CN119084893A

CN119084893A - A multifunctional garden lamp

Info

Publication number: CN119084893A
Application number: CN202411193794.8A
Authority: CN
Inventors: 彭小刚; 龚玮
Original assignee: Nantong Ruibo Electrical Co ltd
Current assignee: Nantong Ruibo Electrical Co ltd
Priority date: 2024-08-28
Filing date: 2024-08-28
Publication date: 2024-12-06

Abstract

The present invention relates to the technical field of garden lights, and specifically to a multifunctional garden light. The present invention arranges a height-adjusting lighting device on the ground. An anti-direct solar device is arranged on the height-adjusting lighting device, and the anti-direct solar device is connected to the height-adjusting lighting device. A spray cleaning device is arranged above the height-adjusting lighting device, and is connected to the height-adjusting lighting device and the anti-direct solar device. A controller is arranged on the side of the height-adjusting lighting device, and is arranged on the ground, and the controller is electrically connected to the height-adjusting lighting device, the anti-direct solar device, and the spray cleaning device. When the garden light is used for lighting at night, the device can adjust the light source height of the garden light, and at the same time, block and reflect the light source, thereby controlling the lighting range, preventing glare caused by looking directly at the light source, and during the day, the device can also use sunlight to generate electricity, and at the same time, water the surrounding flowers and plants and clean the light energy board.

Description

Multifunctional garden lamp

Technical Field

The invention relates to the technical field of garden lamps, in particular to a multifunctional garden lamp.

Background

A garden lamp is one type of outdoor lighting fixture, typically referred to as an outdoor roadway lighting fixture below 6 meters. The landscape garden lamp mainly comprises a light source, a lamp post and the like, has diversity and attractive appearance, and can beautify and decorate the environment, so the landscape garden lamp is also called.

The garden lamp is mainly applied to outdoor illumination of public places such as urban slow lanes, narrow lanes, residential communities, tourist attractions, parks, squares and the like, can prolong the outdoor activity time of people and improve the safety of property.

In the prior art, as the requirements of people on comfort level are higher and higher, the multifunctional garden lamp is arranged at the place of the intersection, and due to the height, the road man is directly penetrated into eyes by the glaring light of the road man to generate dizzy when passing by, and meanwhile, when the light energy plate is utilized to generate clean energy, dust is accumulated on the surface of the light energy plate after a period of use, so that the power generation efficiency is reduced, and a plurality of flowers and plants can be planted around the garden lamp to improve the aesthetic property. Therefore, in order to solve the technical problems, a multifunctional garden lamp is provided.

Disclosure of Invention

The invention aims to solve the technical problems that when a garden lamp is used for illumination at night, the equipment can adjust the height of a light source of the garden lamp, and simultaneously shade and reflect light of the light source, so that the illumination range is controlled, the direct-vision light source is prevented from glare, and when the garden lamp is used for illumination, the equipment can also use sunlight for power generation, and simultaneously water flowers and plants around and clean a light energy plate.

The invention solves the technical problems by adopting a technical scheme that the multifunctional garden lamp comprises a height adjusting lighting device, a direct-prevention solar device, a spraying cleaning device and a controller.

The height-adjusting lighting device is arranged on the ground. The louver solar device is arranged on the height adjustment lighting device and is connected with the height adjustment lighting device. The spray cleaning device is arranged above the height adjusting device and is connected with the height adjusting lighting device and the anti-direct solar device. The controller is arranged on the side of the height-adjusting lighting device and on the ground, and is electrically connected with the height-adjusting lighting device, the anti-direct solar device and the spray cleaning device.

When the user wants to illuminate, the user can start the height-adjusting illuminating device, after the height-adjusting illuminating device is started, the height-adjusting illuminating device emits light, when the user wants to adjust the illuminating height, the user can adjust the height of the height-adjusting illuminating device through the controller and drive the anti-direct solar device to act, the height of the height-adjusting illuminating device is adjusted to be high, and the illuminating range of the height-adjusting illuminating device is enlarged or reduced. And the louver solar device can change the height of the lighting device along with the height adjustment after the louver solar device acts, so as to adjust the blocking size of the lighting part of the pair and reflect the blocked light to the bottom surface. Therefore, the user is prevented from directly seeing the light source of the height-adjusting lighting device to generate dazzling and dizzy.

And at the same time, during daytime, the user can adjust the height of the lighting device by adjusting the height, so that the height of the solar device can be adjusted, and the solar device can be always irradiated by the sun. And the power generation efficiency is improved.

When a user starts the spray cleaning device and adjusts the height of the height adjusting lighting device, water can be sprayed on flowers and plants around and the anti-direct solar device after the spray cleaning device is started, the height of the adjusting lighting device is adjusted to drive the height of the spray cleaning device to be adjusted, dust and water drops on the surface of the anti-direct solar device can be cleaned by adjusting the height of the spray cleaning device, and therefore normal work of the anti-direct solar device is guaranteed.

The function realizes that when the garden lamp is used for illumination at night, the device can adjust the height of the light source of the garden lamp, and simultaneously shade and reflect the light source, thereby controlling the illumination range, the device can also utilize sunlight to generate electricity during daytime, and has the technical effects of watering flowers and plants around and cleaning the solar energy plate.

Further, the height-adjusting lighting device comprises a base, a driving motor, a threaded rod, a locking lamp post, a telescopic rod, a plurality of first sliding blocks, a plurality of lighting lamps and a plurality of connecting rods.

The base is arranged on the ground.

The driving motor is arranged inside the base and fixedly connected with the inner bottom surface of the base, and the driving motor is electrically connected with the controller.

The locking lamp pole is hollow inside and vertically arranged above the base, and the bottom end is fixedly connected with the top surface of the base.

The telescopic link is inside cavity, vertical setting is in the top of locking lamp pole, and the bottom runs through the top of locking lamp pole to extend to the locking lamp pole inside, the telescopic link is through the inner wall sliding connection of a plurality of first sliders and locking lamp pole, the axis coincidence of telescopic link and locking lamp pole is provided with the screw thread on the telescopic link inner wall, telescopic link, a plurality of first sliders still are connected with the solar device that prevents directly.

