CN112648574B

CN112648574B - Solar charging energy-saving spotlight

Info

Publication number: CN112648574B
Application number: CN202011537790.9A
Authority: CN
Inventors: 章泽柯
Original assignee: Ucome Lighting Co ltd
Current assignee: Ucome Lighting Co ltd
Priority date: 2020-12-23
Filing date: 2020-12-23
Publication date: 2022-05-27
Anticipated expiration: 2040-12-23
Also published as: CN112648574A

Abstract

The invention discloses a solar charging energy-saving spotlight which comprises a frame, a photovoltaic panel, a lifting charging cylinder, a lifting frame, two first vertical long rods, two first inclined short rods, two second vertical long rods and two second inclined short rods, wherein the photovoltaic panel is arranged on the frame; the tail end of the cylinder body of the lifting electric cylinder is fixedly connected with the bottom in the frame; the lifting frame is fixed on a telescopic rod of the lifting electric cylinder, the left side and the right side of the lifting frame are respectively provided with a driving part, one driving part is provided with a first front groove and a first rear groove, and the other driving part is provided with a second front groove and a second rear groove; the bottom ends of the two first long vertical rods and the two second long vertical rods are respectively provided with an angle adjusting device, and the angle adjusting devices are provided with LED spot lamps; a pin shaft at one side edge of the photovoltaic panel is hinged to the bottom of the frame, a linear guide rail is fixed at the side edge of the photovoltaic panel, a connecting rod is hinged to a pin shaft on the lifting frame, and the other end of the connecting rod is hinged to a slide block pin shaft of the linear guide rail. The spotlight can be stored and hidden, and the rotation of the spotlight is automatically controlled when the irradiation angle is adjusted.

Description

Solar charging energy-saving spotlight

Technical Field

The invention relates to the technical field of lamps, in particular to a solar charging energy-saving spot lamp.

Background

At present, for the beautification design of roads, a flower bed and a three-dimensional billboard or a three-dimensional handicraft article are generally arranged beside the road, and the three-dimensional billboard or the three-dimensional handicraft article are arranged at the top through a vertical high rod, but the three-dimensional billboard or the three-dimensional handicraft article cannot fully reflect the aesthetic property of the three-dimensional billboard or the three-dimensional handicraft article only by the irradiation of a street lamp at night, so that people arrange light irradiation lamps beside the three-dimensional billboard or the three-dimensional handicraft article to reflect the artistic feeling, but the light irradiation lamps are fixedly and extendedly arranged through transverse supporting rods, so that when the illumination is not needed in the daytime, the transverse supporting rods are highlighted at the bottom or the side of the three-dimensional billboard or the three-dimensional handicraft article, so that the transverse supporting rods and the irradiation lamps form a sharp feeling on the three-dimensional billboard or the three-dimensional handicraft article, thereby influencing the aesthetic property and the ornamental property of the three-dimensional billboard or the three-dimensional handicraft article, and simultaneously, the irradiation angle adjustment of the spotlight is also required to be carried out by climbing the top of the vertical high pole by professional workers, so that the irradiation angle adjustment of the spotlight is more complicated, and the operation workers have certain danger, so that the personal safety of the workers cannot be powerfully guaranteed, and the problem based on the defects is a problem which needs to be solved at present.

Disclosure of Invention

The invention aims to solve the technical defects that a spot lamp can be stored and hidden, the rotation of the spot lamp is automatically controlled during the adjustment of the irradiation angle of the spot lamp, and energy is saved during use.

