固定安装第二活动圈,还包括：对植物进行照明的补光装置；和对所述补光装置进行供电的蓄电池,本发明的有益效果是：通过设置储能装置,来间隙或者同时给两个蓄电池进行充电,两个蓄电池互补使用,使得LED灯任何时候都能进行工作,LED灯的高度可调节,使得LED灯与植物的距离可调节,从而能够使植物被更好的光照；LED灯随着主驱动皮带和从驱动皮带来回地移动,不仅满足了植物光照需求,也大大降低了能耗。(The invention discloses a technical field of a plant lighting driving power supply, in particular to an LED plant lighting intelligent light-operated driving power supply, which adopts the technical scheme that: including energy memory, energy memory includes solar cell panel, the first movable ring of solar cell panel front end bottom fixed mounting, solar cell panel rear end bottom fixed mounting second movable ring still includes: a light supplement device for illuminating the plants; and the storage battery supplies power to the light supplementing device, and the invention has the beneficial effects that: the energy storage device is arranged to charge the two storage batteries at intervals or simultaneously, the two storage batteries are used in a complementary mode, so that the LED lamp can work at any time, the height of the LED lamp can be adjusted, the distance between the LED lamp and the plant can be adjusted, and the plant can be better illuminated; the LED lamp moves back and forth along with the main driving belt and the auxiliary driving belt, so that the plant illumination requirement is met, and the energy consumption is greatly reduced.)

1. The utility model provides a light-operated drive power supply of LED plant illumination intelligence, includes energy memory (100), energy memory (100) include solar cell panel (101), its characterized in that, the first movable circle of solar cell panel (101) front end bottom fixed mounting (102), solar cell panel (101) rear end bottom fixed mounting second movable circle (105), still include: a light supplement device (200) for illuminating plants; the storage batteries (300) supply power to the light supplementing device (200), and two groups of the storage batteries (300) are arranged; and a heat sink (400) for cooling the battery (300); light filling device (200) includes support (201), install controller (228) and light intensity sensor (229) on support (201), fixed mounting second servo motor (211) on support (201), second servo motor (211) output shaft outer wall cup joints main drive belt pulley (212), main drive belt pulley (212) are connected from drive belt pulley (226) through main drive belt (213) transmission, main drive belt (213) are through bolted connection carriage release lever (204), carriage release lever (204) are kept away from the one end of main drive belt (213) is through bolted connection from drive belt (218), from drive belt (218) transmission connection secondary drive belt pulley (217), secondary drive belt pulley (217) inner wall grafting minor axis (219), minor axis (219) passes through the bearing and installs on support (201), the outer wall of the moving rod (204) is sleeved with stabilizing bearings (225) at equal intervals, the outer wall of each stabilizing bearing (225) is fixedly connected with a reserved line box (206), the inner wall of each reserved line box (206) is fixedly provided with a winding wheel (209) through a bearing, a branch lead (208) is wound on each winding wheel (209), one end of each winding wheel (209) penetrates out of each reserved line box (206) and then is fixedly connected with a turntable (207), each turntable (207) is fixed with each reserved line box (206) through a bolt (230), the outer wall of each branch lead (208) is connected with a guide wheel (210) in a rolling mode, each guide wheel (210) is fixedly arranged on the inner wall of the bottom of each reserved line box (206), and each branch lead (208) is electrically connected with an LED lamp (205);

heat abstractor (400) is including heat dissipation base (408), slot (4081) and water injection chamber (4082) have been seted up on heat dissipation base (408), slot (4081) inner wall grafting battery box (301), battery box (301) are through hinge installation chamber door (3012), battery (300) set up in battery box (301).

2. The LED plant lighting intelligent light-operated driving power supply according to claim 1, characterized in that: first activity circle (102) swing joint electric telescopic handle (104), second activity circle (105) swing joint support column (106), electric telescopic handle (104) are kept away from the one end swing joint third activity circle (103) of first activity circle (102), third activity circle (103) bottom fixed mounting is on backup pad (107).