The threaded rod is vertically arranged inside the locking lamp post, and the top end penetrates through the bottom surface of the telescopic rod and extends to the inside of the telescopic rod, and is meshed with the inner wall threads of the telescopic rod.

The connecting rods are respectively arranged on the sides of the telescopic rods and are positioned above the locking lamp posts, and the connecting rods are respectively fixedly connected with the top end sides of the telescopic rods.

The plurality of illuminating lamps are respectively arranged above the connecting rods and are respectively fixedly connected with the side faces of the plurality of connecting rods, and the plurality of illuminating lamps are respectively electrically connected with the controller.

When a user wants to illuminate at night, the user can start a plurality of illuminating lamps through the controller, and after the plurality of illuminating lamps are started, the plurality of illuminating lamps can emit light. Thereby providing a bright ambient environment.

When the user wants to adjust the illumination height, the user can start the driving motor to rotate forward or reversely through the controller, after the driving motor rotates forward, the rotating shaft of the driving motor rotates forward to drive the threaded rod to rotate forward, the threaded rod rotates forward to drive the telescopic rod to move upwards, and meanwhile, the first sliding blocks are driven to move upwards in the locking lamp pole, and the first sliding blocks move upwards to drive the anti-direct solar device to move.

When the telescopic link upwards moves, the telescopic link upwards moves and drives a plurality of connecting rods to upwards move, and a plurality of connecting rods upwards move and drive a plurality of illuminating lamps to upwards move, so that the upward height adjustment of a plurality of illuminating lamps is completed.

When a user starts the driving motor to rotate reversely through the controller, the rotating shaft of the driving motor rotates reversely to drive the threaded rod to rotate reversely, the threaded rod rotates reversely to drive the telescopic rod to move downwards, and meanwhile, the first sliding blocks are driven to move downwards in the locking lamp post, and the first sliding blocks move downwards to drive the solar device to move.

When the telescopic link moves downwards, the telescopic link moves downwards to drive a plurality of connecting rods to move downwards, and the plurality of connecting rods move upwards to drive a plurality of illuminating lamps to move downwards, so that the height adjustment of the plurality of illuminating lamps is completed.

Further, the solar device comprises a plurality of solar panels, a plurality of transverse fixing rods, a plurality of diagonal braces, a plurality of first vertical grooves, a plurality of second vertical grooves and vertical fixing rods.

The inside cavity of vertical dead lever, and vertical setting is in the top of telescopic link, and the bottom cover of vertical dead lever is established in the outside of telescopic link, and the top fixed connection of bottom and locking lamp pole, axis of rotation and locking lamp pole's axis coincidence.

The plurality of first vertical grooves are respectively formed in the side parts of the vertical fixing rods and are respectively communicated with the inside of the vertical fixing rods, and the plurality of connecting rods penetrate through the first vertical grooves and are fixedly connected with the plurality of illuminating lamps.

The plurality of transverse fixing rods are respectively arranged on the outer sides of the vertical fixing rods and are positioned above the plurality of illuminating lamps, and one ends of the transverse fixing rods are respectively fixedly connected with the side faces of the transverse fixing rods.

The solar panels are obliquely arranged on the sides of the transverse fixing rods respectively, the side faces close to the vertical fixing rods are respectively connected with the other ends of the transverse fixing rods in a rotating mode, the rotating axis is perpendicular to the axis of the locking lamp post, the side faces of the solar panels close to the transverse fixing rods are made of total reflection materials, and the solar panels are electrically connected with a storage battery of the controller and connected with the spraying cleaning device.

The plurality of second vertical grooves are respectively arranged at the side parts of the locking lamp post, are respectively communicated with the inside of the locking lamp post, and correspond to the positions of the plurality of first sliding blocks.

The plurality of diagonal braces are respectively arranged at the sides of the locking lamp post and are positioned below the plurality of solar panels, one ends of the plurality of diagonal braces respectively penetrate through the plurality of second vertical grooves and are fixedly connected with the side faces of the plurality of first sliding blocks, and the other ends of the plurality of diagonal braces are fixedly connected with the side faces, close to the vertical fixing rods, of the solar panels.

When the plurality of first sliding blocks move upwards, the plurality of first sliding blocks move upwards to drive the plurality of diagonal braces to move upwards, and the plurality of diagonal braces move upwards to push the plurality of solar panels to rotate upwards until the plurality of solar panels rotate to 45 degrees and then stop. The expansion of the lighting area is completed, and the angle of the solar panel is adjusted in daytime, so that the power generation efficiency is improved. Meanwhile, the side face, close to the vertical fixing rod, of the plurality of solar panels is made of total reflection materials, so that light rays irradiated upwards by the plurality of illuminating lamps can be reflected to the ground through the side face, close to the vertical fixing rod, of the plurality of solar panels.

When a plurality of first sliders move downwards, a plurality of first sliders move downwards to drive a plurality of diagonal braces to move downwards, and a plurality of diagonal braces move downwards to pull a plurality of solar panels to rotate downwards until a plurality of solar panels rotate to the original position and then stop, so that a plurality of solar panels can shelter from a plurality of illuminating lamps. Therefore, the lighting area is reduced, the user is prevented from dazzling and dizzy after looking at the lighting lamp directly, and the angle of the solar panel is adjusted in daytime, so that the power generation efficiency is improved.

Further, the spray cleaning device comprises a sprayer, a connecting pipe, a plurality of pull ropes, a vertical jacking rod, a plurality of sliding grooves, a plurality of second sliding blocks and a plurality of cleaning rods.

The vertical jack-up pole is vertical to be set up inside vertical dead lever, and is in the top of telescopic link, and the top surface of vertical jack-up pole runs through the inside top of vertical dead lever to with the top lateral part sliding connection of vertical dead lever, the vertical setting of slip direction, the bottom of vertical jack-up pole and the top fixed connection of telescopic link.

