CN113310017B

CN113310017B - Multifunctional solar lawn lamp

Info

Publication number: CN113310017B
Application number: CN202110607037.0A
Authority: CN
Inventors: 陈建锋; 严艳; 陈国兴; 朱淼
Original assignee: Zhejiang Hong Wah Technology Co ltd
Current assignee: Zhejiang Hong Wah Technology Co ltd
Priority date: 2021-05-28
Filing date: 2021-05-28
Publication date: 2022-07-29
Anticipated expiration: 2041-05-28
Also published as: CN113310017A

Abstract

The invention discloses a multifunctional solar lawn lamp, which comprises a water-controlling irrigation device, a second control device, a detachable device and a power generation device, wherein the water-controlling irrigation device is connected with the second control device; the power generation device comprises a solar high-efficiency power generation panel, a power generation panel control assembly, a water spraying assembly and a second water pipe; the water control irrigation device is arranged to irrigate the nearby lawn without dead angles; the control device is arranged to avoid the lawn from being damaged and cool the solar efficient power generation panel; the detachable device is arranged, so that the guidepost on the lawn lamp can be replaced to better guide pedestrians; through the arrangement of the power generation board control assembly, the lawn lamp illuminates at night and gives way to pedestrians, and the power generation efficiency is increased while the lawn is irrigated during power generation and storage in the daytime.

Description

Multifunctional solar lawn lamp

Technical Field

The invention belongs to the technical field of lighting equipment, and particularly relates to a multifunctional solar lawn lamp.

Background

Lawn lamps are lighting devices commonly used in places such as districts, parks, green sidewalks and the like. The lawn lamp is short and lower than the height of the garden lamp, is arranged on the lawn and close to a sidewalk when in use, provides illumination for pedestrians and plays a role in beautifying;

The existing lawn lamp has a simpler structure and a single function; when solar energy is used for heating for a long time, the power generation panel can be heated, and the heating efficiency is influenced; the facilities for watering the lawn and guiding the way for passers-by are messy and need to be further promoted.

Disclosure of Invention

The multifunctional solar lawn lamp provided by the invention can be used for irrigating a lawn and guiding a passerby to the lawn, and has higher solar power generation efficiency.

In order to achieve the purpose, the invention adopts the following technical scheme: the multifunctional solar lawn lamp comprises a base, a waterproof plate arranged above the base, a first rotating piece fixedly arranged above the waterproof plate, a motor arranged between the base and the waterproof plate and used for driving the first rotating piece to rotate, a first control device arranged inside the first rotating piece and connected with the base, a first through hole and a second through hole arranged at two sides of the first rotating piece, and a water control irrigation device connected with the first control device and used for controlling the communication of the first through hole, the second control device is connected with the first control device and used for controlling the communication of the second through hole, the water storage tank is arranged between the first through hole and the second through hole, the lamp shade is arranged above the first rotating piece, the illuminating lamp is arranged in the lamp shade and used for illuminating, the detachable device is arranged above the illuminating lamp, the power generation device is arranged above the detachable device, and the first water pipe is communicated with the second through hole and the power generation device; the water storage tank is provided with a third through hole communicated with the first through hole and a fourth through hole communicated with the second through hole; the water control irrigation device comprises a first water control plate which is arranged at the first through hole in a sliding mode and used for blocking the first through hole; the first control device comprises a fixed mandrel fixed above the base, a first helical gear fixed on the fixed mandrel, a second helical gear meshed with the first helical gear, a second rotating shaft fixed on the second helical gear and rotatably arranged on the inner wall of the first rotating member, an incomplete gear arranged on the second rotating shaft, a third gear meshed with the incomplete gear, an inertia-proof assembly connected to the inner wall of the first rotating member and matched with the third gear, and a connecting rod assembly connected to the third gear; the detachable device comprises a first transparent plate arranged above the lampshade, a second transparent plate detachably arranged above the first transparent plate, a first rod piece arranged below the first transparent plate, an object carrying plate arranged below the first rod piece, and a first spring arranged between the object carrying plate and the first transparent plate; the power generation device comprises two solar efficient power generation plates arranged above the first transparent plate, two power generation plate control assemblies arranged on two sides of each solar efficient power generation plate, a water spraying assembly arranged above the power generation plate control assembly at a position close to one side of the second through hole, and a second water pipe communicated with the second through hole and the water spraying assembly; a storage battery for storing electric quantity is arranged in the solar efficient power generation panel; the multifunctional solar lawn lamp generates electricity through the two solar efficient electricity generation plates in the daytime and stores the electricity in the storage battery, then the lawn lamp can be arranged in the middle of the lawn or at the joint of the lawn and the roadside, the storage battery supplies electricity for the motor, the motor drives the first rotating part to rotate, then the first rotating part can drive the lampshade, the first transparent plate and the electricity generation device to rotate, water can continuously flow into the water storage tank along the first water pipe during rotation, then the first rotating part rotates to drive the second rotating shaft to rotate together, then the fixed mandrel and the first helical gear are fixed on the base, so the first helical gear is still, the second helical gear is driven on the first helical gear, so the second helical gear can rotate, then the second helical gear drives the second rotating shaft to rotate, and the second rotating shaft drives the incomplete gear to rotate, the incomplete gear drives the third gear to rotate intermittently, the third gear drives the first water control plate to move through the connecting rod assembly, so that the size of the opening of the first through hole is controlled through the motion of the first water control plate, then the first water control plate moves up and down and drives the second control device to move through the water control irrigation device, when the first water control plate is positioned at the lowest end of the first through hole and the opening of the first through hole is the maximum, the water control irrigation device drives the second control device to enable the second through hole to be communicated with the fourth through hole, at the moment, part of water in the water storage tank flows to the water spraying component along the second water pipe and stays on the solar efficient power generation plate through the water spraying component, when the night happens, the illuminating lamp can enable the electricity consumption to emit light to illuminate the surrounding environment, then the motor stops supplying power, so that the first rotating component cannot be driven to rotate, then the power generation plate control component drives the two solar efficient power generation plates to move towards two sides, then the two solar energy high-efficiency power generation plates are rotated and blocked at two sides of the first transparent plate, so that the second transparent plate above the first transparent plate is not covered, the light of the illuminating lamp can shine out at the second transparent plate through the first transparent plate, then the guidepost is placed between the object carrying plate and the first rod piece, the guidepost is placed above the object carrying plate firstly, then a worker manually enables the second transparent plate to press the object carrying plate downwards through the first rod piece, then the object carrying plate can move downwards, the guidepost above the object carrying plate is fixed through the first clamping component and the second clamping component, the second transparent plate is also fixed, the second transparent plate is pulled out outwards forcibly during disassembly, so that the guidepost is not clamped by the first clamping component and the second clamping component, the guidepost is taken out and replaced, the lawn in the middle of the lawn can drive the first rotating component to rotate circularly under the action of the motor, the lawn lamp on the roadside controls the first rotating piece to rotate by a certain angle repeatedly through the motor; the solar efficient power generation board does not block the second transparent plate any more at night, people can guide directions for passerby through the illuminated guidepost in the second transparent plate when the people cannot see the road sign at night, because the multifunctional solar lawn lamp is arranged in the middle of the lawn and at the edge of the lawn, the mark on the guidepost can be changed according to the change of surrounding buildings, the guidepost can be fixed by being disassembled through the first clamping component and the second clamping component, the guidepost can be disassembled to be replaced when needing to be replaced, the practicability of the lawn lamp is improved, later water can be outwards sprayed out at the first through hole, the first rotating component is rotating, the watering range of the lawn can be increased, later the lawn lamp at the roadside only rotates by a certain angle, the situation that water is poured onto the road in a circle is avoided rotating when the watering range is increased, and the first water control board is controlled by the first control device when the first rotating component rotates The lower movement controls the opening size of the first through hole, when the opening of the first through hole is small, the flow rate of water is the same but the cross-sectional area is large, so the flow rate is slow, at the moment, the water only waters the nearby lawn, the first water control plate can continuously move upwards along with the rotation of the first rotating piece, so the opening area of the first through hole is reduced, namely the cross-sectional area of water flow is reduced, so the flow rate of the water is increased, the spraying range of the water sprayed from the first through hole can be increased, so the lawn in a certain range can be watered, then the first rotating piece rotates for a circle, namely the second bevel gear rotates for a circle, namely the incomplete gear rotates for a circle, the third gear rotates for a little angle, so that the first rotating piece rotates for a circle, and the third gear drives the first water control plate to move upwards only after the first rotating piece rotates for a circle, that is, the position of the first water control plate is not changed in the process that the first rotating member rotates for a certain angle, and the first water control plate is driven to move only when the first rotating member rotates for the rest angle, thereby better irrigating the nearby lawn with the water at the first through hole in an all-around way without dead angles, the watering effect on the lawn is better, then when the opening at the first through hole is the largest, water flows on the solar high-efficiency power generation board along the power generation board control component, can cool the solar energy high-efficiency power generation panel and increase the efficiency of solar energy power generation, then part of water is separated to flow onto the solar energy high-efficiency power generation panel when the opening of the first through hole is maximum, thereby avoiding too much water flowing out from the first through hole, the phenomenon of excessive watering is carried out on the lawn near the lawn lamp, so that the watering effect on the lawn is further ensured, and more functions can be better played when the multifunctional solar lawn lamp is used.