The invention designs a solar energy charging energy-saving spot lamp, which comprises a frame, a photovoltaic panel, a lifting electric cylinder, two first vertical long rods, two first inclined short rods, two second vertical long rods and two second inclined short rods, wherein the lifting electric cylinder, the lifting frame, the two first vertical long rods, the two first inclined short rods, the two second vertical long rods and the two second inclined short rods are arranged in the frame; the lifting electric cylinder is in a vertical state, and the tail end of the cylinder body is fixedly connected with the bottom in the frame; the lifting frame is fixed on a telescopic rod of the lifting electric cylinder, the left side and the right side of the lifting frame are respectively provided with a driving part, one driving part is provided with a first front groove and a first rear groove, and the other driving part is provided with a second front groove and a second rear groove;

the middle parts of the two first vertical long rods are respectively arranged in the first front groove and the first rear groove, the upper parts of the two first vertical long rods are fixedly provided with a first hinging block and a second hinging block, two ends of a first inclined short rod are respectively hinged with the inner wall of the notch of the first front groove and one end of the first hinging block, which is far away from the first vertical long rod, of the first hinging block, and two ends of the other first inclined short rod are respectively hinged with the inner wall of the notch of the first rear groove and one end of the second hinging block, which is far away from the first vertical long rod;

the middle parts of the two second vertical long rods are respectively arranged in the second front groove and the second rear groove, the upper parts of the two second vertical long rods are fixedly provided with a third hinging block and a fourth hinging block, two ends of a second inclined short rod are respectively hinged with the inner wall of the notch of the first front groove and one end of the third hinging block, which is far away from the second vertical long rod, of the third hinging block, and two ends of the other second inclined short rod are respectively hinged with the inner wall of the notch of the second rear groove and one end of the fourth hinging block, which is far away from the second vertical long rod;

the bottom ends of the two first long vertical rods and the two second long vertical rods are respectively provided with an angle adjusting device, the angle adjusting devices are provided with LED spot lamps, and the angle adjusting devices automatically adjust the irradiation angles of the spot lamps;

a side pin shaft of the photovoltaic panel is hinged to the bottom of the frame, a first linear guide rail is fixed to the side edge of the side pin shaft, a connecting rod is hinged to a pin shaft on the lifting frame, the other end of the connecting rod is hinged to a sliding block pin shaft of the first linear guide rail, a control box is installed on the lifting frame, a storage battery and a control module are installed in the control box, the storage battery is respectively connected with the photovoltaic panel and the control module, and the control module is connected with the lifting electric cylinder and the LED spotlight.

As preferred, angle adjusting device includes the rotor plate, the bottom of two vertical stock of first vertical stock and two vertical stock of second all is fixed with first electric linear push rod and T type pole, be provided with microscler through-hole on the rotor plate, and the rotor plate overlaps on the longitudinal portion of T type pole through microscler through-hole, and the LED shot-light is fixed in the one end of rotor plate, the telescopic link tip of first electric linear push rod is articulated with the other end round pin axle of rotor plate, first electric linear push rod links to each other with the control module, the flexible reciprocal promotion rotor plate that comes and goes of first electric linear push rod's telescopic link is rotatory, adjust the illumination angle to the LED shot-light.

Preferably, the two first vertical long rods and the two second vertical long rods are respectively fixed with a second linear guide rail and a second electric linear push rod, a mounting plate is fixed on a sliding block of the second linear guide rail, the longitudinal portion of the T-shaped rod and the first electric linear push rod are fixed on the mounting plate, the end portion of a telescopic rod of the second electric linear push rod is fixedly connected with one end of the mounting plate, and a telescopic rod of the second electric linear push rod stretches to push the mounting plate back and forth to adjust and control the position of the LED spotlight.

Preferably, vertical guide rails are fixed on the left inner wall and the right inner wall of the top of the frame respectively, a vertical guide groove is formed in one side face of each vertical guide rail, guide sliding blocks are matched in the vertical guide grooves, and the two guide sliding blocks are fixedly connected with the driving portion respectively.

Preferably, lower limiting contact switches are arranged below the bottom ends of the two vertical guide rails, and upper limiting contact switches are fixed on the inner wall of the top of the frame; the lower limiting contact switch is fixed on the inner wall of the frame through the supporting block and corresponds to the position of the driving part, and the lower limiting contact switch and the upper limiting contact switch are both connected with the control module.

As preferred, be fixed with four stock locating component on the top inner wall of frame, all be provided with the location on four stock locating component and lead to the groove, two stock locating component's location lead to the groove respectively two first vertical stock the position correspond, two stock locating component's location lead to the groove respectively with the position of two second vertical stocks correspond in addition.