The sprinkler is arranged above the vertical jacking rod, the bottom surface is fixedly connected with the top surface of the vertical jacking rod, and the input port of the sprinkler is communicated with the water supply pipe through a pipeline.

The plurality of sliding grooves are respectively arranged on the plurality of solar panels and are positioned on the side surfaces of the plurality of solar panels, which are far away from the vertical fixing rods, the plurality of sliding grooves respectively divide the side surfaces of the plurality of solar panels, which are far away from the vertical fixing rods, into two equidistant parts, and the arrangement direction is vertical along the side surfaces of the plurality of solar energy.

The second sliding blocks are respectively arranged inside the sliding grooves and are in sliding connection with the sliding grooves, and the sliding direction is along the arrangement direction of the sliding grooves.

The plurality of pull ropes are obliquely arranged above the plurality of solar panels and are positioned at the side of the sprayer, the bottom ends of the plurality of pull ropes are fixedly connected with the side surfaces of the plurality of second sliding blocks, and the top ends of the plurality of pull ropes are fixedly connected with the side surfaces of the sprayer and are positioned below the plurality of spray heads of the sprayer.

The cleaning rods are respectively arranged on the sides of the solar panels and are positioned on the sides of the second sliding blocks, the middle parts of the cleaning rods are respectively fixedly connected with the sides of the second sliding blocks, the lengths of the cleaning rods are equal to the widths of the solar panels, and the sides of the cleaning rods are provided with a plurality of brushes.

When the telescopic rod moves downwards, the telescopic rod moves downwards to drive the vertical jacking rod to move downwards, the vertical jacking rod moves downwards to drive the sprayer to move downwards, the sprayer moves downwards to drive a plurality of pull ropes to move downwards, the plurality of pull ropes move downwards to pull a plurality of second sliding blocks to move along a plurality of sliding grooves towards a direction away from the sprayer, the plurality of second sliding blocks move to drive a plurality of cleaning rods to move, and the plurality of cleaning rods can clean dust and water stains on a plurality of solar panels until the sprayer stops.

Further, the device also comprises a first belt wheel, a second belt wheel, fan blades and a rotating rod.

The first belt pulley is arranged inside the base and sleeved on the rotating shaft of the driving motor, and the first belt pulley is fixedly connected with the side surface of the rotating shaft of the driving motor.

The dwang sets up in the side of base, is in between base and the controller, and with setting up subaerial through the fixing base, the dwang rotates with the fixing base to be connected, the vertical setting of axis of rotation.

The second belt pulley is sleeved on the side face of the rotating rod and fixedly connected with the side face of the rotating rod, penetrates through the side face of the base through the belt and is in transmission connection with the first belt pulley.

The fan blade is sleeved on the rotating rod and is positioned above the second belt wheel, and the fan blade is fixedly connected with the side face of the rotating rod.

When the driving motor is started, the rotating shaft of the driving motor rotates to drive the first belt pulley to rotate, the first belt pulley rotates to drive the second belt pulley to rotate through the belt, the second belt pulley rotates to drive the rotating rod to rotate, and the rotating rod can drive the fan blades to rotate. Thereby enabling the fan blades to generate upward wind, and enabling surrounding flying insects to be dispersed.

Further, a plurality of insect-proof and dust-proof covers are respectively sleeved on the surfaces of the illuminating lamps.

The plurality of insect prevention and dust prevention sleeves are arranged on the plurality of illuminating lamps, so that dust and flying insects can be effectively prevented from completely blocking the plurality of illuminating lamps, and the influence on illumination performance is avoided.

Further, the insect-repellent lamp is also included. The insect expelling lamp is arranged at the side of the base and is positioned below the plurality of illuminating lamps, and the insect expelling lamp is fixedly connected with the side face of the base and is electrically connected with the controller.

The user can also start the driving lamp through the controller so as to control the number of surrounding flying insects.

Further, the wind power generation device also comprises a small wind power generation device. The small-sized wind power generation device is arranged above the sprayer and is fixedly connected with the top surface of the sprayer, and the small-sized wind power generation device is electrically connected with the storage battery of the controller.

When the wind blows, the small wind power generation device can convert wind power into electric energy, so that clean energy can be better utilized to generate power.

Further, the spray cleaning device also comprises a water reservoir and a water suction pump.

The cistern sets up in the side that the controller was kept away from to the base, and sets up subaerial.

The water pump is arranged inside the reservoir, the output port of the water pump is communicated with the input port of the pipeline sprayer, and the filter screen is arranged at the input port of the water pump.

When raining, after the rainwater enters into the inside of the reservoir, the user starts the water suction pump, and the water suction pump can pump the water of the reservoir into the sprayer.

Further, the rain sensor is also included. The rainwater sensor is arranged above the sprayer and is positioned at the side of the small wind power generation device, and the rainwater sensor is fixedly connected with the top surface of the sprayer and is electrically connected with the controller.

When raining, rainwater sensor can detect the rainwater and descend, gives the controller with control signal transmission simultaneously, and the controller receives the back, and the controller can control driving motor reversal to this restores a plurality of solar panel to the normal position, and highly reduces a plurality of lights, reduces the illumination scope, improves illumination intensity, avoids the rainwater to add the crowd on every side of light production glare.

The invention has the beneficial effects that:

1. According to the invention, through setting the height-adjusting lighting device, the anti-direct solar device, the spray cleaning device and the controller to mutually match and support, when a user needs to illuminate at night, the height-adjusting lighting device is started, so that not only can the surrounding be provided with light, but also the height of the illuminating lamp can be adjusted, and meanwhile, when the height of the illuminating lamp is adjusted through the height-adjusting lighting device, the height-adjusting lighting device can also drive the anti-direct solar device to act, so that the anti-direct solar device can control the illumination range of illumination, but also can block the illuminating lamp, and glare caused by direct vision of the illuminating lamp by the user can be avoided. And during daytime, the action of the solar device can also control the angle of the solar panel, so that the power generation efficiency of the solar panel is improved. The spraying cleaning device is started and simultaneously cleans the surface of the solar panel under the driving of the height-adjusting lighting device, so that flowers and plants around the device can be sprayed and watered.