Furthermore, the detachable device also comprises an eleventh rod piece arranged between the object carrying plate and the first transparent plate, a third rod piece arranged inside the eleventh rod piece and connected with the object carrying plate, a first clamping plate arranged below the first rod piece, a second rod piece arranged in the first clamping plate in a sliding manner, a first arc-shaped block fixed at the end part of the second rod piece, and a second spring arranged between the first arc-shaped block and the second rod piece; the first clamping assembly is matched with the first arc-shaped block and connected to the inner wall of the first transparent plate; the second clamping component is matched with the first clamping component and connected to the inner wall of the first transparent plate; the first clamping assembly comprises an upper first fixing part and a lower first fixing part which are fixed on the inner wall of the first transparent plate, a first guide part penetrating through the two first fixing parts, a first sliding part arranged on the first guide part in a sliding manner, a third spring arranged between the first sliding part and the upper first fixing part, a first support fixed on the first sliding part, a first rotating shaft rotatably arranged on the first support, a second arc-shaped block fixed on the first rotating shaft and arranged in the middle of the first support, and a torsion spring arranged on the first rotating shaft; the second clamping assembly comprises a fourth rod piece fixed on the first sliding piece, a first connecting rod fixed on the fourth rod piece, a fifth rod piece fixed on the first connecting rod, a second connecting rod rotatably arranged on the fifth rod piece, a sixth rod piece rotatably arranged on the second connecting rod, a second clamping plate connected to the sixth rod piece, a second guide piece slidably arranged on the second clamping plate and fixed on the inner wall of the first transparent plate, and a fourth spring arranged between the second guide piece and the second clamping plate; the power generation board control assembly comprises a second box body fixed above the first transparent board, a third sliding groove arranged on the contact side surface of the second box body and the solar efficient power generation board, two third sliding blocks which are arranged in the third sliding groove in a sliding mode and are symmetrical relative to the third sliding groove, a seventh rotating shaft which is arranged in the third sliding blocks in a rotating mode and is fixed on the solar efficient power generation board, a fourth gear fixed on the seventh rotating shaft, a bidirectional electric rod arranged between the two third sliding blocks and racks arranged on two sides inside the second box body; the racks are positioned at the two sides of the first transparent plate; solar energy high efficiency electricity generation board can make second transparent plate top see the finger board through illumination messenger passerby to both sides motion and rotation, avoid lost, light that utilizes the lawn lamp evening throws light on, the electric quantity has also been practiced thrift when realizing pointing at night, later the mode that the second transparent plate does not need the bolt is fixed, can be favorable to the finger board in the lawn lamp to dismantle the change better, the staff need not take the instrument to change it, the time that the change finger board needs has significantly reduced.

Furthermore, the water spray assembly comprises a first box body connected to the second water pipes and fixed above one of the second box bodies, a water outlet arranged on the surface of the first box body facing the direction of the solar high-efficiency power generation panel, a side plate arranged on the other side surface of the first box body, a ninth rod piece arranged inside the side plate, a water pressing plate arranged on the ninth rod piece in a sliding manner, and a sixth spring arranged between the water pressing plate and the first box body; a cavity is formed in the space between the water pressing plate and the bottom of the first box body; the water reaches the cavity along the second water pipe, then the water is conveyed upwards all the time, so that the water in the cavity is increased continuously, then the water pressing plate is pushed upwards by the water and moves upwards, then the position of the water pressing plate is higher than that of the side plate, and the water flows out of the side plate and flows onto the solar efficient power generation plate; because the water that comes on the second water pipe has great pressure, so water can fall the point and upwards spout, through the setting of sixth spring and pressurized-water board, upwards add gradually after can making the water in the cavity fill up, avoid water to fall the point and upwards spout the time and lead to the phenomenon that the high both sides position water level of intermediate position water level is low, thereby can make the surface of water be flat, and even flow in curb plate department, messenger's rivers that can be more even are on solar energy high efficiency power generation board, messenger's rivers that can be better are on the horizontal plane on solar energy high efficiency power generation board, the radiating effect to solar energy high efficiency power generation board is improved.

Further, the solar high-efficiency power generation panel is obliquely arranged; the solar high-efficiency power generation plate is provided with a side boss and a plurality of baffle plates arranged in the side boss in a staggered manner; one side of the side lug boss, which is close to the water spraying assembly, is complete, and one side, which is far away from the water spraying assembly, is provided with a water outlet opening; a water flowing port is arranged between every two baffles; when water at the third sliding groove flows outwards to the solar high-efficiency power generation plate, the water flows along the guide direction of the plurality of baffles and flows to the other baffle at the water flowing port, the water flows to the upper side of the first bevel edge in a reciprocating manner, then the water flows to the water outlet opening along the first bevel edge and is discharged outwards through the water outlet opening, and the solar high-efficiency power generation plate also rotates when moving to two sides, so that the second bevel edge is positioned below; water can flow through a plurality of baffles that crisscross set up, can increase the time of water through solar energy high efficiency power generation board, thereby increase the cooling effect of water to solar energy high efficiency power generation board, later water outwards flows at the play water opening part, avoid water to stay on solar energy high efficiency power generation board always, there is water illumination on solar energy high efficiency power generation board can be through the reflection earlier refraction on solar energy high efficiency power generation board, the energy of light energy can reduce to some extent, so even with the water discharge on the solar energy high efficiency power generation board can further guarantee solar energy high efficiency power generation board's generating efficiency.

Furthermore, the connecting rod assembly comprises a fourth rotating shaft fixed on the third gear and rotatably arranged on the inner wall of the first rotating member, a third connecting rod fixed on the fourth rotating shaft, a seventh rod fixed on the third connecting rod, a fourth connecting rod rotatably arranged on the seventh rod, and an eighth rod rotatably arranged on the fourth connecting rod; the water-controlling irrigation device also comprises an upper third fixing piece and a lower third fixing piece which are arranged on the inner wall of the first rotating piece, two fourth guide pieces which are arranged on the two third fixing pieces in a penetrating way and connected to the top of the first rotating piece, a second sliding piece fixedly arranged on the eighth rod piece, and a tenth rod piece fixedly arranged on the second sliding piece; the first water control plate is arranged on the fourth guide piece in a sliding manner; the first water control plate is fixedly connected to the tenth rod piece; the third gear can drive the fourth rotating shaft to rotate, then the fourth rotating shaft drives a seventh rod piece through a third connecting rod, the seventh rod piece drives a fourth connecting rod, and the fourth connecting rod drives the first water control plate to slide up and down on the fourth guide piece in a reciprocating mode through an eighth rod piece, so that the opening at the first through hole is changed from large to small and then from small to large; the first through hole opening is arranged to be smaller and then smaller, so that continuous wide-range irrigation without dead angles is facilitated.