3. The LED plant lighting intelligent light-operated driving power supply according to claim 2, characterized in that: support column (106) outer wall passes through bearing grafting drive case (108), be equipped with first servo motor (109) in drive case (108), driving gear (110) are cup jointed to first servo motor (109) output shaft outer wall, driven gear (111) are connected in driving gear (110) meshing, driven gear (111) cup joint on support column (106), backup pad (107) fixed mounting be in on support column (106).

4. The LED plant lighting intelligent light-operated driving power supply according to claim 1, characterized in that: the outer wall of an output shaft of the second servo motor (211) is sleeved with a first conical gear (231), the first conical gear (231) is in meshed connection with a second conical gear (214), the inner wall of the second conical gear (214) is sleeved with a first short auxiliary rod (235), the outer wall of one end, away from the second conical gear (214), of the first short auxiliary rod (235) is sleeved with a third conical gear (215), the third conical gear (215) is in meshed connection with a fourth conical gear (216), the inner wall of the fourth conical gear (216) is sleeved with a long auxiliary rod (203), the outer wall of one end, away from the fourth conical gear (216), of the long auxiliary rod (203) is sleeved with a fifth conical gear (224), the fifth conical gear (224) is in meshed connection with a sixth conical gear (223), the inner wall of the sixth conical gear (223) is sleeved with a second short auxiliary rod (222), and the outer wall of one end, away from the sixth conical gear (223), of the second short auxiliary rod (222) is sleeved with a seventh conical gear (223) The seventh bevel gear (221) is in meshed connection with the eighth bevel gear (220), and the eighth bevel gear (220) is sleeved on the stub shaft (219).

5. The LED plant lighting intelligent light-operated driving power supply according to claim 1, characterized in that: first pivot (407), second pivot (412) and third pivot (411) are installed through the bearing to battery box (301) inner wall, linkage belt pulley (406) is all cup jointed to first pivot (407), second pivot (412) and third pivot (411) outer wall, first pivot (407) are passed through linkage belt pulley (406) transmission is connected third pivot (411) of the rear side of first pivot (407), second pivot (412) are passed through linkage belt pulley (406) transmission is connected third pivot (411) of the rear side of second pivot (412).

6. The LED plant lighting intelligent light-operated driving power supply according to claim 5, characterized in that: first reel wheel (404), two sets of first wiping cloth (405) of winding on first reel wheel (404), two sets of first reel wheel (412) outer wall all cup joints second reel wheel (410), two sets of second wiping cloth (409) of winding on second reel wheel (410), driven pulley (403) are cup jointed to first reel wheel (407) and second reel (412) top outer wall, driven pulley (403) are connected through belt transmission in driven pulley (403), the output shaft of third servo motor (401) is cup jointed to driving pulley (402) inner wall.

7. The LED plant lighting intelligent light-operated driving power supply according to claim 1, characterized in that: be equipped with boss (3011) in battery box (301) inner chamber, boss (3011) with battery box (301) structure as an organic whole, battery (300) are placed on boss (3011), battery box (301) and heat dissipation base (408) are the metal material.

8. The LED plant lighting intelligent light-operated driving power supply according to claim 3, characterized in that: the driving box (108) is installed on the support (201), the solar panel (101) is electrically connected with the converter (112), the converter (112) is electrically connected with the two groups of storage batteries (300) respectively, and the two groups of storage batteries (300) are electrically connected with the LED lamp (205) respectively.

9. The LED plant lighting intelligent light-operated driving power supply according to claim 8, characterized in that: converter (112) and two sets of all install energy storage switch (232) on the connecting wire of battery (300), battery (300) and LED lamp (205) are through leading wire (234) and branch wire (208) electric connection, all install power supply switch (227) on leading wire (234), branch wire (208) are last to install branch switch (233).

10. The LED plant lighting intelligent light-operated driving power supply according to claim 1, characterized in that: a baffle (202) is installed on the support (201), and the baffle (202) is located on the rear side of the long auxiliary rod (203).

Technical Field

The invention relates to the technical field of plant lighting driving power supplies, in particular to an LED plant lighting intelligent light-operated driving power supply.

Background

The LED lighting is used for supplementing light to the growth of plants in the market at present, and the LED lighting device is more and more widely concerned.