Drawings

FIG. 1 is a schematic illustration of the present invention;

FIG. 2 is a cross-sectional view of the locking light pole and base of the present invention;

fig. 3 is a schematic view of a solar panel of the present invention.

The reference numerals comprise 101, a base, 102, a driving motor, 103, a threaded rod, 104, a locking lamp post, 105, a telescopic rod, 106, an illuminating lamp, 107, a connecting rod, 108, a first sliding block, 201, a solar panel, 202, a transverse fixing rod, 203, an inclined supporting rod, 204, a first vertical groove, 205, a vertical fixing rod, 301, a sprayer, 302, a pull rope, 303, a vertical jacking rod, 304, a sliding groove, 305, a second sliding block, 306, a cleaning rod, 401, a fan blade, 402, a rotating rod, 5, an insect expelling lamp, 6, a small-sized wind power generation device and 7, a rainwater sensor.

Detailed Description

The conception and the technical effects produced by the present invention will be clearly and completely described in conjunction with the embodiments below to fully understand the objects, features and effects of the present invention.

Referring to fig. 1-3, a multifunctional garden lamp comprises a height adjusting lighting device, a solar-energy device for preventing direct radiation, a spray cleaning device and a controller.

The height-adjusting lighting device comprises a base 101, a driving motor 102, a threaded rod 103, a locking lamp post 104, a telescopic rod 105, a plurality of first sliding blocks, a plurality of lighting lamps 106 and a plurality of connecting rods 107.

The base 101 is disposed on the ground.

The driving motor 102 is disposed inside the base 101 and is fixedly connected to the bottom surface inside the base 101, and the driving motor 102 is further electrically connected to the controller.

The locking lamp pole 104 is hollow and vertically arranged above the base 101, and the bottom end is fixedly connected with the top surface of the base 101.

The telescopic link 105 is inside cavity, vertical setting is in the top of locking lamp pole 104, and the bottom runs through the top of locking lamp pole 104 to extend to locking lamp pole 104 inside, telescopic link 105 through a plurality of first sliders and locking lamp pole 104's inner wall sliding connection, the axis coincidence of telescopic link 105 and locking lamp pole 104, is provided with the screw thread on the telescopic link 105 inner wall, telescopic link 105, a plurality of first sliders still are connected with the solar device that prevents directly.

The threaded rod 103 is vertically arranged inside the locking lamp post 104, and the top end penetrates through the bottom surface of the telescopic rod 105, extends into the telescopic rod 105 and is in threaded engagement with the inner wall of the telescopic rod 105.

The connecting rods 107 are respectively arranged at the sides of the telescopic rods 105 and above the locking lamp posts 104, and the connecting rods 107 are respectively fixedly connected with the top end sides of the telescopic rods 105.

The plurality of illuminating lamps 106 are respectively arranged above the connecting rods 107 and are respectively fixedly connected with the side surfaces of the plurality of connecting rods 107, and the plurality of illuminating lamps 106 are respectively electrically connected with the controller.

When the user wants to illuminate at night, the user can start a plurality of illuminating lamps 106 through the controller, and after the plurality of illuminating lamps 106 are started, the plurality of illuminating lamps 106 can emit light. Thereby providing a bright ambient environment.

When the user wants to adjust the illumination height, the user can start the driving motor 102 to rotate forward or reversely through the controller, after the driving motor 102 rotates forward, the rotating shaft of the driving motor 102 rotates forward to drive the threaded rod 103 to rotate forward, the threaded rod 103 rotates forward to drive the telescopic rod 105 to move upwards, meanwhile, the plurality of first sliding blocks 108 are driven to move upwards in the locking lamp post 104, and the plurality of first sliding blocks move upwards to drive the anti-direct solar device to move.

When the telescopic rod 105 moves upwards, the telescopic rod 105 moves upwards to drive the connecting rods 107 to move upwards, and the connecting rods 107 move upwards to drive the illuminating lamps 106 to move upwards, so that the upward height adjustment of the illuminating lamps 106 is completed.

When the user starts the driving motor 102 to rotate reversely through the controller, after the driving motor 102 rotates reversely, the rotating shaft of the driving motor 102 rotates reversely to drive the threaded rod 103 to rotate reversely, the threaded rod 103 rotates reversely to drive the telescopic rod 105 to move downwards, and meanwhile, the first sliding blocks 108 are driven to move downwards in the locking lamp post 104, and the first sliding blocks move downwards to drive the anti-direct solar device to move.

When the telescopic rod 105 moves downwards, the telescopic rod 105 moves downwards to drive the connecting rods 107 to move downwards, and the connecting rods 107 move upwards to drive the illuminating lamps 106 to move downwards, so that the height adjustment of the illuminating lamps 106 is completed.

The solar device comprises a number of solar panels 201, a number of transverse fixing bars 202, a number of diagonal bars 203, a number of first vertical grooves 204, a number of second vertical grooves, vertical fixing bars 205.

The inside of vertical dead lever 205 is cavity, and vertical setting is in the top of telescopic link 105, and the bottom cover of vertical dead lever 205 is established in the outside of telescopic link 105, and the top fixed connection of bottom and locking lamp pole 104, axis of rotation and locking lamp pole 104's axis coincidence.

The plurality of first vertical grooves 204 are respectively arranged on the side parts of the vertical fixing rods 205 and are respectively communicated with the inside of the vertical fixing rods 205, and the plurality of connecting rods 107 penetrate through the first vertical grooves 204 and are fixedly connected with the plurality of illuminating lamps 106.

The plurality of transverse fixing rods 202 are respectively arranged on the outer sides of the vertical fixing rods 205 and above the plurality of illuminating lamps 106, and one ends of the transverse fixing rods 202 are respectively fixedly connected with the side faces of the transverse fixing rods 202.