Further, the third gear is a gear that rotates unidirectionally; when the lawn lamp is arranged on the roadside, the first rotating piece rotates in a reciprocating mode, incomplete gears can be caused to rotate in a reciprocating mode, the first rotating piece rotates towards one direction to drive the third gear to rotate, the third gear drives the first water control plate to move through the connecting rod assembly, and then when the first rotating piece moves towards the opposite direction of the direction, the third gear is a one-way gear, the third gear cannot drive the connecting rod assembly to move, the third gear can drive the connecting rod assembly to rotate towards the one direction all the time, namely the first water control plate is driven to enable the opening at the first through hole to change from small to large, and therefore continuous irrigation without dead corners on a large scale can be achieved no matter the lawn lamp is arranged on the roadside or in the middle of the lawn, and the irrigation effect of the lawn is improved.

Furthermore, the inertia-proof assembly comprises a disc fixedly arranged on the second rotating shaft, a first convex block integrally formed on the disc, a positioning rod fixed on the inner wall of the first rotating member, a sliding frame arranged on the positioning rod in a sliding manner, a seventh spring arranged between the sliding frame and the inner wall of the first rotating member, a second convex block arranged below the sliding frame and matched with the first convex block, and a friction rod arranged on the side surface of the sliding frame and matched with the third gear; the disc is fixedly connected to the second rotating shaft, the second protruding block is fixedly connected to the sliding frame, the sliding frame is fixedly connected to the first rotating part, the sliding frame is slidably connected to the positioning rod, the friction rod is fixedly connected to the sliding frame, and the friction rod abuts against the third gear; the friction rod is made of wear-resistant polyurethane rubber; the first convex block on the disk and the teeth on the incomplete gear are in the same radial position; when the incomplete gear drives the third gear to rotate, at the moment when the incomplete gear is meshed with the third gear, the disc drives the second convex block through the first convex block, so that the sliding frame moves towards the direction of a seventh spring, then the friction rod is not abutted on the third gear, and when the incomplete gear is not meshed with the third gear, the first convex block is not contacted with the second convex block, so that the sliding frame drives the sliding frame to reset under the action of the seventh spring, and the friction rod is abutted on the third gear again; because incomplete gear drives the third gear after an angle of rotation, the third gear can not with incomplete gear meshing, the third gear can carry out many rotations a bit angle because of rotatory inertia so the incomplete gear rotates again and can lead to the angle of meshing not very when third gear department meshes with the third gear, take place the phenomenon of biting the tooth easily, influence the life-span of third gear, the third gear can freely rotate when meshing through incomplete gear and third gear, incomplete gear and third gear do not mesh just can make the third gear receive frictional force in the twinkling of an eye, it is no longer rotatory, can make better meshing of incomplete gear and third gear, thereby better improvement is incomplete gear and third gear's life.

Furthermore, the second control device comprises a fifth fixing piece arranged on the inner wall of the first rotating piece, a fifth guide piece penetrating through the fifth fixing piece and connected to the top of the first rotating piece, a second water control plate arranged on the fifth guide piece in a sliding manner, a fifth through hole arranged on the second water control plate and having the same size as the fourth through hole, an eighth spring arranged between the fifth guide piece and the top of the first rotating piece, a push rod penetrating through the fifth fixing piece and connected to the lower part of the fifth guide piece, a first control block arranged below the push rod, a third rotating shaft arranged on the side surface of the first control block, a lever assembly connected to the third rotating shaft and the first rotating piece, and a fourth fixing piece arranged on the second sliding piece and matched with the lever assembly; the second through hole is the same as the fifth through hole and the fourth through hole in size; the fourth through hole and the second through hole are in concentric positions; the second sliding part can reciprocate up and down to drive the fourth fixed part to move up and down, and then when the second sliding part moves to the lowest end, the fourth fixing piece is matched with the lever component to drive the third rotating shaft to move upwards, the third rotating shaft drives the first control block to move, the second water control plate is driven by the push rod to slide upwards at the fifth guide piece, then the eighth spring is compressed, at this time, the second water control plate moves to the upper limit position, the fifth through hole and the fourth through hole are just communicated with each other, the water in the water storage tank can just flow into the second water pipe along the fourth through hole, the fifth through hole and the second through hole, then the incomplete gear drives the third gear to rotate for an angle to drive the second sliding part to move upwards a little bit, at the moment, the fifth through hole is not concentric with the fourth through hole and the second through hole any more, therefore, the water in the water storage tank cannot flow onto the solar high-efficiency power generation panel at the second water pipe; when the second sliding part is positioned at the lowest end, namely the first water control plate is positioned at the lowest end, the water discharged by the first through hole is large and can generate adverse effect on the soil of the irrigated lawn, and the lawn is damaged, a part of water is discharged to the solar efficient power generation plate for heat dissipation, so that the solar efficient power generation plate is subjected to heat dissipation while the adverse effect on the lawn is avoided, the power generation efficiency of the solar efficient power generation plate is improved, then when the first water control plate is not positioned at the lowest end, no water is supplied instantly at the second water pipe, and no water continuously flows onto the solar efficient power generation plate, so that the phenomenon that water exists on the solar efficient power generation plate for a long time is avoided, although the cooling effect is achieved, a large part of solar energy is wasted due to the reflection of illumination on water, and when the first rotating part rotates, can be indirect water solar energy high efficiency electricity generation board, can play the effect of cooling but can not influence the generating efficiency of solar energy high efficiency electricity generation board to guarantee that generating efficiency is better when better assurance lawn safety.

Furthermore, the lever assembly comprises a sixth rotating shaft rotatably arranged on the inner wall of the first rotating member, a second interactive block fixedly arranged in the sixth rotating shaft, a fifth connecting rod connected with the second interactive block, a first sliding chute and a second sliding chute arranged on the fifth connecting rod, a first sliding block slidably arranged in the second sliding chute, a fifth spring arranged between the first sliding block and the second sliding chute, a fifth rotating shaft fixedly arranged on the first sliding block, a second control block fixedly arranged on the fifth rotating shaft, and a control panel integrally formed below the second control block; the fourth fixed part is fixedly arranged on the second sliding part; the second interaction block is connected with the first sliding groove in a sliding manner; the fifth connecting rod is rotatably connected to the third rotating shaft; when the second sliding part moves from the top to the bottom, the second sliding part drives the second gear of the second control device to move downwards, then the second gear of the second control device drives the control panel to move downwards, and drives the first sliding block to move downwards through the fifth rotating shaft, then the first sliding block drives the fifth connecting rod to rotate around the second interactive block and the sixth rotating shaft, then the fifth connecting rod drives the third rotating shaft to move upwards, namely the second water control plate moves upwards, so that the fifth through hole is just concentric with the fourth through hole and the second through hole, then the second interactive block can slide in the first sliding groove while the fifth connecting rod rotates, the first sliding block can slide in the second sliding groove, and the rotation of the fifth connecting rod can be better prevented from being blocked; the second water control plate is driven to move upwards through the downward movement of the second sliding part, the fifth through hole in the second water control plate can be better and timely made to be concentric with the second through hole and the fourth through hole, the fifth through hole can be timely made to be eccentric with the second through hole and the fourth through hole when the second sliding part moves upwards, the water can be better and timely distributed and stopped being distributed, the water flow utilization rate is increased, and the power generation efficiency is better when the lawn safety is guaranteed through better realization.

Further, the motor is arranged inside the base; the output end of the motor is provided with a first gear; a second gear is meshed with the first gear; the second gear and the first gear are arranged between the base and the waterproof plate; the second gear is fixedly connected with the first rotating part; the waterproof plate is fixedly connected to the first rotating part; the waterproof plate is rotatably arranged above the base; when the motor is electrified, the first gear is driven to rotate, the first gear drives the second gear to rotate, the second gear drives the first rotating piece to rotate, and therefore the waterproof board also rotates along with the first gear; the waterproof board can make the motor be in closed position, avoids the motor to intake.