In the existing LED plant lighting system, the position of an LED lamp is fixed, and the LED lamp directly irradiates plants for a long time, so that great waste is caused to electric energy, and short plants are shielded by a higher part and are irradiated insufficiently; and power supply unit does not set up heat abstractor for lighting system circuit generates heat, easily causes the incident, and storage battery's wiring is unreasonable, and when the battery was charging, can't throw light on.

Therefore, the invention is necessary to invent an intelligent light-operated driving power supply for LED plant lighting.

Disclosure of Invention

Therefore, the invention provides an LED plant lighting intelligent light-operated driving power supply, two storage batteries are arranged for interchange use, one storage battery is charged, the other storage battery is discharged for lighting, and the light supplementing device is arranged, so that the up-and-down movement of an LED lamp is realized, the LED lamp can move back and forth, the plant is lighted intermittently, the electric energy is saved, the storage batteries are cooled through the heat dissipation device, the problem that the existing LED plant lighting system is that the LED lamp is fixed in position, the plant is directly irradiated for a long time, the electric energy is greatly wasted, shorter plants are shielded by higher parts and are not irradiated enough is solved; and power supply unit does not set up heat abstractor for lighting system circuit generates heat, easily causes the incident, and storage battery's wiring is unreasonable, when the battery is charging, the problem that can't throw light on.

In order to achieve the above purpose, the invention provides the following technical scheme:

the utility model provides a light-operated drive power supply of LED plant illumination intelligence, includes energy memory, energy memory includes solar cell panel, the first movable circle of solar cell panel front end bottom fixed mounting, the movable circle of solar cell panel rear end bottom fixed mounting second still includes: a light supplement device for illuminating the plants; and

the storage batteries are used for supplying power to the light supplementing device, and two groups of storage batteries are arranged; and

the heat dissipation device is used for cooling the storage battery;

the light supplementing device comprises a support, a controller and a light intensity sensor are installed on the support, a second servo motor is fixedly installed on the support, a main driving belt wheel is sleeved on the outer wall of an output shaft of the second servo motor, the main driving belt wheel is connected with a secondary driving belt wheel through a main driving belt in a transmission mode, the main driving belt wheel is connected with a moving rod through bolts, one end, far away from the main driving belt, of the moving rod is connected with the secondary driving belt wheel through bolts, the secondary driving belt wheel is connected with a secondary driving belt wheel in a transmission mode, a short shaft is inserted into the inner wall of the secondary driving belt wheel and installed on the support through bearings, stabilizing bearings are sleeved on the outer wall of the moving rod at equal intervals, a reserved wire box is fixedly connected with the outer wall of the stabilizing bearings, a wire coiling wheel is fixedly installed on the inner wall of the reserved wire box through bearings, and branch wires are wound on the coiling wheel, one end of the wire winding wheel penetrates through the reserved wire box and then is fixedly connected with a rotary table, the rotary table is fixed with the reserved wire box through a bolt, the outer wall of the branch wire is connected with a guide wheel in a rolling mode, the guide wheel is fixedly arranged on the inner wall of the bottom of the reserved wire box, and the branch wire is electrically connected with an LED lamp;

the heat dissipation device comprises a heat dissipation base, wherein a slot and a water injection cavity are formed in the heat dissipation base, a battery box is inserted into the inner wall of the slot, a box door is installed on the battery box through a hinge, and the storage battery is arranged in the battery box.

Preferably, first activity circle swing joint electric telescopic handle, second activity circle swing joint support column, electric telescopic handle keeps away from the one end swing joint third activity circle of first activity circle, third activity circle bottom fixed mounting is in the backup pad.

Preferably, the support column outer wall passes through bearing grafting drive case, be equipped with first servo motor in the drive case, the driving gear is cup jointed to first servo motor output shaft outer wall, driven gear is connected in the driving gear meshing, driven gear cup joints on the support column, backup pad fixed mounting be in on the support column.