The solar panels 201 are obliquely arranged on the sides of the transverse fixing rods 202 respectively, the side faces close to the vertical fixing rods 205 are connected with the other ends of the transverse fixing rods 202 in a rotating mode respectively, the rotating axis is perpendicular to the axis of the locking lamp post 104, the side faces of the solar panels 201 close to the transverse fixing rods 202 are made of total reflection materials, and the solar panels 201 are electrically connected with a storage battery of a controller and connected with a spray cleaning device.

The plurality of second vertical grooves are respectively arranged at the side parts of the locking lamp pole 104, are respectively communicated with the inside of the locking lamp pole 104, and are respectively corresponding to the positions of the plurality of first sliding blocks.

The plurality of diagonal braces 203 are respectively arranged at the side of the locking lamp post 104 and are positioned below the plurality of solar panels 201, one ends of the plurality of diagonal braces 203 respectively penetrate through the plurality of second vertical grooves and are fixedly connected with the side surfaces of the plurality of first sliding blocks, and the other ends of the plurality of diagonal braces 203 are fixedly connected with the side surfaces, close to the vertical fixing rods 205, of the solar panels 201.

When the plurality of first sliding blocks move upwards, the plurality of first sliding blocks move upwards to drive the plurality of diagonal braces 203 to move upwards, and the plurality of diagonal braces 203 move upwards to push the plurality of solar panels 201 to rotate upwards until the plurality of solar panels 201 rotate to 45 degrees and then stop. This completes the expansion of the lighting area and makes the solar panel 201 angle-adjusted during the daytime, thereby improving the power generation efficiency. Meanwhile, the side surfaces of the solar panels 201, which are close to the vertical fixing rods 205, are made of total reflection materials, so that light rays irradiated upwards by the illuminating lamps 106 can be reflected to the ground through the side surfaces of the solar panels 201, which are close to the vertical fixing rods 205.

When the plurality of first sliding blocks move downwards, the plurality of first sliding blocks move downwards to drive the plurality of diagonal braces 203 to move downwards, the plurality of diagonal braces 203 move downwards to pull the plurality of solar panels 201 to rotate downwards until the plurality of solar panels 201 rotate to the original position and then stop, so that the plurality of solar panels 201 can shade the plurality of illuminating lamps 106. The reduction of the lighting area is completed, the dazzling and dizzy of the user is prevented after the user directly views the lighting lamp 106, and the angle of the solar panel 201 is adjusted in daytime, so that the power generation efficiency is improved.

The spray cleaning device comprises a sprayer 301, a connecting pipe, a plurality of pull ropes 302, a vertical jacking rod 303, a plurality of sliding grooves 304, a plurality of second sliding blocks 305 and a plurality of cleaning rods 306.

Vertical jack-up pole 303 vertical setting is inside vertical dead lever 205, and is in the top of telescopic link 105, and the top surface of vertical jack-up pole 303 runs through the inside top of vertical dead lever 205 to with the top lateral part sliding connection of vertical dead lever 205, the vertical setting of slip direction, the bottom of vertical jack-up pole 303 and the top fixed connection of telescopic link 105.

The sprinkler 301 is disposed above the vertical jack-up bar 303, and the bottom surface is fixedly connected with the top surface of the vertical jack-up bar 303, and the input port of the sprinkler 301 is communicated with the water supply pipe through a pipe.

The plurality of sliding grooves 304 are respectively arranged on the plurality of solar panels 201 and are positioned on the side surfaces of the plurality of solar panels 201 far away from the vertical fixing rods 205, the plurality of sliding grooves 304 respectively divide the side surfaces of the plurality of solar panels 201 far away from the vertical fixing rods 205 into two equidistant parts, and the arrangement direction is vertical along the side surfaces of the plurality of solar energy.

The second sliding blocks 305 are respectively disposed inside the sliding grooves 304 and slidably connected with the sliding grooves 304, and the sliding direction is along the setting direction of the sliding grooves 304.

The plurality of pull ropes 302 are respectively and obliquely arranged above the plurality of solar panels 201 and are positioned at the side of the sprinkler 301, the bottom ends of the plurality of pull ropes 302 are fixedly connected with the side surfaces of the plurality of second sliding blocks 305, and the top ends of the plurality of pull ropes 302 are fixedly connected with the side surfaces of the sprinkler 301 and are positioned below the plurality of sprinkler heads of the sprinkler 301.

The plurality of cleaning rods 306 are respectively arranged on the sides of the plurality of solar panels 201 and are positioned on the sides of the plurality of second sliding blocks 305, the middle parts of the plurality of cleaning rods 306 are respectively fixedly connected with the sides of the plurality of second sliding blocks 305, the lengths of the plurality of cleaning rods 306 are equal to the widths of the plurality of solar panels 201, and a plurality of hairbrushes are arranged on the sides of the plurality of cleaning rods 306.

When the telescopic rod 105 moves downwards, the telescopic rod 105 moves downwards to drive the vertical jacking rod 303 to move downwards, the vertical jacking rod 303 moves downwards to drive the sprayer 301 to move downwards, the sprayer 301 moves downwards to drive the pull ropes 302 to move downwards, the pull ropes 302 move downwards to pull the second sliding blocks 305 to move along the sliding grooves 304 in a direction away from the sprayer 301, the second sliding blocks 305 move to drive the cleaning rods 306 to move, and the cleaning rods 306 move to clean dust and water stains on the solar panels 201 until the sprayer 301 stops.

The fan also comprises a first belt wheel, a second belt wheel, fan blades 401 and a rotating rod 402.

The first belt pulley is arranged inside the base 101 and sleeved on the rotating shaft of the driving motor 102, and the first belt pulley is fixedly connected with the side surface of the rotating shaft of the driving motor 102.

The dwang 402 sets up in the side of base 101, is in between base 101 and the controller, and with set up subaerial through the fixing base, dwang 402 rotates with the fixing base to be connected, the vertical setting of axis of rotation.

The second belt pulley is sleeved on the side surface of the rotating rod 402 and fixedly connected with the side surface of the rotating rod 402, and penetrates through the side surface of the base 101 through a belt and is in transmission connection with the first belt pulley.