In conclusion, the water control irrigation device can control the distance of water sprayed outwards, so that the lawn lamps can irrigate all the lawns in the surrounding circle without dead angles; the second control device is arranged, when the distance for irrigating the lawn is short and the flow is large, water flow is divided to dissipate heat of the solar efficient power generation panel, so that the power generation efficiency of the solar efficient power generation panel is improved, and the better effect of irrigating the lawn is ensured; the water spraying assembly and the solar efficient power generation panel are arranged, so that water can be more uniformly spread on the solar efficient power generation panel, the heat dissipation effect of the solar efficient power generation panel is increased, and the power generation efficiency of the solar efficient power generation panel is further improved; the detachable device and the power generation board control assembly are arranged, the solar high-efficiency power generation board can be collected at night, the guiders are guided through the detachable device, the guideboards for guiding the guiders are easy to replace, and the guiders can be replaced better when not getting lost.

Drawings

FIG. 1 is a schematic cross-sectional view of the center of the present invention;

FIG. 2 is an enlarged view of A of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the detachable device of the present invention;

FIG. 4 is a first partial schematic view of the detachable device of the present invention;

FIG. 5 is a second schematic view of a partial structure of the detachable device of the present invention;

FIG. 6 is a schematic structural view of a second arcuate block of the present invention;

FIG. 7 is a schematic view of the structure of the present invention

FIG. 8 is a schematic structural view of the interior of the first rotating member according to the present invention;

FIG. 9 is a schematic structural view of a connecting rod assembly of the present invention;

FIG. 10 is a schematic view of the anti-inertia assembly of the present invention;

FIG. 11 is a schematic view of a first bump according to the present invention;

FIG. 12 is a first schematic view of a lever assembly according to the present invention;

FIG. 13 is a second schematic structural view of the lever assembly of the present invention;

FIG. 14 is a schematic view of the reservoir of the present invention;

FIG. 15 is a schematic view of the power generation apparatus of the present invention;

FIG. 16 is a schematic view of the structure of the water spray assembly of the present invention;

FIG. 17 is a partial schematic view of a water spray assembly of the present invention;

FIG. 18 is a schematic structural view of a power generation panel control assembly of the present invention;

FIG. 19 is a schematic structural view of a solar energy efficient power generation panel according to the present invention;

FIG. 20 is a schematic view of an exploded structure of the interior of the flashing of the present invention;

FIG. 21 is a schematic structural view of a second via hole of the present invention;

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

As shown in FIGS. 1-21, the multifunctional solar lawn lamp comprises a base 1, a waterproof plate 11 disposed above the base 1, a first rotating member 12 fixedly disposed above the waterproof plate 11, a motor 2 disposed between the base 1 and the waterproof plate 11 for driving the first rotating member 12 to rotate, a first control device 3 disposed inside the first rotating member 12 and connected to the base 1, a first through hole 13 and a second through hole 14 disposed at both sides of the first rotating member 12, a water-controlling and irrigating device 4 connected to the first control device 3 for controlling the communication of the first through hole 13, a second control device 5 connected to the first control device 3 for controlling the communication of the second through hole 14, a water storage tank 6 disposed between the first through hole 13 and the second through hole 14, a lampshade 7 disposed above the first rotating member 12, an illuminating lamp 71 disposed inside the lampshade 7 for illuminating, a detachable device 8 disposed above the illuminating lamp 71, a detachable device disposed above the illuminating lamp 71, The power generation device 9 is arranged above the detachable device 8, and the first water pipe 10 is communicated with the second through hole 14 and the power generation device 9; the water storage tank 6 is provided with a third through hole 61 communicated with the first through hole 13 and a fourth through hole 62 communicated with the second through hole 14; the water control irrigation device 4 comprises a first water control plate 45 which is arranged at the first through hole 13 in a sliding manner and used for blocking the first through hole 13; the first control device 3 comprises a fixed mandrel 31 fixed above the base 1, a first bevel gear 32 fixed on the fixed mandrel 31, a second bevel gear 33 meshed with the first bevel gear 32, a second rotating shaft 34 fixed on the second bevel gear 33 and rotatably arranged on the inner wall of the first rotating member 12, an incomplete gear 35 arranged on the second rotating shaft 34, a third gear 36 meshed with the incomplete gear 35, an inertia-proof assembly 37 connected to the inner wall of the first rotating member 12 and matched with the third gear 36, and a connecting rod assembly 38 connected to the third gear 36; the detachable device 8 comprises a first transparent plate 80 arranged above the lampshade 7, a second transparent plate 81 detachably arranged above the first transparent plate 80, a first rod 82 arranged below the first transparent plate 80, an object carrying plate 83 arranged below the first rod 82, and a first spring arranged between the object carrying plate 83 and the first transparent plate 80; the carrier plate 83 is transparent; the illuminating lamp 71 can illuminate the surrounding and upper object carrying plate 83 to make it emit light; the power generation device 9 comprises two solar efficient power generation plates 94 arranged above the first transparent plate 80, two power generation plate control assemblies 93 arranged at two sides of the solar efficient power generation plates 94, a water spray assembly 92 arranged above the power generation plate control assembly 93 at a position close to one side of the second through hole 14, and a second water pipe 91 communicating the second through hole 14 with the water spray assembly 92; the solar energy efficient power generation board 94 is provided with a storage battery for storing electric quantity.

Specifically, the device comprises a base 1, a waterproof plate 11, a first rotating member 12, a first through hole 13, a second through hole 14, a motor 2, a first control device 3, a fixed spindle 31, a first bevel gear 32, a second bevel gear 33, a second rotating shaft 34, an incomplete gear 35, a third gear 36, an inertia-proof assembly 37, a connecting rod assembly 38, a water-controlling and irrigating device 4, a first water-controlling plate 45, a second control device 5, a water storage tank 6, a third through hole 61, a fourth through hole 62, a lampshade 7, an illuminating lamp 71, a detachable device 8, a second transparent plate 81, a first rod member 82, a first clamping plate 821, a second rod member 822, a second spring 823, a first arc-shaped block 824, a loading plate 83, a first spring, an eleventh rod 85, a third rod 851, a first clamping assembly 86, a second arc-shaped block 861, a first rotating shaft 862, a torsion spring 863, a first bracket 864, a first sliding member 865 and a first guide member 866, A third spring 867, a first fixed piece 868, a second blocking component 87, a fourth rod 871, a first connecting rod 872, a fifth rod 873, a second connecting rod 874, a sixth rod 875, a second blocking plate 876, a second guiding piece 877 and a fourth spring 878; the detachable device 8 further includes an eleventh rod 85 disposed between the loading plate 83 and the first transparent plate 80, a third rod 851 disposed inside the eleventh rod 85 and connected to the loading plate 83, a first blocking plate 821 disposed below the first rod 82, a second rod 822 slidably disposed in the first blocking plate 821, a first arc-shaped block 824 fixed to an end of the second rod 822, and a second spring 823 disposed between the first arc-shaped block 824 and the second rod 822; the first blocking component 86 is matched with the first arc-shaped block 824 and is connected to the inner wall of the first transparent plate 80; the second position-locking component 87 is matched with the first position-locking component 86 and is connected to the inner wall of the first transparent plate 80; the first position-clamping assembly 86 includes two upper and lower first fixing members 868 fixed on the inner wall of the first transparent plate 80, a first guide member 866 passing through the two first fixing members 868, a first sliding member 865 slidably disposed on the first guide member 866, a third spring 867 disposed between the first sliding member 865 and the upper first fixing member 868, a first bracket 864 fixed on the first sliding member 865, a first rotating shaft 862 rotatably disposed on the first bracket 864, a second arc-shaped block 861 fixed on the first rotating shaft 862 and disposed in the middle of the first bracket 864, and a torsion spring 863 disposed on the first rotating shaft 862; the second blocking assembly 87 comprises a fourth rod member 871 fixed to the first sliding member 865, a first connecting rod 872 fixed to the fourth rod member 871, a fifth rod member 873 fixed to the first connecting rod 872, a second connecting rod 874 rotatably arranged on the fifth rod member 873, a sixth rod member 875 rotatably arranged on the second connecting rod 874, a second blocking plate 876 connected to the sixth rod member 875, a second guiding member 877 slidably arranged on the second blocking plate 876 and fixed to the inner wall of the first transparent plate 80, and a fourth spring 878 arranged between the second guiding member 877 and the second blocking plate 876; the power generation panel control assembly 93 comprises a second box 931 fixed above the first transparent plate 80, a third sliding chute 932 arranged on the contact side surface of the second box 931 and the solar efficient power generation panel 94, two third sliding blocks 937 arranged in the third sliding chute 932 in a sliding manner and symmetrical about the third sliding chute 932, a seventh rotating shaft 933 rotatably arranged in the third sliding blocks 937 and fixed to the solar efficient power generation panel 94, a fourth gear 934 fixed to the seventh rotating shaft 933, a bidirectional electric rod 935 arranged between the two third sliding blocks 937, and racks 936 arranged on two sides inside the second box 931; the racks 936 are positioned at two sides of the first transparent board 80; wherein, the third rod 851 is fixedly connected to the carrying plate 83, the third rod 851 is slidably connected to the eleventh rod 85, the eleventh rod 85 is fixedly connected to the first transparent plate 80, the first locking plate 821 is fixedly connected to the first rod 82, the second rod 822 is slidably connected to the first locking plate 821, the first arc-shaped block 824 is fixedly connected to the second rod 822, the first fixing member 868 is fixedly connected to the first transparent plate 80, the first guide member 866 is fixedly connected to the first fixing member 868, the first sliding member 865 is slidably connected to the first guide member 866, the first bracket 864 is fixedly connected to the first sliding member 865, the first rotating shaft 862 is rotatably connected to the first bracket, the second arc-shaped block 861 is fixedly connected to the first rotating shaft 862, the fourth rod 871 is fixedly connected to the first sliding member 865, the first connecting rod 872 is fixedly connected to the fourth rod 871, the fifth rod 873 is fixedly connected to the first connecting rod 872, the second connecting rod 874 is rotatably connected to the fifth rod 873, and the sixth rod 874 is rotatably connected to the second connecting rod 874, The second blocking plate 876 is fixedly connected to the sixth rod 875, the second guide member 877 is fixedly connected to the first transparent plate 80, the second guide member 877 is slidably connected to the second blocking plate 876, the second housing 931 is fixedly connected to the first transparent plate 80, the third sliding block 937 is slidably connected to the third sliding groove 932, the seventh rotating shaft 933 is rotatably connected to the third sliding block 937, the solar efficient power generation plate 94 is fixedly connected to the seventh rotating shaft 933, the fourth gear 934 is fixedly connected to the seventh rotating shaft 933, the bidirectional electric rod 935 is fixedly connected to the two third sliding blocks 937, the rack 936 is fixedly connected to the second housing 931, and the fourth gear 934 is engaged with the rack 936 when moving to two sides.