Preferably, the control module comprises a light control module and an LED spotlight position adjusting module, the light control module is respectively connected with the four LED spotlights, and the LED spotlight position adjusting module is respectively connected with the lifting electric cylinder, the first electric linear push rod and the second electric linear push rod.

Preferably, the light control module comprises four light source driving modules, a first single chip microcomputer and a first wireless communication transmission module, the four LED spot lamps comprise a shell, a plurality of white light LED lamps arranged in the shell, a plurality of yellow LED lamps, a plurality of red LED lamps and a plurality of blue LED lamps, and light-passing plates arranged at the port parts of the shell, the white light LED lamps, the yellow LED lamps, the red LED lamps and the blue LED lamps are arranged in a rectangular array, the four light source driving modules are respectively connected with the white light LED lamps, the yellow LED lamps, the red LED lamps and the blue LED lamps, the storage battery is respectively connected with the four light source driving modules, the first single chip microcomputer and the first wireless communication transmission module, and the first single chip microcomputer is respectively connected with the four light source driving modules.

Preferably, the LED spotlight position adjusting module comprises a light sensor, a second single chip microcomputer and a second wireless communication transmission module, the light sensor and the second wireless communication transmission module are connected with the single chip microcomputer, the second single chip microcomputer is connected with the lifting electric cylinder, the first electric linear push rod and the second electric linear push rod, the storage battery is connected with the light sensor, the second single chip microcomputer and the second wireless communication transmission module respectively, and the upper limit contact switch and the lower limit contact switch are connected.

The invention designs a solar energy charging energy-saving spot lamp, which utilizes the telescopic motion of a lifting telescopic rod of a lifting electric cylinder to enable a long rod for installing the spot lamp to rotate 90 degrees clockwise or rotate 90 degrees anticlockwise so as to store and hide the spot lamp when the spot lamp is not used in daytime, thereby avoiding the existing fixed spot lamp from being outside for a long time, leading an observer to seem to be more abrupt, improving the ornamental value of a three-dimensional billboard and a three-dimensional handicraft when the three-dimensional billboard and the three-dimensional handicraft are displayed in daytime, leading the unique characteristics and the unique artistic sense of the three-dimensional billboard and the three-dimensional handicraft to be fully displayed and highlighted by utilizing the automatic adjustment of the illumination angle after the spot lamp is unfolded, leading the use to be simpler and more convenient, only needing one common worker to realize the illumination angle adjustment, thereby reducing the labor cost and leading the operation of the worker to be safer, and the solar energy is used for supplying power after being stored, so that the three-dimensional billboard or the three-dimensional handicraft can be illuminated under the condition of not using a mains supply, and the effect of saving energy is further achieved.

Drawings

FIG. 1 is a schematic view of the overall structure (one);

FIG. 2 is a schematic view of the overall structure (two);

FIG. 3 is a schematic view (III) of the overall structure;

FIG. 4 is a schematic view of the structure of the long rod and the short rod;

FIG. 5 is a schematic view (IV) of the overall structure;

FIG. 6 is a schematic diagram of a control system architecture;

fig. 7 is a schematic structural diagram of a light source driving module.

Detailed Description

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, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present invention.

Example 1:

as shown in the attached drawings, the solar charging energy-saving spotlight described in the embodiment comprises a frame 1, a photovoltaic panel 28, a lifting electric cylinder 27 arranged in the frame 1, a lifting frame 2, two first long vertical rods 5, two first short inclined rods 6, two second long vertical rods 8 and two second short inclined rods 9; the lifting electric cylinder 27 is in a vertical state, and the tail end of the cylinder body is fixedly connected with the bottom in the frame; the lifting frame 2 is fixed on the telescopic rod of the electric lifting cylinder 27, the left side and the right side of the lifting frame are respectively provided with a driving part 21, one driving part 21 is provided with a first front groove 211 and a first rear groove 212, and the other driving part 21 is provided with a second front groove 213 and a second rear groove 214; the middle parts of the two first vertical long rods 5 are respectively arranged in the first front groove 211 and the first rear groove 212, the upper parts of the two first vertical long rods 5 are fixedly provided with a first hinging block 71 and a second hinging block 72, two ends of a first inclined short rod 6 are respectively hinged with the inner wall of the notch of the first front groove 211 and one end of the first hinging block 71, far away from the first vertical long rod 5, of a pin shaft, and two ends of the other first inclined short rod 6 are respectively hinged with the inner wall of the notch of the first rear groove 212 and one end of the second hinging block 72, far away from the first vertical long rod 5, of a pin shaft; the middle parts of the two second vertical long rods 8 are respectively arranged in a second front groove 213 and a second rear groove 214, the upper parts of the two second vertical long rods 8 are fixedly provided with a third hinge block 73 and a fourth hinge block 74, two ends of a second inclined short rod 9 are respectively hinged with the inner wall of the notch of the first front groove 213 and one end of the third hinge block 73 far away from the second vertical long rod 8 through a pin shaft, and two ends of the other second inclined short rod 9 are respectively hinged with the inner wall of the notch of the second rear groove 214 and one end of the fourth hinge block 74 far away from the second vertical long rod 8 through a pin shaft; the bottom ends of the two first long vertical rods 5 and the two second long vertical rods 8 are respectively provided with an angle adjusting device 17, the angle adjusting devices 17 are provided with LED spot lamps 13, and the angle adjusting devices 17 automatically adjust the irradiation angles of the spot lamps; a pin shaft at one side of a photovoltaic panel 28 is hinged at the bottom of the frame 1, a first linear guide rail 23 is fixed at the side of the photovoltaic panel, a connecting rod 25 is hinged on a pin shaft on the lifting frame 2, the other end of the connecting rod 25 is hinged with a slide block pin shaft of the first linear guide rail 23, a control box 26 is installed on the lifting frame 2, a storage battery 20 and a control module 19 are installed in the control box 26, the storage battery 20 is respectively connected with the photovoltaic panel 28 and the control module 19, the control module 19 is connected with a lifting electric cylinder 27 and an LED spotlight 13, wherein a three-dimensional billboard or a three-dimensional artwork is fixed at the top end of the frame, a mains supply charging module 22 is connected on the storage battery, the mains supply charging module 22 comprises a current divider 223, an analog-to-digital conversion module 224, a single chip microcomputer 221 and a relay 222 connected with a mains supply, the current divider is connected on a connecting wire between the storage battery and the photovoltaic panel, the current divider is connected with the analog-to-digital conversion module, and the single chip microcomputer, the single chip microcomputer is connected with the relay, whether the photovoltaic panel provides current for the storage battery is detected through the current divider, the minimum current limiting parameter is set for the single chip microcomputer, if the current output value of the photovoltaic panel is lower than the current limiting parameter value, the single chip microcomputer controls the relay switch to be conducted, then the storage battery is charged through the mains supply, and when the current output value of the photovoltaic panel is higher than the current limiting parameter value, the single chip microcomputer controls the relay switch to be disconnected, and the storage battery is charged through solar energy.