The fan blade 401 is sleeved on the rotating rod 402 and is positioned above the second belt wheel, and the fan blade 401 is fixedly connected with the side face of the rotating rod 402.

When the driving motor 102 is started, the rotation shaft of the driving motor 102 rotates to drive the first belt pulley to rotate, the first belt pulley rotates to drive the second belt pulley to rotate through the belt, the second belt pulley rotates to drive the rotation rod 402 to rotate, and the rotation rod 402 rotates to drive the fan blades 401 to rotate. This allows the fan blades 401 to generate upward wind so that surrounding flying insects can be dispersed.

The surfaces of a plurality of illuminating lamps 106 are respectively a plurality of insect-proof and dust-proof covers are sleeved.

The plurality of insect prevention and dust prevention sleeves are arranged on the plurality of illuminating lamps 106, so that dust and flying insects can be effectively prevented from completely blocking the plurality of illuminating lamps 106, and the illumination performance is prevented from being influenced.

Also comprises an insect expelling lamp 5. The insect-repellent lamp 5 is arranged at the side of the base 101 and below the plurality of illuminating lamps 106, and the insect-repellent lamp 5 is fixedly connected with the side of the base 101 and is electrically connected with the controller.

Also comprises a small wind power generation device 6. The small-sized wind power generation device 6 is arranged above the sprinkler 301 and fixedly connected with the top surface of the sprinkler 301, and the small-sized wind power generation device 6 is also electrically connected with a storage battery of the controller.

During wind blowing, the small wind power generation device 6 can convert wind power into electric energy, so that clean energy can be better utilized for generating electricity.

The spray cleaning device also comprises a reservoir and a water pump.

The reservoir is disposed on the side of the base 101 remote from the controller and on the ground.

The water pump is arranged inside the reservoir, the output port of the water pump is communicated with the input port of the pipeline sprayer 301, and a filter screen is arranged at the input port of the water pump.

When raining, after rainwater enters the reservoir, a user starts the water pump, and the water pump can pump water of the reservoir into the sprinkler 301.

Also included is a rain sensor 7. The rain sensor 7 is disposed above the sprinkler 301 and beside the small wind power generation device 6, and the rain sensor 7 is fixedly connected with the top surface of the sprinkler 301 and electrically connected with the controller.

When raining, the rainwater sensor 7 can detect rainwater and drop, meanwhile, control signals are transmitted to the controller, after the controller receives the rainwater, the controller can control the driving motor 102 to rotate reversely, so that the solar panels 201 are restored to the original positions, the heights of the illuminating lamps 106 are reduced, the illumination range is shortened, the illumination intensity is improved, and glare of the rainwater and lamplight to surrounding people is avoided.

The working process comprises the following steps:

When the user wants to expand the illumination range and the height or adjust the angle of the solar panel 201, the user can start the driving motor 102 to rotate forward through the controller, after the driving motor 102 rotates forward, the rotating shaft of the driving motor 102 rotates forward to drive the threaded rod 103 to rotate forward and drive the first belt wheel to rotate forward, the threaded rod 103 rotates forward to drive the telescopic rod 105 to move up to the highest point, and drive the plurality of first sliding blocks 108 to move up in the locking lamp post 104, the plurality of first sliding blocks move up to drive the plurality of inclined supporting rods 203 to move up, and the plurality of inclined supporting rods 203 move up to push the plurality of solar panels 201 to rotate up until the plurality of solar panels 201 rotate to 45 degrees. This completes the expansion of the lighting area and makes the solar panel 201 angle-adjusted during the daytime, thereby improving the power generation efficiency.

When the first belt wheel rotates positively, the first belt path drives the second belt wheel to rotate positively through the belt, the second belt wheel rotates to drive the rotating rod 402 to rotate positively, and the rotating rod 402 rotates to drive the fan blades 401 to rotate positively. This allows the fan blades 401 to generate upward wind so that surrounding flying insects can be dispersed.

When the telescopic rod 105 moves upwards to the highest point, the telescopic rod 105 moves upwards to drive the plurality of connecting rods 107 to move upwards and drive the vertical jacking rod 303 to move upwards, and the plurality of connecting rods 107 move upwards to drive the plurality of illuminating lamps 106 to move upwards until the telescopic rod 105 moves to the highest point, so that the upward height adjustment of the plurality of illuminating lamps 106 is completed.

When the vertical jacking bar 303 is moved upward and the user wants to water the surrounding flowers and plants and clean the solar panel 201. The user activates the sprayer 301 through the controller, and the sprayer 301 is activated to spray water onto the surrounding flowers and plants and the several solar panels 201. The upward movement of the vertical lifting rod 303 drives the sprayer 301 to move upwards, the upward movement of the sprayer 301 drives the plurality of pull ropes 302 to move upwards, the upward movement of the plurality of pull ropes 302 pulls the plurality of second sliding blocks 305 to move along the plurality of sliding grooves 304 towards the direction of the sprayer 301, the movement of the plurality of second sliding blocks 305 drives the plurality of cleaning rods 306 to move, the movement of the plurality of cleaning rods 306 can clean dust and water stains on the plurality of solar panels 201 until the vertical lifting rod 303 stops moving, and a user can stop driving the motor 102 and the sprayer 301 through a controller at the moment, so that watering and illumination range adjustment of flowers and plants, cleaning and angle adjustment work of the solar panels 201 are completed.

When the user wants to reduce the illumination range and the height or to adjust the angle of the solar panel 201, the user starts the driving motor 102 to rotate reversely through the controller, after the driving motor 102 rotates reversely, the rotating shaft of the driving motor 102 rotates reversely to drive the threaded rod 103 to rotate reversely and drive the first belt pulley to rotate reversely, the threaded rod 103 rotates reversely to drive the telescopic rod 105 to move downwards, meanwhile, the plurality of first sliding blocks 108 are driven to move downwards in the locking lamp post 104, the plurality of first sliding blocks 108 move downwards to drive the plurality of diagonal braces 203 to move downwards, and the plurality of diagonal braces 203 move downwards to pull the plurality of solar panels 201 to rotate downwards until the plurality of solar panels 201 rotate to the original position and then stop, so that the plurality of solar panels 201 can shield the plurality of illumination lamps 106. Thus, the reduction of the lighting area is completed, the dazzling and dizzy of the user is prevented after the user directly views the lighting lamp 106, and the solar panel 201 is restored to the original position or the angle is adjusted, so that the power generation efficiency is improved.