Preferably, the outer wall of the output shaft of the second servo motor is sleeved with a first bevel gear, the first bevel gear is in meshed connection with a second bevel gear, the inner wall of the second bevel gear is sleeved with a first short auxiliary rod, the outer wall of one end of the first short auxiliary rod, which is far away from the second bevel gear, is sleeved with a third bevel gear, the third bevel gear is meshed with a fourth bevel gear, the inner wall of the fourth bevel gear is sleeved with a long auxiliary rod, a fifth bevel gear is sleeved on the outer wall of one end of the long auxiliary rod, which is far away from the fourth bevel gear, the fifth bevel gear is in meshed connection with a sixth bevel gear, a second short auxiliary rod is sleeved on the inner wall of the sixth conical gear, a seventh conical gear is sleeved on the outer wall of one end, far away from the sixth conical gear, of the second short auxiliary rod, the seventh bevel gear is in meshed connection with an eighth bevel gear, and the eighth bevel gear is sleeved on the short shaft.

Preferably, first pivot, second pivot and third pivot are installed through the bearing to the battery box inner wall, linkage belt pulley is all cup jointed to first pivot, second pivot and third pivot outer wall, first pivot passes through linkage belt pulley transmission connects the third pivot of the rear side of first pivot, the second pivot passes through the third pivot of the rear side of linkage belt pulley transmission connection second pivot.

Preferably, first pivot and second pivot outer wall all cup joint first batching wheel, and are two sets of twine first wiping cloth on the first batching wheel, and are two sets of second batching wheel has all been cup jointed to third pivot outer wall, and is two sets of twine the second on the second batching wheel and wipe cloth, driven pulley is cup jointed to first pivot and second pivot top outer wall, driven pulley passes through belt transmission and connects the driving pulley, the driving pulley inner wall cup joints third servo motor's output shaft.

Preferably, a boss is arranged in the inner cavity of the battery box, the boss and the battery box are of an integrated structure, the storage battery is placed on the boss, and the battery box and the heat dissipation base are made of metal materials.

Preferably, the driving box is installed on the support, the solar cell panel is electrically connected with the converter, the converter is electrically connected with the two groups of storage batteries respectively, and the two groups of storage batteries are electrically connected with the LED lamp respectively.

Preferably, the converter and two sets of all install the energy storage switch on the connecting wire of battery, battery and LED lamp pass through leading wire and branch wire electric connection, all install the power switch on the leading wire, install branch switch on the branch wire.

Preferably, a baffle is installed on the bracket and is positioned at the rear side of the long auxiliary rod.

The invention has the beneficial effects that:

1. the energy storage device is arranged to charge the two storage batteries at intervals or simultaneously, and the two storage batteries are used in a complementary manner, so that the LED lamp can work at any time;

2. corresponding switches are arranged on connecting lines of the converter, the storage batteries and the LED lamps, so that when one storage battery is charged, the other storage battery can supply power to the LED lamps, the number of used LEDs can be changed through the difference of light intensity, and better illumination requirements are provided for plant growth;

3. the height of the LED lamp can be adjusted, so that the distance between the LED lamp and the plant can be adjusted, and the plant can be better illuminated; the LED lamps move back and forth along with the main driving belt and the auxiliary driving belt, so that the plant illumination requirement is met, and the energy consumption is greatly reduced;

4. through setting up energy memory, turn into the electric energy with solar energy, reduced energy resource consumption to solar cell panel's angle and orientation can be adjusted, make solar cell panel can receive the biggest illumination, accelerate the charge speed of battery.

Drawings

FIG. 1 is a schematic structural view provided by the present invention;

FIG. 2 is a partial top view of FIG. 1 provided in accordance with the present invention;

FIG. 3 is a side view of the energy storage device of FIG. 1 provided in accordance with the present invention;

FIG. 4 is an enlarged view taken at A of FIG. 1 according to the present invention;

FIG. 5 is a cross-sectional view of a reserve cord box provided by the present invention;

FIG. 6 is an enlarged view at B of FIG. 1 in accordance with the present invention;

FIG. 7 is an enlarged view at C of FIG. 1 in accordance with the present invention;

fig. 8 is a schematic structural diagram of a heat dissipation device provided in the present invention;

FIG. 9 is a cross-sectional view of FIG. 8 provided by the present invention;

FIG. 10 is a partial top view of FIG. 9 provided in accordance with the present invention;

FIG. 11 is a diagram of electrical connections provided by the present invention;

fig. 12 is a perspective view of the heat dissipation base provided in the present invention.