The lamp using method realized on the basis of the structure comprises the following steps: when the lifting frame is used at night, the telescopic rod of the lifting electric cylinder extends to enable the lifting frame to ascend, and the bottom of the first inclined short rod and the bottom of the second inclined short rod are inclined towards the long rod direction, so that the bottom of the first inclined short rod and the bottom of the second inclined short rod in the lifting frame ascending process are respectively acted on the first vertical long rod and the second vertical long rod, so that the first vertical long rod rotates towards the bottom of the first front groove, the other first vertical long rod rotates towards the bottom of the first rear groove, the second vertical long rod rotates towards the bottom of the second front groove, the other second vertical long rod rotates towards the bottom of the second rear groove until the lifting frame is pushed to the top of the frame, the two first vertical long rods and the two second vertical long rods are in a horizontal state after rotating for 90 degrees, and then the angle adjustment instruction and the illumination color control module are wirelessly received by the control module, After the intensity instruction, the angle adjusting device acts to adjust the illumination angle of the spotlight, and correspondingly adjusts the illumination color and the illumination intensity which are suitable for highlighting the unique artistic sense according to the color of the three-dimensional billboard or the color of the three-dimensional artwork; in the daytime, the telescopic rod of the lifting electric cylinder retracts to enable the lifting frame to descend, the first inclined short rod and the second inclined short rod pull the long rods to rotate, so that one first vertical long rod rotates towards the direction in the groove of the first front groove, the other first vertical long rod rotates towards the direction in the groove of the first rear groove, one second vertical long rod rotates towards the direction in the groove of the second front groove, the other second vertical long rod rotates towards the direction in the groove of the second rear groove until the lifting frame descends to the lowest limit position, the two first vertical long rods and the two second vertical long rods are in a vertical state after rotating for 90 degrees and are set to be stored in the frame, so that the long rods and the spot light are stored, the use method of the lifting frame enables the short rods and the long rods to be linked to realize upward expansion and exposure or downward folding of the spot light, and the shielding plates 18 are fixed at the openings at the two sides of the frame, and be provided with two on the shielding plate respectively with the first vertical stock in the first preceding recess and the second in the recess before the second vertical stock position correspond elongated hole 181, be provided with two on another shielding plate respectively with the first vertical stock in the first back recess and the second in the recess behind the second vertical stock position correspond elongated hole 181, thereby make stock and shot-light obtain further hiding and accomodate through the setting up of shielding plate, be provided with the elongated hole 181 that corresponds with two connecting rod positions respectively on two shielding plates 18.

In addition, the light receiving surface of the photovoltaic panel faces upwards, the lifting frame utilizes the effect of the connecting rod and the linear guide rail to fold and unfold the photovoltaic panel in the lifting process, the photovoltaic panel is folded and folded when the lifting frame ascends, the photovoltaic panel is unfolded after the lifting frame descends, and the photovoltaic panel is folded and folded at night when unfolded, and the solar energy can be conveniently stored and charged in the storage battery through the photovoltaic panel when the photovoltaic panel is folded and folded at night to supply power to each electronic device at night.

In this embodiment, the angle adjusting device 17 comprises a rotating plate 174, the bottom ends of the two first long vertical rods 5 and the two second long vertical rods 8 are fixed with a first electric linear push rod 171 and a T-shaped rod 173, the rotating plate 174 is provided with a long through hole 172, the rotating plate 174 is sleeved on the longitudinal part of the T-shaped rod 173 through the long through hole 172, the LED spot lamp 13 is fixed at one end of the rotating plate 174, the end part of the telescopic rod of the first electric linear push rod is hinged with the other end pin shaft of the rotating plate, the first electric linear push rod is connected with the control module, the telescopic rod of the first electric linear push rod stretches and retracts to push the rotating plate to rotate back and forth so as to adjust the illumination angle of the LED spot lamp, the structure of the LED spot lamp adjusts the illumination angle of the LED spot lamp through the electric linear push rod, so that the angle adjustment precision is better, and angle adjustment is reliable and stable, and wherein first electronic sharp push rod is parallel to each other with the stock.

Based on above-mentioned device, when needing to carry out angular adjustment, first electronic sharp push rod's telescopic link stretches out and promotes the rotor plate and take place the rotation to make the LED shot-light take place the swing, thereby accomplish and correspond angular adjustment, consequently can obtain its angular adjustment and control the illumination angle of LED shot-light through the telescopic link protrusion distance.