When the first belt wheel rotates reversely, the first belt wheel rotates reversely to drive the second belt wheel to rotate reversely through the belt, the second belt wheel rotates reversely to drive the rotating rod 402 to rotate reversely, and the rotating rod 402 rotates reversely to drive the fan blades 401 to rotate reversely. This allows the fan blades 401 to generate downward wind so that surrounding flying insects can be dispersed.

When the telescopic rod 105 moves downwards, the telescopic rod 105 moves downwards to drive the plurality of connecting rods 107 to move downwards and drive the vertical jacking rod 303 to move downwards, and the plurality of connecting rods 107 move downwards to drive the plurality of illuminating lamps 106 to move downwards, so that the height adjustment of the plurality of illuminating lamps 106 is completed.

When the vertical jack-up bar 303 moves downward and the sprinkler 301 is activated by the controller, the sprinkler 301 is activated to be able to spray on the surrounding flowers and plants as well as the solar panel 201. The vertical jack-up pole 303 moves down and drives the sprinkler 301 to move down, the sprinkler 301 moves down to adjust the spraying area and drives the pull ropes 302 to move down, the pull ropes 302 move down and pull the second sliding blocks 305 to move along the sliding grooves 304 in the direction away from the sprinkler 301, the second sliding blocks 305 move and drive the cleaning rods 306 to move, the cleaning rods 306 move and clean dust and water stains on the solar panels 201 until the second sliding blocks 305 return to the original positions, and a user can stop driving the motor 102 and the sprinkler 301 at the moment to finish watering flowers and plants, adjusting the illumination range and cleaning and angle adjusting the solar panels 201.

When raining, after rainwater enters the water storage tank, a user starts the water suction pump, and the water suction pump can pump water of the water storage tank into the sprinkler 301, so that water is supplied to the interior of the sprinkler 301.

The above-described embodiments are only some embodiments, but not all embodiments, of the present invention, and other embodiments, which are obtained by those skilled in the art without any inventive effort, are within the scope of the present invention.

Claims

1. The multifunctional garden lamp is characterized by comprising a height adjusting lighting device, a solar energy device for preventing direct radiation, a spray cleaning device and a controller;

The height adjusting lighting device is arranged on the ground, the anti-direct solar device is arranged on the height adjusting lighting device and is connected with the height adjusting lighting device, the spraying cleaning device is arranged above the height adjusting lighting device and is connected with the height adjusting lighting device and the anti-direct solar device, the controller is arranged on the side of the height adjusting lighting device and is arranged on the ground, and the controller is electrically connected with the height adjusting lighting device, the anti-direct solar device and the spraying cleaning device.

2. The multifunctional garden lamp as claimed in claim 1, wherein the height adjusting lighting device comprises a base (101), a driving motor (102), a threaded rod (103), a locking lamp post (104), a telescopic rod (105), a plurality of first sliding blocks, a plurality of illuminating lamps (106) and a plurality of connecting rods (107);

the base (101) is arranged on the ground;

The driving motor (102) is arranged inside the base (101) and is fixedly connected with the inner bottom surface of the base (101), and the driving motor (102) is also electrically connected with the controller;

The locking lamp post (104) is hollow, is vertically arranged above the base (101), and the bottom end of the locking lamp post is fixedly connected with the top surface of the base (101);

The telescopic rod (105) is hollow, vertically arranged above the locking lamp post (104), the bottom end of the telescopic rod penetrates through the top end of the locking lamp post (104) and extends into the locking lamp post (104), the telescopic rod (105) is in sliding connection with the inner wall of the locking lamp post (104) through a plurality of first sliding blocks, the axis of the telescopic rod (105) coincides with the axis of the locking lamp post (104), threads are arranged on the inner wall of the telescopic rod (105), and the telescopic rod (105) and the plurality of first sliding blocks are also connected with the anti-direct solar device;

The threaded rod (103) is vertically arranged inside the locking lamp post (104), and the top end of the threaded rod penetrates through the bottom surface of the telescopic rod (105) and extends into the telescopic rod (105) and is meshed with the inner wall threads of the telescopic rod (105);

The connecting rods (107) are respectively arranged at the side of the telescopic rod (105) and above the locking lamp post (104), and the connecting rods (107) are respectively and fixedly connected with the top end side of the telescopic rod (105);

the illuminating lamps (106) are respectively arranged above the connecting rods (107) and are respectively fixedly connected with the side faces of the connecting rods (107), and the illuminating lamps (106) are respectively and electrically connected with the controller.

3. The multifunctional garden lamp as claimed in claim 2, wherein the solar anti-direct-irradiation device comprises a plurality of solar panels (201), a plurality of transverse fixing rods (202), a plurality of diagonal rods (203), a plurality of first vertical grooves (204), a plurality of second vertical grooves and vertical fixing rods (205);

the inside of the vertical fixing rod (205) is hollow, the vertical fixing rod is vertically arranged above the telescopic rod (105), the bottom end of the vertical fixing rod (205) is sleeved on the outer side of the telescopic rod (105), the bottom end of the vertical fixing rod is fixedly connected with the top end of the locking lamp rod (104), and the rotation axis is coincident with the axis of the locking lamp rod (104);

The plurality of first vertical grooves (204) are respectively arranged at the side parts of the vertical fixing rods (205) and are respectively communicated with the interiors of the vertical fixing rods (205), and the plurality of connecting rods (107) penetrate through the first vertical grooves (204) to be fixedly connected with the plurality of illuminating lamps (106);