Specifically, the water dispenser comprises a first box 921, a water outlet 922, a side plate 923, a water pressing plate 924, a ninth rod 925 and a sixth spring 926; the water spray assembly 92 comprises a first box 921 connected to the second water pipe 91 and fixed above one of the second boxes 931, a water outlet 922 arranged on the surface of the first box 921 facing the direction of the solar panel 94, a side plate 923 arranged on the other side surface of the first box 921, a ninth rod 925 arranged inside the side plate 923, a water pressing plate 924 arranged on the ninth rod 925 in a sliding manner, and a sixth spring 926 arranged between the water pressing plate 924 and the first box 921; a cavity is formed in a space between the water pressing plate 924 and the bottom of the first box 921; the second water pipe 91 is fixedly connected to the first rotating member 12, the first box 921 is fixedly connected to the second water pipe 91, the side plate 923 is fixedly connected to the first box 921, the ninth rod 925 is fixedly connected to the first box 921, and the pumping plate 924 is slidably connected to the ninth rod 925.

Specifically, the water outlet device comprises a side boss 940, a baffle 941, a water flowing opening 942, a first inclined edge 943, a water outlet opening 944 and a second inclined edge 945; the solar energy high-efficiency power generation plate 94 is obliquely arranged; the solar energy efficient power generation plate 94 is provided with a side boss 940 and a plurality of baffles 941 arranged in the side boss 940 in a staggered manner; one side of the side boss 940 close to the water spray assembly 92 is complete, one side far away from the water spray assembly 92 is provided with a water outlet opening 944, a first inclined edge 943 is arranged at the position of the water outlet opening 944, and the other side of the water outlet opening 944 is provided with a second inclined edge 945; a water flowing port 942 is arranged between every two baffles 941; the side boss 940 is fixedly connected to the solar efficient power generation plate 94, and the baffle 941 is fixedly connected to the solar efficient power generation plate 94; the solar panel 94 is inclined such that the first angled edge 943 is positioned lower than the other side.

Specifically, the water control device comprises a fourth rotating shaft 381, a third connecting rod 382, a seventh rod 383, a fourth connecting rod 384, an eighth rod 385, a second sliding piece 41, a third guide piece 42, a second fixed piece 43, a tenth rod 44, a first water control plate 45, a third fixed piece 46 and a fourth guide piece 47; the connecting rod assembly 38 comprises a fourth rotating shaft 381 fixed on the third gear 36 and rotatably arranged on the inner wall of the first rotating member 12, a third connecting rod 382 fixed on the fourth rotating shaft 381, a seventh rod 383 fixed on the third connecting rod 382, a fourth connecting rod 384 rotatably arranged on the seventh rod 383, and an eighth rod 385 rotatably arranged on the fourth connecting rod 384; the water control irrigation device 4 further comprises an upper third fixing member 46 and a lower third fixing member 46 which are arranged on the inner wall of the first rotating member 12, two fourth guiding members 47 which are arranged on the two third fixing members 46 in a penetrating manner and connected to the top of the first rotating member 12, a second sliding member 41 which is fixedly arranged on the eighth rod 385, and a tenth rod 44 which is fixedly arranged on the second sliding member 41; the first water control plate 45 is slidably arranged on the fourth guide piece 47; the first water control plate 45 is fixedly connected to the tenth rod 44; the fourth rotating shaft 381 is fixedly connected to the third gear 36, the fourth rotating shaft 381 is rotatably connected to the first rotating member 12, the third link 382 is fixedly connected to the fourth rotating shaft 381, the seventh rod 383 is fixedly connected to the third link 382, the fourth link 384 is rotatably connected to the seventh rod 383, the eighth rod 385 is rotatably connected to the fourth link 384, the second slider 41 is fixedly connected to the eighth rod 385, the tenth rod 44 is fixedly connected to the second slider 41, the first water control plate 45 is fixedly connected to the tenth rod 44, the third fixing member 46 is fixedly connected to the first rotating member 12, the fourth guiding member 47 is fixedly connected to the third fixing member 46, and the first water control plate 45 is slidably connected to the fourth guiding member 47.

Specifically, the third gear 36 is a gear that rotates in one direction.

Specifically, the device comprises a disc 371, a first convex block 372, a second convex block 373, a sliding frame 374, a friction rod 375, a positioning rod 376 and a seventh spring 377; the inertia-proof assembly 37 comprises a disc 371 fixedly arranged on the second rotating shaft 34, a first convex block 372 integrally formed on the disc 371, a positioning rod 376 fixed on the inner wall of the first rotating member 12, a sliding frame 374 slidingly arranged on the positioning rod 376, a seventh spring 377 arranged between the sliding frame 374 and the inner wall of the first rotating member 12, a second convex block 373 arranged below the sliding frame 374 and matched with the first convex block 372, and a friction rod 375 arranged on the side surface of the sliding frame 374 and matched with the third gear 36; the disc 371 is fixed to the second rotating shaft 34, the second protrusion block 373 is fixed to the sliding frame 374, the sliding frame 374 is fixed to the first rotating member 12, the sliding frame 374 is slidably connected to the positioning rod 376, the friction rod 375 is fixed to the sliding frame 374, and the friction rod 375 abuts against the third gear 36; the friction bar 375 is a wear resistant urethane rubber; the first raised block 372 on the disk 371 is in the same radial position as the teeth on the incomplete gear 35.