In this embodiment, the two first vertical long rods 5 and the two second vertical long rods 8 are fixed with a second linear guide rail 162 and a second electric linear push rod 161, a mounting plate 163 is fixed on a sliding block of the second linear guide rail 162, the mounting plate 163 fixes a longitudinal portion of the T-shaped rod 173 and the first electric linear push rod 171, an end portion of a telescopic rod of the second electric linear push rod 161 is fixedly connected with one end of the mounting plate 163, the telescopic rod of the second electric linear push rod 161 is extended and retracted to and fro pushing the mounting plate 163, and the position of the LED spot light 13 is adjusted and controlled, the structure thereof forms a position adjusting mechanism 16, wherein the position of the LED spot light is controlled with higher precision by the electric linear push rod, the LED spot light is stable and reliable during displacement, and the second electric linear push rod and the long rods are arranged in parallel to each other, wherein the position of the mounting plate is controlled by the extension and retraction of the telescopic rod of the second electric linear push rod, therefore, the position of the corresponding LED spotlight is adjusted and controlled, and the adjustment of the position is performed after the long rod is unfolded.

In this embodiment, two inner walls are fixed with vertical guide rail 3 respectively about frame 1's top, and a side of vertical guide rail 3 is provided with vertical guide way 31, and the matching has direction slider 4 in vertical guide way 31, and two direction sliders 4 are fixed continuous with drive division 21 respectively, and its structure setting makes the crane slide at vertical guide way at the lift in-process direction slider to steady reliable when reaching the lift displacement of crane, promote performance.

In the embodiment, lower limit contact switches 11 are arranged below the bottom ends of the two vertical guide rails 3, and an upper limit contact switch 15 is fixed on the inner wall of the top of the frame 1; lower limit contact switch 11 passes through supporting shoe 12 to be fixed on the frame inner wall, and correspond with the position of drive division 21, lower limit contact switch 11 and last limit contact switch 15 all link to each other with control module group 19, its structure setting makes the crane after the crane touches last limit contact switch in the lift process, control module group gets lift electric cylinder stop work behind the signal of last limit contact switch, and wait for the restart signal, after the crane touches lower limit contact switch, control module group gets lift electric cylinder stop work behind the signal of lower limit contact switch, and wait for the restart signal, thereby realize carrying on spacingly when going up and down to the crane.

In this embodiment, be fixed with four stock locating component 14 on frame 1's the top inner wall, all be provided with the location on four stock locating component 14 and lead to groove 142, the location that two stock locating component 14 lead to groove 142 is two first vertical stock 5's position respectively and corresponds, the location that two stock locating component 14 lead to groove 142 in addition corresponds with the position of two vertical stock 8 of second respectively, wherein stock locating component comprises the locating block of two mutual intervals settings, and form the location between two locating pieces 141 and lead to the groove, thereby the stock is absorbed in the location and is led to the inslot and fix a position after the expansion, prevent that the stock from blowing the messenger and taking place to rock through strong wind in the external world, make the location after the stock expansion more reliable and more stable.

In this embodiment, the control module 19 includes a light control module 191 and an LED spotlight position adjustment module 192, and the light control module is connected with four LED spotlight 13 respectively, the LED spotlight position adjustment module 192 is connected with the lifting electric cylinder 27, the first linear push rod 161 and the second linear push rod 171 respectively, wherein the light control module adjusts the illumination intensity and the color temperature of the LED spotlight according to the received light control instruction, and the LED spotlight position adjustment module adjusts the illumination angle and the illumination position of the LED spotlight according to the received angle control instruction and position control instruction.

Further, the light control module 191 includes four light source driving modules 1911, a first single chip 1912 and a first wireless communication transmission module 1913, the four LED lamps 13 include a housing, a plurality of white LED lamps 131, a plurality of yellow LED lamps 133, a plurality of red LED lamps 132 and a plurality of blue LED lamps 134 disposed in the housing, and a light-transmitting plate installed at a port of the housing, and the plurality of white LED lamps, yellow LED lamps, red LED lamps and blue LED lamps are arranged in a rectangular array, the four light source driving modules are respectively connected with the white LED lamps, yellow LED lamps, red LED lamps and blue LED lamps, and the storage battery is respectively connected with the four light source driving modules 1911, the first single chip 1912 and the first wireless communication transmission module 1913, the first single chip is respectively connected with the four light source driving modules, wherein the first wireless communication transmission module is a bluetooth module and is wirelessly connected with a mobile bluetooth terminal having a light adjustment control program, at the moment, a light adjustment control program is turned on, four light intensity control groups are displayed in the interface, each of the four light intensity control groups comprises a white light control knob, a yellow light control knob, a red light control knob and a blue light control knob, at least one light can be turned off by using the white light control knob, the yellow light control knob, the red light control knob and the blue light control knob, at the moment, when the light adjustment is carried out, one or more of the white light control knob, the yellow light control knob, the red light control knob and the blue light control knob is controlled, after the adjustment is carried out, the first single chip microcomputer carries out conversion processing according to the received corresponding regulation and control signals to form current output control signals, controls the current output of the four light source driving modules according to the current output control signals, and can also control any one or more light source driving modules to stop the current output, so as to complete the illumination intensity, the color temperature of illumination colour, illumination carries out effective control to for wireless control, make adjustment control convenient, promote performance, but also can carry out the pertinence adjustment according to the work of art of difference, in order to reach the work of art when night its artistic feature can obtain abundant demonstration and salient.