The transverse fixing rods (202) are respectively arranged on the outer sides of the vertical fixing rods (205), are positioned above the illuminating lamps (106), and one ends of the transverse fixing rods are respectively fixedly connected with the side surfaces of the transverse fixing rods (202);

The solar panels (201) are obliquely arranged on the sides of the transverse fixing rods (202) respectively, the sides close to the vertical fixing rods (205) are rotationally connected with the other ends of the transverse fixing rods (202) respectively, the rotation axis is perpendicular to the axis of the locking lamp post (104), the sides of the solar panels (201) close to the transverse fixing rods (202) are made of total reflection materials, and the solar panels (201) are electrically connected with the storage battery of the controller and are connected with the spray cleaning device;

the second vertical grooves are respectively arranged at the side parts of the locking lamp post (104), are respectively communicated with the inside of the locking lamp post (104), and correspond to the positions of the first sliding blocks respectively;

the inclined stay bars (203) are respectively arranged at the sides of the locking lamp posts (104) and are positioned below the solar panels (201), one ends of the inclined stay bars (203) respectively penetrate through the second vertical grooves and are fixedly connected with the side faces of the first sliding blocks, and the other ends of the inclined stay bars are fixedly connected with the side faces, close to the vertical fixing rods (205), of the solar panels (201).

4. The multifunctional garden lamp as claimed in claim 3, wherein the spray cleaning device comprises a sprayer (301), a connecting pipe, a plurality of pull ropes (302), a vertical jacking rod (303), a plurality of sliding grooves (304), a plurality of second sliding blocks (305) and a plurality of cleaning rods (306);

The vertical jacking rod (303) is vertically arranged inside the vertical fixing rod (205) and is positioned above the telescopic rod (105), the top surface of the vertical jacking rod (303) penetrates through the top end inside the vertical fixing rod (205) and is in sliding connection with the side part of the top end of the vertical fixing rod (205), the sliding direction is vertically arranged, and the bottom end of the vertical jacking rod (303) is fixedly connected with the top end of the telescopic rod (105);

the sprayer (301) is arranged above the vertical jacking rod (303), the bottom surface of the sprayer is fixedly connected with the top surface of the vertical jacking rod (303), and an input port of the sprayer (301) is communicated with a water supply pipe through a pipeline;

the sliding grooves (304) are respectively arranged on the solar panels (201) and are positioned on the side surfaces of the solar panels (201) away from the vertical fixing rods (205), the sliding grooves (304) respectively divide the side surfaces of the solar panels (201) away from the vertical fixing rods (205) into two equidistant parts, and the arrangement direction is vertical along the side surfaces of the solar panels;

The second sliding blocks (305) are respectively arranged inside the sliding grooves (304) and are in sliding connection with the sliding grooves (304), and the sliding direction is along the arrangement direction of the sliding grooves (304);

The pull ropes (302) are obliquely arranged above the solar panels (201) and are positioned at the side of the sprayer (301), the bottom ends of the pull ropes (302) are fixedly connected with the side surfaces of the second sliding blocks (305), and the top ends of the pull ropes are fixedly connected with the side surfaces of the sprayer (301) and are positioned below the spray heads of the sprayer (301);

the cleaning rods (306) are respectively arranged on the sides of the solar panels (201) and are positioned on the sides of the second sliding blocks (305), the middle parts of the cleaning rods (306) are respectively fixedly connected with the sides of the second sliding blocks (305), the lengths of the cleaning rods (306) are equal to the widths of the solar panels (201), and the sides of the cleaning rods (306) are provided with brushes.

5. The multifunctional garden lamp as claimed in claim 2, further comprising a first belt wheel, a second belt wheel, a belt, fan blades (401) and a rotating rod (402);

the first belt pulley is arranged in the base (101) and sleeved on a rotating shaft of the driving motor (102), and the first belt pulley is fixedly connected with the side surface of the rotating shaft of the driving motor (102);

The rotating rod (402) is arranged at the side of the base (101), is positioned between the base (101) and the controller, and is arranged on the ground through a fixed seat, the rotating rod (402) is rotationally connected with the fixed seat, and the rotating axis is vertically arranged;

the second belt wheel is sleeved on the side surface of the rotating rod (402) and fixedly connected with the side surface of the rotating rod (402), and penetrates through the side surface of the base (101) through a belt and is in transmission connection with the first belt wheel;

the fan blade (401) is sleeved on the rotating rod (402) and is positioned above the second belt wheel, and the fan blade (401) is fixedly connected with the side face of the rotating rod (402).

6. The multifunctional garden lamp as claimed in claim 2, wherein a plurality of insect-proof and dust-proof covers are respectively sleeved on the surfaces of the illuminating lamps (106).

7. The multifunctional garden lamp as claimed in claim 2, further comprising an insect expelling lamp (5), wherein the insect expelling lamp (5) is arranged at the side of the base (101) and below the plurality of illuminating lamps (106), and the insect expelling lamp (5) is fixedly connected with the side of the base (101) and is electrically connected with the controller.

8. The multifunctional garden lamp as claimed in claim 4, further comprising a small wind power generation device (6), wherein the small wind power generation device (6) is arranged above the sprayer (301) and is fixedly connected with the top surface of the sprayer (301), and the small wind power generation device (6) is further electrically connected with a storage battery of the controller.

9. The multifunctional garden lamp as claimed in claim 4, wherein the spray cleaning device further comprises a water reservoir and a water suction pump;

The reservoir is arranged at the side of the base (101) far away from the controller and is arranged on the ground;

The water pump is arranged inside the reservoir, the output port of the water pump is communicated with the input port of the sprayer (301) through a pipeline, and a filter screen is arranged at the input port of the water pump.

10. The multifunctional garden lamp as claimed in claim 8, further comprising a rain sensor (7), wherein the rain sensor (7) is arranged above the sprinkler (301) and beside the small wind power generation device (6), and the rain sensor (7) is fixedly connected with the top surface of the sprinkler (301) and electrically connected with the controller.