In the figure: the solar energy storage device 100, the solar cell panel 101, the first movable ring 102, the third movable ring 103, the electric telescopic rod 104, the second movable ring 105, the support column 106, the support plate 107, the driving box 108, the first servo motor 109, the driving gear 110, the driven gear 111, the converter 112, the light supplementing device 200, the bracket 201, the baffle 202, the long auxiliary rod 203, the moving rod 204, the LED lamp 205, the reserve line box 206, the turntable 207, the branch lead 208, the winding wheel 209, the guide wheel 210, the second servo motor 211, the main driving pulley 212, the main driving belt 213, the second bevel gear 214, the third bevel gear 215, the fourth bevel gear 216, the auxiliary driving pulley 217, the auxiliary driving belt 218, the short shaft 219, the eighth bevel gear 220, the seventh bevel gear 221, the second short auxiliary rod 222, the sixth bevel gear 223, the fifth bevel gear 224, the dimensionally stable bearing 225, the auxiliary driving pulley 226, the power supply switch 227, the light supplementing device 200, the support 201, the auxiliary driving belt 203, the auxiliary driving belt pulley, the auxiliary driving pulley, the auxiliary, The device comprises a controller 228, a light intensity sensor 229, a latch 230, a first bevel gear 231, an energy storage switch 232, a branch switch 233, a main guide wire 234, a first short auxiliary rod 235, a storage battery 300, a battery box 301, a boss 3011, a box door 3012, a heat dissipation device 400, a third servo motor 401, a driving pulley 402, a driven pulley 403, a first cloth winding wheel 404, a first wiping cloth 405, a linkage pulley 406, a first rotating shaft 407, a heat dissipation base 408, a slot 4081, a water injection cavity 4082, a second wiping cloth 409, a second cloth winding wheel 410, a third rotating shaft 411 and a second rotating shaft 412.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Referring to fig. 1-12 in the specification, the present invention provides an intelligent light-operated driving power supply for LED plant lighting, including an energy storage device 100, where the energy storage device 100 includes a solar panel 101, a first movable ring 102 is fixedly installed at the bottom of the front end of the solar panel 101, and a second movable ring 105 is fixedly installed at the bottom of the rear end of the solar panel 101, and further including: a light supplement device 200 for illuminating plants; and

the storage batteries 300 are used for supplying power to the light supplementing device 200, and two groups of the storage batteries 300 are arranged; and

a heat sink 400 for cooling the battery 300;

the light supplementing device 200 comprises a support 201, a controller 228 and a light intensity sensor 229 are installed on the support 201, a second servo motor 211 is fixedly installed on the support 201, the outer wall of an output shaft of the second servo motor 211 is sleeved with a main drive belt pulley 212, the main drive belt pulley 212 is in transmission connection with a secondary drive belt pulley 226 through a main drive belt 213, the main drive belt 213 is connected with a moving rod 204 through bolts, one end, far away from the main drive belt 213, of the moving rod 204 is connected with a secondary drive belt 218 through bolts, the secondary drive belt 218 is in transmission connection with a secondary drive belt pulley 217, the inner wall of the secondary drive belt pulley 217 is inserted into a short shaft 219, the short shaft 219 is installed on the support 201 through bearings, stabilizing bearings 225 are sleeved on the outer wall of the moving rod 204 at equal intervals, the outer wall of the stabilizing bearings 225 is fixedly connected with a reserved line box 206, and the inner wall of the reserved line box 206 is fixedly installed with a winding wheel 209 through bearings, a branch lead 208 is wound on the winding wheel 209, one end of the winding wheel 209 penetrates through the reserved line box 206 and then is fixedly connected with a turntable 207, the turntable 207 is fixed with the reserved line box 206 through a bolt 230, the outer wall of the branch lead 208 is connected with a guide wheel 210 in a rolling manner, the guide wheel 210 is fixedly installed on the inner wall of the bottom of the reserved line box 206, and the branch lead 208 is electrically connected with the LED lamp 205; the wire winding wheel 209 and the reserved line box 206 are used for reserving a section of branch wire 208, so that the movement of the LED lamp 205 is realized, and meanwhile, the function of counterweight is also realized, so that the connection point of the stabilizing bearing 225 and the reserved line box 206 is always at the lowest position in the process that the movable rod 204 moves along with the main driving belt 213 and the auxiliary driving belt 218, and the branch wire 208 is prevented from being wound on the movable rod 204;