Specifically, the device comprises a lever assembly 51, a fourth fixing member 52, a second water control plate 53, a push rod 530, a fifth through hole 531, a first control block 532, a third rotating shaft 533, a fifth guide 54, a fifth fixing member 541, and an eighth spring 542; the second control device 5 comprises a fifth fixing member 541 arranged on the inner wall of the first rotating member 12, a fifth guide member 54 penetrating the fifth fixing member 541 and connected to the top of the first rotating member 12, a second water control plate 53 slidably arranged on the fifth guide member 54, a fifth through hole 531 arranged on the second water control plate 53 and having the same size as the fourth through hole 62, an eighth spring 542 arranged between the fifth guide member 54 and the top of the first rotating member 12, a push rod 530 penetrating the fifth fixing member 541 and connected below the fifth guide member 54, a first control block 532 arranged below the push rod 530, a third rotating shaft 533 arranged on the side surface of the first control block 532, a lever assembly 51 connected to the third rotating shaft 533 and the first rotating member 12, and a fourth fixing member 52 arranged on the second sliding member 41 and matched with the lever assembly 51; the second through hole 14 is the same size as the fifth through hole 531 and the fourth through hole 62; the fourth through hole 62 and the protected second through hole 14 are in concentric positions; the fourth fixing member 52 is fixedly connected to the second sliding member 41, the fifth fixing member 541 is fixedly connected to the first rotating member 12, the fifth guiding member 54 is fixedly connected to the fifth fixing member 541 and the top of the first rotating member 12, the second water control plate 53 is slidably connected to the fifth guiding member 54, the push rod 530 is fixedly connected to the second water control plate 53, the push rod 530 is slidably connected to the fifth fixing member 541, the first control block 532 is fixedly connected to the push rod 530, and the third rotating shaft 533 is fixedly connected to the first control block 532.

Specifically, the device comprises a first sliding groove 510, a second control block 511, a control plate 512, a fifth spring 513, a fifth connecting rod 514, a fifth rotating shaft 515, a first sliding block 516, a sixth rotating shaft 517, a second interaction block 518 and a second sliding groove 519; the lever assembly 51 comprises a sixth rotating shaft 517 rotatably arranged on the inner wall of the first rotating member 12, a second interacting block 518 fixedly arranged in the sixth rotating shaft 517, a fifth connecting rod 514 connected to the second interacting block 518, a first sliding groove 510 and a second sliding groove 519 arranged on the fifth connecting rod 514, a first sliding block 516 slidably arranged in the second sliding groove 519, a fifth spring 513 arranged between the first sliding block 516 and the second sliding groove 519, a fifth rotating shaft 515 fixedly arranged on the first sliding block 516, a second control block 511 fixedly arranged on the fifth rotating shaft 515, and a control plate 512 integrally formed below the second control block 511; the fourth fixing member 52 is fixedly arranged on the second sliding member 41; the second interactive block 518 is slidably connected to the first sliding groove 510; the fifth link 514 is rotatably connected to the third rotating shaft 533; the fourth fixing member 52 is fixedly connected to the second sliding member 41, the sixth rotating shaft 517 is rotatably connected to the first rotating member 12, the second interacting block 518 is fixedly connected to the sixth rotating shaft 517, the first sliding block 516 is slidably connected to the second sliding slot 519, the fifth rotating shaft 515 is fixedly connected to the first sliding block 516, the second control block 511 is fixedly connected to the fifth rotating shaft 515, and the control board 512 is fixedly connected to the second control block 51.

Specifically, the device comprises a motor 2, a first gear 21 and a second gear 22; the motor 2 is arranged in the base 1; the output end of the motor 2 is provided with a first gear 21; a second gear 22 is meshed with the first gear 21; the second gear 22 and the first gear 21 are arranged between the base 1 and the waterproof board 11; the second gear 22 is fixedly connected to the first rotating member 12; the waterproof board 11 is fixedly connected to the first rotating part 12; the waterproof plate 11 is rotatably arranged above the base 1; wherein the first gear 21 is fixedly connected to the motor 2.

The specific working process of the invention is as follows: the multifunctional solar lawn lamp generates electricity through the two solar efficient electricity generation plates 94 in the daytime and stores the light in the storage battery, then the lawn lamp can be arranged in the middle of the lawn or at the joint of the lawn and the roadside, the storage battery supplies electricity for the motor 2, the motor 2 drives the first gear 21 to rotate when being electrified, the first gear 21 drives the second gear 22 to rotate, the second gear 22 drives the first rotating piece 12 to rotate, the waterproof board 11 also rotates, then the first rotating piece 12 drives the lampshade 7, the first transparent plate 80 and the electricity generation device 9 to rotate, water can continuously flow into the water storage tank 6 along the first water pipe 10 during rotation, then the first rotating piece 12 rotates to drive the second rotating shaft 34 to rotate together, then the fixed mandrel 31 and the first bevel gear 32 are fixed on the base 1, so the first bevel gear 32 does not rotate, the second bevel gear 33 is driven by the first bevel gear 32, so that the second bevel gear 33 can rotate, and then the second bevel gear 33 drives the second rotating shaft 34 to rotate, and the second rotating shaft 34 drives the incomplete gear 35 to rotate;

When the lawn lamp is arranged in the middle of the lawn:

the incomplete gear 35 drives the third gear 36 to rotate intermittently, at the moment when the incomplete gear 35 is meshed with the third gear 36, the disc 371 drives the second protruding block 373 through the first protruding block 372, so that the sliding frame 374 moves towards the direction of the seventh spring 377, then the friction rod 375 is not abutted against the third gear 36, when the incomplete gear 35 is not meshed with the third gear 36, the first protruding block 372 cannot be contacted with the second protruding block 373, so the sliding frame 374 drives the sliding frame 374 to reset under the action of the seventh spring 377, and the friction rod 375 is abutted against the third gear 36 again;

the third gear 36 will drive the fourth shaft 381 to rotate, then the fourth shaft 381 will drive the seventh rod 383 through the third link 382, the seventh rod 383 will drive the fourth link 384, the fourth link 384 will drive the second sliding part 41 to move up and down through the eighth rod 385, the second sliding part 41 will drive the first water control plate 45 to slide up and down on the fourth guiding part 47 through the tenth rod 44, so that the opening at the first through hole 13 will change from large to small, the water in the water storage tank 6 will be sprayed out at the first through hole 13 along the third through hole 61, the second sliding part 41 will drive the fourth fixing part 52 to move up and down, then the second sliding part 41 will move from top to bottom, the second gear 22 of the second control device 5 will drive the control plate 512 to move down, the fifth rotating shaft 515 drives the first sliding block 516 to move downwards, then the first sliding block 516 drives the fifth connecting rod 514 to rotate around the second interactive block 518 and the sixth rotating shaft 517, then the fifth connecting rod 514 drives the third rotating shaft 533 to move upwards, that is, the second water control plate 53 moves upwards, then the eighth spring 542 is compressed, then the second interactive block 518 slides in the first sliding groove 510 while the fifth connecting rod 514 rotates, the first sliding block 516 slides in the second sliding groove 519, so that the fifth connecting rod 514 can better rotate without being blocked, then the fifth through hole 531 is just concentric with the fourth through hole 62 and the second through hole 14, the fifth through hole 531 and the fourth through hole 62 are just communicated with each other, at this time, water in the water storage tank 6 can just flow into the second water pipe 91 along the fourth through hole 62, the fifth through hole 531 and the second through hole 14, and the water reaches the cavity of the second water pipe 91, then, water is conveyed upwards all the time, so that the water in the cavity is increased continuously, then the water pressing plate 924 is pushed upwards by the water and moves upwards, then the position of the water pressing plate 924 is higher than the side plate 923, who can flow out from the side plate 923 and flow onto the solar efficient power generation plate 94, when the water at the third chute 932 flows out onto the solar efficient power generation plate 94, the water flows along the guide of the plurality of baffles 941 and flows onto the other baffle 941 at the water inflow port 942, and the water flows to the upper side of the first inclined edge 943, and then flows along the first inclined edge 943 to the water outlet opening 944 and is discharged outwards through the water outlet opening 944; then, the incomplete gear 35 drives the third gear 36 to rotate for an angle, and drives the second sliding part 41 to move upwards for a little displacement, at this time, the fifth through hole 531 is no longer concentric with the fourth through hole 62 and the second through hole 14, so that the water in the water storage tank 6 cannot flow onto the solar efficient power generation panel 94 at the second water pipe 91;