Further preferably, the LED spotlight position adjusting module 192 includes an optical sensor 1923, a second single chip microcomputer 1921 and a second wireless communication transmission module 1922, the optical sensor 1923 and the second wireless communication transmission module 1922 are both connected to the second single chip microcomputer 1921, the second single chip microcomputer 1921 is connected to the lifting electric cylinder 27, the first linear push rod 161 and the second linear push rod 171, the storage battery 20 is respectively connected to the optical sensor 1923, the second single chip microcomputer 1921, the second wireless communication transmission module 1922, the upper limit contact switch 11 and the lower limit contact switch 15, the second wireless communication transmission module 1922 also adopts a bluetooth module, wherein the second single chip microcomputer records a program for automatically controlling the lifting electric cylinder and a brightness limit parameter, so that the optical sensor senses the outside brightness exceeding the brightness limit parameter and transmits the sensed data to the second single chip microcomputer, and the second single chip microcomputer forms a lifting electric cylinder control instruction according to the optical sensor data, the lifting electric cylinder drives the telescopic rod of the lifting electric cylinder to extend out according to the control instruction so as to drive the long rod to expand; when the external brightness sensed by the light sensor is lower than the brightness limiting parameter, sensing data of the light sensor are transmitted to the second single chip microcomputer, the second single chip microcomputer forms a lifting electric cylinder control instruction according to the data of the light sensor, and the lifting electric cylinder drives the telescopic rod of the lifting electric cylinder to retract according to the control instruction to drive the long rod to fold and hide; wherein after the long rod is unfolded, a debugging person enables a mobile hand-held terminal with an angle position adjusting control program on hand to be in Bluetooth wireless connection with the LED spotlight position adjusting module according to a corresponding three-dimensional artwork, then opens an angle position adjusting control interface, and the interface is provided with a position adjusting interface and an angle adjusting interface, so that the debugging person can control the position adjusting interface and the angle adjusting interface, after an angle adjusting control instruction and a position adjusting control instruction are formed after adjustment, the two instructions are sent to a second single chip microcomputer through wireless Bluetooth, and the second single chip microcomputer forms a control signal according to the two instructions and is respectively received by a first electric linear push rod and a second electric linear push rod, so that telescopic rods of the first electric linear push rod and the second electric linear push rod are stretched to complete angle and position adjustment, and the adjustment is real-time control receiving adjustment, the adjustment efficiency is improved, and the safety of the work on angle and position adjustment is further ensured.

The present invention is not limited to the above-mentioned preferred embodiments, and any other products in various forms can be obtained by anyone in the light of the present invention, but any changes in the shape or structure thereof, which have the same or similar technical solutions as those of the present application, fall within the protection scope of the present invention.