heat abstractor 400 includes heat dissipation base 408, slot 4081 and water injection chamber 4082 have been seted up on heat dissipation base 408, slot 4081 inner wall grafting battery box 301, battery box 301 passes through hinge mount case door 3012, battery 300 set up in battery box 301.

Further, the first movable ring 102 is movably connected with an electric telescopic rod 104, the second movable ring 105 is movably connected with a supporting column 106, one end, far away from the first movable ring 102, of the electric telescopic rod 104 is movably connected with a third movable ring 103, and the bottom of the third movable ring 103 is fixedly installed on a supporting plate 107.

Furthermore, the outer wall of the supporting column 106 is inserted into a driving box 108 through a bearing, a first servo motor 109 is arranged in the driving box 108, the outer wall of an output shaft of the first servo motor 109 is sleeved with a driving gear 110, the driving gear 110 is engaged and connected with a driven gear 111, the driven gear 111 is sleeved on the supporting column 106, and the supporting plate 107 is fixedly installed on the supporting column 106.

Further, the outer wall of the output shaft of the second servo motor 211 is sleeved with a first bevel gear 231, the first bevel gear 231 is in meshing connection with a second bevel gear 214, the inner wall of the second bevel gear 214 is sleeved with a first short auxiliary rod 235, the outer wall of one end of the first short auxiliary rod 235 far away from the second bevel gear 214 is sleeved with a third bevel gear 215, the third bevel gear 215 is in meshing connection with a fourth bevel gear 216, the inner wall of the fourth bevel gear 216 is sleeved with a long auxiliary rod 203, the outer wall of one end of the long auxiliary rod 203 far away from the fourth bevel gear 216 is sleeved with a fifth bevel gear 224, the fifth bevel gear 224 is in meshing connection with a sixth bevel gear 223, the inner wall of the sixth bevel gear 223 is sleeved with a second short auxiliary rod 222, the outer wall of one end of the second short auxiliary rod 222 far away from the sixth bevel gear 223 is sleeved with a seventh bevel gear 221, the seventh bevel gear 221 is in meshing connection with an eighth bevel gear 220, the eighth bevel gear 220 is sleeved on the stub shaft 219.

Further, first pivot 407, second pivot 412 and third pivot 411 are installed through the bearing to battery box 301 inner wall, linkage belt pulley 406 is all cup jointed to first pivot 407, second pivot 412 and third pivot 411 outer wall, first pivot 407 passes through linkage belt pulley 406 transmission is connected the third pivot 411 of the rear side of first pivot 407, second pivot 412 passes through the third pivot 411 of the rear side of linkage belt pulley 406 transmission connection second pivot 412.

Further, the outer walls of the first rotating shaft 407 and the second rotating shaft 412 are respectively sleeved with a first cloth winding wheel 404, two groups of first cloth winding wheels 404 are wound with first wiping cloths 405, two groups of third rotating shafts 411 are respectively sleeved with a second cloth winding wheel 410, two groups of second cloth winding wheels 410 are wound with second wiping cloths 409, the outer walls of the top ends of the first rotating shaft 407 and the second rotating shaft 412 are respectively sleeved with a driven pulley 403, the driven pulley 403 is connected with a driving pulley 402 through belt transmission, and the inner wall of the driving pulley 402 is sleeved with an output shaft of a third servo motor 401; the first wiping cloth 405 and the second wiping cloth 409 are used for wiping off dust on the storage battery 300, so that the dust is prevented from affecting heat dissipation of the storage battery 300.