When the lawn light is placed on the roadside: since the first rotating member 12 is rotated in a reciprocating manner, the incomplete gear 35 is caused to rotate in a reciprocating manner, so that the first rotating member 12 rotates in one direction to drive the third gear 36 to rotate, the third gear 36 drives the first water control plate 45 to move through the connecting rod assembly 38, and then when the first rotating member 12 moves in the opposite direction of the one direction, since the third gear 36 is a one-way gear, the third gear 36 does not drive the connecting rod assembly 38 to move, so that the third gear 36 can drive the connecting rod assembly 38 to rotate in one direction all the time, that is, the first water control plate 45 is driven to change the opening at the first through hole 13 from large to small and then from small to large; other movements are the same as the movement principle and are not explained;

when the fingerboards need to be installed and placed, the bidirectional electric rod 935 drives the two third sliding blocks 937 to move towards two sides, the third sliding block 937 drives the two fourth gears 934 to move towards two sides through the seventh rotating shaft 933, then the third sliding block 937 moves to the racks 936 at two sides, the fourth gears 934 and the racks 936 are meshed to enable the seventh rotating shaft 933 to rotate, then the seventh rotating shaft 933 can drive the solar efficient power generation panel 94 to rotate, because the racks 936 are positioned at two sides of the first transparent plate 80, the solar efficient power generation panel 94 cannot collide with the first transparent plate 80 during rotation, the space above the second transparent plate 81 cannot be covered after the solar efficient power generation panel 94 rotates, the solar efficient power generation panel 94 is positioned vertically at two sides of the first transparent plate 80 without blocking the solar efficient power generation panel 7, then the second transparent plate 81 is pulled outwards, the second transparent plate 81 drives the first blocking plate 821 to move towards the outside through the first rod 82, then the first blocking plate 821 drives the second arc block 861 upwards through the first arc block 824, so that the second arc block 861 has a movement tendency of rotating counterclockwise around the first rotating shaft 862, then the plane on the second arc block 861 collides with the first bracket 864, and cannot rotate, so that the second arc block 861 drives the first bracket 864 and the first sliding member 865 to slide upwards at the first guide member 866, then the first sliding member 865 drives the fourth rod member 871 to move upwards, and drives the fifth rod member 873 to move upwards through the first connecting rod 872, the fifth rod member 873 drives the sixth rod member 875 to move through the second connecting rod 874, the sixth rod member 875 drives the second blocking plate 876 to slide on the second guide member 877, that is, the second guide 877 is moved towards the inner wall of the first transparent plate 80, and the second guide 877 blocks the destination board above the destination plate 83, the object carrying plate 83 is not clamped, so that the object carrying plate 83 can reach the top of the first transparent plate 80 under the action of the first spring, a person who replaces the guidepost is convenient to replace, then the first arc-shaped block 824 moves upwards until the first sliding part 865 abuts against the first fixing part 868, the first sliding part 865 cannot move upwards continuously, at this time, the arc surface on the first arc-shaped block 824 drives the first arc-shaped block 824 to move towards the direction of the first clamping plate 821 due to a large extrusion force, so that the first arc-shaped block 824 can be separated from the second arc-shaped block 861, then the first sliding part 865 loses force and can reset under the action of the third spring 867, the object carrying plate 83 is pressed downwards through the first rod 82 by using the second transparent plate 81 after the direction is replaced, the object carrying plate 83 moves downwards, and then the first arc-shaped block 824 can contact with the second arc-shaped block 861 firstly, the cambered surface of the first cambered block 824 contacts the cambered surface of the second cambered block 861, so that the second cambered block 861 has a clockwise rotation movement tendency, then the second cambered block 861 rotates clockwise and does not collide with the first sliding member 865, so that the second cambered block 861 rotates clockwise, that is, the first cambered block 824 can reach the lower part of the second cambered block 861, then the second cambered block 861 resets under the action of the torsion spring 863, then the object carrying plate 83 can touch the second clamping plate 876, firstly the second clamping plate 876 touches the inclined surface, the second clamping plate 876 is forced to move towards the direction of the first transparent plate 80 under the action of the inclined surface, then the fourth spring 878 is compressed, the object carrying plate 83 reaches the lower part of the second clamping plate 876, then the second clamping plate 876 resets under the object carrying plate 878 to clamp the guidepost on the guidepost 83, the first detent plate 821 is then fixed in position by the first and second arcuate blocks 824, 861, and the carrier plate 83 is fixed in position by the second detent plate 876.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims

1. The multifunctional solar lawn lamp comprises a base (1), a first clamping component (86), a second clamping component (87), a waterproof plate (11) arranged above the base (1), a first rotating piece (12) fixedly arranged above the waterproof plate (11), a motor (2) arranged between the base (1) and the waterproof plate (11) and used for driving the first rotating piece (12) to rotate, a first control device (3) arranged inside the first rotating piece (12) and connected to the base (1), a first through hole (13) and a second through hole (14) arranged on two sides of the first rotating piece (12), a water control watering device (4) connected to the first control device (3) and used for controlling the communication of the first through hole (13), a second control device (5) connected to the first control device (3) and used for controlling the communication of the second through hole (14), a water storage tank (6) arranged between the first through hole (13) and the second through hole (14), The lamp shade (7) is arranged above the first rotating part (12), the illuminating lamp (71) is arranged in the lamp shade (7) and used for illuminating, the detachable device (8) is arranged above the illuminating lamp (71), the power generation device (9) is arranged above the detachable device (8), and the first water pipe (10) is communicated with the second through hole (14) and the power generation device (9); a third through hole (61) communicated with the first through hole (13) and a fourth through hole (62) communicated with the second through hole (14) are formed in the water storage tank (6); the method is characterized in that: the water control irrigation device (4) comprises a first water control plate (45) which is arranged at the first through hole (13) in a sliding manner and is used for blocking the first through hole (13); the first control device (3) comprises a fixed mandrel (31) fixed above the base (1), a first helical gear (32) fixed on the fixed mandrel (31), a second helical gear (33) meshed with the first helical gear (32), a second rotating shaft (34) fixed on the second helical gear (33) and rotatably arranged on the inner wall of the first rotating member (12), an incomplete gear (35) arranged on the second rotating shaft (34), a third gear (36) meshed with the incomplete gear (35), an inertia-proof assembly (37) connected to the inner wall of the first rotating member (12) and matched with the third gear (36), and a connecting rod assembly (38) connected to the third gear (36); the detachable device (8) comprises a first transparent plate (80) arranged above the lampshade (7), a second transparent plate (81) detachably arranged above the first transparent plate (80), a first rod piece (82) arranged below the second transparent plate (81), an object carrying plate (83) arranged below the first rod piece (82), and a first spring arranged between the object carrying plate (83) and the first transparent plate (80); the power generation device (9) comprises two solar efficient power generation plates (94) arranged above the first transparent plate (80), two power generation plate control assemblies (93) arranged on two sides of the solar efficient power generation plates (94), a water spray assembly (92) arranged above the power generation plate control assembly (93) at a position close to one side of the second through hole (14), and a second water pipe (91) communicated with the second through hole (14) and the water spray assembly (92); and a storage battery for storing electric quantity is arranged in the solar high-efficiency power generation panel (94).