Further, a boss 3011 is arranged in the inner cavity of the battery box 301, the boss 3011 and the battery box 301 are of an integral structure, the storage battery 300 is placed on the boss 3011, and the battery box 301 and the heat dissipation base 408 are made of metal materials; set up to the metal material to carry out thermal conduction better, cool down for battery 300 better.

Further, the driving box 108 is mounted on the bracket 201, the solar panel 101 is electrically connected to the converter 112, the converter 112 is electrically connected to the two sets of storage batteries 300, respectively, and the two sets of storage batteries 300 are electrically connected to the LED lamps 205, respectively; the LED lamps 205 are provided in a plurality of groups and are equidistantly distributed.

Further, energy storage switches 232 are mounted on connecting wires of the converter 112 and the two sets of storage batteries 300, the storage batteries 300 and the LED lamps 205 are electrically connected through main wires 234 and branch wires 208, power supply switches 227 are mounted on the main wires 234, and branch wires 208 are mounted with branch switches 233; the energy storage switch 232 is used for connecting or disconnecting the converter 112, so as to respectively charge the two groups of storage batteries 300; the power supply switch 227 functions to turn on or off the power supply to the battery 300; the branch switch 233 functions to control the corresponding LED lamp.

Further, a baffle 202 is mounted on the bracket 201, and the baffle 202 is positioned at the rear side of the long auxiliary rod 203; the function of the baffle 202 is to separate the branch wire 208 from the long auxiliary rod 203, and to prevent the long auxiliary rod 203 from wearing the branch wire 208 during rotation.

The implementation scenario is specifically as follows: when the device is used, the corresponding energy storage switch 232 electrically connected with the storage batteries 300 is switched on to charge the corresponding storage battery 300, the other storage battery 300 supplies power to the light supplementing device 200, the second servo motor 211 in the light supplementing device 200 drives the main driving belt 213 to rotate through the main driving belt pulley 212, and simultaneously drives the driven driving belt 218 to rotate through the second bevel gear 214, the third bevel gear 215, the fourth bevel gear 216, the eighth bevel gear 220, the seventh bevel gear 221, the sixth bevel gear 223, the fifth bevel gear 224, the first bevel gear 231, the short shaft 219 and the auxiliary driving belt pulley 217 to drive the long auxiliary rod 203 to move back and forth, so as to intermittently illuminate the plant; the light intensity sensor 229 detects the light intensity in the greenhouse and sends the light intensity to the controller 228, if the light is strong, a few LED lamps 205 can be turned on through the branch switch 233, and if the light is weak, a few LED lamps can be turned on; the height of the LED lamp is adjusted through the branch lead 208 reserved in the reserved line box 206, so that plants with different heights can be well irradiated; according to different heights of the sun, the inclination angle of the solar panel 101 can be adjusted through the length of the electric telescopic rod 104, meanwhile, the solar panel 101 can be driven to rotate through the first servo motor 109, the orientation of the solar panel 101 is changed, and therefore the solar panel 101 can obtain the maximum illumination area; the third servo motor 401 drives the two sets of first cloth winding wheels 404 to rotate, one first cloth winding wheel 404 is used for feeding and repairing the first wiping cloth 405 and rolling, the other first cloth winding wheel 404 is used for feeding and repairing the first wiping cloth 405 and releasing the first wiping cloth, the two sets of second cloth winding wheels 410 are driven to rotate through the linkage belt pulley 406 and the belt, so that the second wiping cloth 409 is wound by one second cloth winding wheel 410, the second wiping cloth 409 is released by the other second cloth winding wheel 410, dust on the storage battery 300 is cleaned by the first wiping cloth 405 and the second wiping cloth 409, the storage battery 300 is enabled to dissipate heat more easily, meanwhile, water in the heat dissipation base 408 and the water injection cavity 4082 absorbs heat generated by the storage battery, heat dissipation of the storage battery 300 is accelerated, and overhigh temperature of the storage battery 300 is avoided.

The above description is only a preferred embodiment of the present invention, and any person skilled in the art may modify the present invention or modify it into an equivalent technical solution by using the technical solution described above. Therefore, any simple modifications or equivalent substitutions made in accordance with the technical solution of the present invention are within the scope of the claims of the present invention.