2. The multifunctional solar lawn lamp of claim 1, wherein: the detachable device (8) further comprises an eleventh rod piece (85) arranged between the loading plate (83) and the first transparent plate (80), a third rod piece (851) arranged inside the eleventh rod piece (85) and connected to the loading plate (83), a first blocking plate (821) arranged below the first rod piece (82), a second rod piece (822) arranged in the first blocking plate (821) in a sliding mode, a first arc-shaped block (824) fixed to the end portion of the second rod piece (822), and a second spring (823) arranged between the first arc-shaped block (824) and the second rod piece (822); the first clamping component (86) is matched with the first arc-shaped block (824) and connected to the inner wall of the first transparent plate (80); the second clamping component (87) is matched with the first clamping component (86) and is connected to the inner wall of the first transparent plate (80); the first clamping assembly (86) comprises an upper first fixing piece (868) and a lower first fixing piece (868) which are fixed on the inner wall of the first transparent plate (80), a first guide piece (866) which penetrates through the two first fixing pieces (868), a first sliding piece (865) which is arranged on the first guide piece (866) in a sliding mode, a third spring (867) which is arranged between the first sliding piece (865) and the upper first fixing piece (868), a first support (864) which is fixed on the first sliding piece (865), a first rotating shaft (862) which is rotatably arranged on the first support (864), a second arc-shaped block (861) which is fixed on the first rotating shaft (862) and arranged in the middle of the first support (864), and a torsion spring (863) which is arranged on the first rotating shaft (862); the second clamping assembly (87) comprises a fourth rod piece (871) fixed on the first sliding piece (865), a first connecting rod (872) fixed on the fourth rod piece (871), a fifth rod piece (873) fixed on the first connecting rod (872), a second connecting rod (874) rotatably arranged on the fifth rod piece (873), a sixth rod piece (875) rotatably arranged on the second connecting rod (874), a second clamping plate (876) connected to the sixth rod piece (875), a second guide piece (877) slidably arranged on the second clamping plate (876) and fixed on the inner wall of the first transparent plate (80), and a fourth spring (878) arranged between the second guide piece (877) and the second clamping plate (876); the power generation board control assembly (93) comprises a second box body (931) fixed above the first transparent board (80), a third sliding groove (932) formed in the contact side face of the second box body (931) and the solar efficient power generation board (94), two third sliding blocks (937) arranged in the third sliding groove (932) in a sliding mode and symmetrical to the third sliding groove (932), a seventh rotating shaft (933) rotatably arranged in the third sliding block (937) and fixed to the solar efficient power generation board (94), a fourth gear (934) fixed to the seventh rotating shaft (933), a bidirectional electric rod (935) arranged between the two third sliding blocks (937), and racks (936) arranged on two sides inside the second box body (931); the racks (936) are positioned at two sides of the first transparent plate (80).

3. The multifunctional solar lawn lamp of claim 2, wherein: the water spray assembly (92) comprises a first box body (921) connected to the second water pipe (91) and fixed above one of the second box bodies (931), a water outlet (922) arranged on the surface of the first box body (921) facing the direction of the solar high-efficiency power generation panel (94), a side plate (923) arranged on the other side surface of the first box body (921), a ninth rod piece (925) arranged inside the side plate (923), a water pressing plate (924) arranged on the ninth rod piece (925) in a sliding manner, and a sixth spring (926) arranged between the water pressing plate (924) and the first box body (921); the space between the water pressing plate (924) and the bottom of the first box body (921) forms a cavity.

4. The multifunctional solar lawn lamp of claim 3, wherein: the solar energy high-efficiency power generation plate (94) is obliquely arranged; the solar energy efficient power generation plate (94) is provided with a side lug boss (940) and a plurality of baffles (941) arranged in the side lug boss (940) in a staggered mode; one side of the side lug boss (940) close to the water spray assembly (92) is complete, one side far away from the water spray assembly (92) is provided with a water outlet opening (944), a first bevel edge (943) is arranged at the position of the water outlet opening (944), and the other side of the water outlet opening (944) is provided with a second bevel edge (945); a water flowing port (942) is arranged between every two baffles (941).

5. The multifunctional solar lawn lamp of claim 1, wherein: the connecting rod assembly (38) comprises a fourth rotating shaft (381) which is fixed on the third gear (36) and is rotatably arranged on the inner wall of the first rotating member (12), a third connecting rod (382) which is fixed on the fourth rotating shaft (381), a seventh rod piece (383) which is fixed on the third connecting rod (382), a fourth connecting rod (384) which is rotatably arranged on the seventh rod piece (383), and an eighth rod piece (385) which is rotatably arranged on the fourth connecting rod (384); the water control irrigation device (4) further comprises an upper third fixing piece (46) and a lower third fixing piece (46) which are arranged on the inner wall of the first rotating piece (12), two fourth guide pieces (47) which penetrate through the two third fixing pieces (46) and are connected to the top of the first rotating piece (12), a second sliding piece (41) which is fixedly arranged on the eighth rod piece (385), and a tenth rod piece (44) which is fixedly arranged on the second sliding piece (41); the first water control plate (45) is arranged on the fourth guide piece (47) in a sliding manner; the first water control plate (45) is fixedly connected to the tenth rod piece (44).

6. The multifunctional solar lawn lamp of claim 5, wherein: the third gear (36) is a gear that rotates in one direction.

7. The multifunctional solar lawn lamp of claim 6, wherein: the inertia-proof assembly (37) comprises a disc (371) fixedly arranged on the second rotating shaft (34), a first protruding block (372) integrally formed on the disc (371), a positioning rod (376) fixed on the inner wall of the first rotating member (12), a sliding frame (374) slidably arranged on the positioning rod (376), a seventh spring (377) arranged between the sliding frame (374) and the inner wall of the first rotating member (12), a second protruding block (373) arranged below the sliding frame (374) and matched with the first protruding block (372), and a friction rod (375) arranged on the side surface of the sliding frame (374) and matched with the third gear (36); the disc (371) is fixedly connected to the second rotating shaft (34), the second protruding block (373) is fixedly connected to the sliding frame (374), the sliding frame (374) is fixedly connected to the first rotating member (12), the sliding frame (374) is slidably connected to the positioning rod (376), the friction rod (375) is fixedly connected to the sliding frame (374), and the friction rod (375) abuts against the third gear (36); the friction bar (375) is a wear resistant polyurethane rubber; the first raised blocks (372) on the disk (371) are in the same radial position as the teeth on the incomplete gear (35).

8. The multifunctional solar lawn lamp of claim 7, wherein: the second control device (5) comprises a fifth fixing piece (541) arranged on the inner wall of the first rotating piece (12), a fifth guide piece (54) penetrating through the fifth fixing piece (541) and connected to the top of the first rotating piece (12), a second water control plate (53) arranged on the fifth guide piece (54) in a sliding mode, a fifth through hole (531) arranged on the second water control plate (53) and having the same size as the fourth through hole (62), an eighth spring (542) arranged between the fifth guide piece (54) and the top of the first rotating piece (12), a push rod (530) penetrating through the fifth fixing piece (541) and connected to the lower side of the fifth guide piece (54), a first control block (532) arranged below the push rod (530), a third rotating shaft (533) arranged on the side face of the first control block (532), and a lever assembly (51) connected to the third rotating shaft (533) and the first rotating piece (12), A fourth fixed member (52) provided on the second slider (41) and engaged with the lever assembly (51); the second through hole (14) is the same size as the fifth through hole (531) and the fourth through hole (62); the fourth through hole (62) and the second through hole (14) are in concentric positions.

9. The multifunctional solar lawn lamp of claim 8, wherein: the lever component (51) comprises a sixth rotating shaft (517) rotatably arranged on the inner wall of the first rotating member (12), a second interaction block (518) fixedly arranged in the sixth rotating shaft (517), a fifth connecting rod (514) connected to the second interaction block (518), a first sliding groove (510) and a second sliding groove (519) arranged on the fifth connecting rod (514), a first sliding block (516) slidably arranged in the second sliding groove (519), a fifth spring (513) arranged between the first sliding block (516) and the second sliding groove (519), a fifth rotating shaft (515) fixedly arranged on the first sliding block (516), a second control block (511) fixedly arranged on the fifth rotating shaft (515) and a control panel (512) integrally formed below the second control block (511); the fourth fixing piece (52) is fixedly arranged on the second sliding piece (41); the second interaction block (518) is slidably connected with the first sliding chute (510); the fifth connecting rod (514) is rotatably connected to the third rotating shaft (533).

10. The multifunctional solar lawn lamp of claim 1, wherein: the motor (2) is arranged in the base (1); the output end of the motor (2) is provided with a first gear (21); a second gear (22) is meshed with the first gear (21); the second gear (22) and the first gear (21) are arranged between the base (1) and the waterproof plate (11); the second gear (22) is fixedly connected with the first rotating piece (12); the waterproof plate (11) is fixedly connected to the first rotating piece (12); the waterproof plate (11) is rotatably arranged above the base (1).