Claims

1. A solar charging energy-saving spot lamp is characterized by comprising a frame, a photovoltaic panel, a lifting electric cylinder, a lifting frame, two first vertical long rods, two first inclined short rods, two second vertical long rods and two second inclined short rods, wherein the lifting electric cylinder, the lifting frame, the two first vertical long rods, the two first inclined short rods, the two second vertical long rods and the two second inclined short rods are arranged in the frame; the lifting electric cylinder is in a vertical state, and the tail end of the cylinder body is fixedly connected with the bottom in the frame; the lifting frame is fixed on a telescopic rod of the lifting electric cylinder, the left side and the right side of the lifting frame are respectively provided with a driving part, one driving part is provided with a first front groove and a first rear groove, and the other driving part is provided with a second front groove and a second rear groove;

the middle parts of the two second vertical long rods are respectively arranged in the second front groove and the second rear groove, the upper parts of the two second vertical long rods are fixedly provided with a third hinging block and a fourth hinging block, two ends of one second inclined short rod are respectively hinged with the inner wall of a notch of the first front groove and one end of the third hinging block, which is far away from the second vertical long rod, and two ends of the other second inclined short rod are respectively hinged with the inner wall of a notch of the second rear groove and one end of the fourth hinging block, which is far away from the second vertical long rod;

the bottom ends of the two first long vertical rods and the bottom ends of the two second long vertical rods are respectively provided with an angle adjusting device, the angle adjusting devices are provided with LED spot lamps, and the irradiation angles of the spot lamps are automatically adjusted by the angle adjusting devices;

a side pin shaft of the photovoltaic panel is hinged to the bottom of the frame, a first linear guide rail is fixed to the side edge of the photovoltaic panel, a connecting rod is hinged to a pin shaft on the lifting frame, the other end of the connecting rod is hinged to a sliding block pin shaft of the first linear guide rail, a control box is installed on the lifting frame, a storage battery and a control module are installed in the control box, the storage battery is respectively connected with the photovoltaic panel and the control module, and the control module is connected with the lifting electric cylinder and the LED spotlight.

2. The solar charging energy-saving spot lamp according to claim 1, wherein the angle adjusting device comprises a rotating plate, a first electric linear push rod and a T-shaped rod are fixed at the bottom ends of the two first vertical long rods and the two second vertical long rods, a long through hole is formed in the rotating plate, the rotating plate is sleeved on the longitudinal portion of the T-shaped rod through the long through hole, the LED spot lamp is fixed at one end of the rotating plate, the end portion of a telescopic rod of the first electric linear push rod is hinged to the other end of the rotating plate through a pin shaft, the first electric linear push rod is connected with the control module, and the telescopic rod of the first electric linear push rod stretches to push the rotating plate to rotate so as to adjust the illumination angle of the LED spot lamp.

3. The solar energy charging energy-saving spot lamp according to claim 2, wherein the two first vertical long rods and the two second vertical long rods are respectively fixed with a second linear guide rail and a second electric linear push rod, the slider of the second linear guide rail is fixed with a mounting plate, the mounting plate is fixed with the longitudinal part of the T-shaped rod and the first electric linear push rod, the end part of the telescopic rod of the second electric linear push rod is fixedly connected with one end of the mounting plate, and the telescopic rod of the second electric linear push rod is telescopic to move back and forth to push the mounting plate and adjust and control the position of the LED spot lamp.

4. The solar energy charging energy-saving spot lamp as claimed in claim 3, wherein vertical guide rails are fixed on the left and right inner walls of the top of the frame, respectively, a vertical guide groove is formed in one side surface of the vertical guide rail, a guide slider is matched in the vertical guide groove, and the two guide sliders are respectively and fixedly connected with the driving part.

5. The solar energy charging energy-saving spot lamp according to claim 4, wherein lower limit contact switches are arranged below the bottom ends of the two vertical guide rails, and upper limit contact switches are fixed on the inner wall of the top of the frame; the lower limit contact switch is fixed on the inner wall of the frame through the supporting block and corresponds to the position of the driving part, and the lower limit contact switch and the upper limit contact switch are both connected with the control module.

6. The solar energy charging energy-saving spot lamp as claimed in claim 5, wherein four long rod positioning assemblies are fixed on the inner wall of the top of the frame, and each of the four long rod positioning assemblies is provided with a positioning through groove, the positioning through grooves of two long rod positioning assemblies correspond to the positions of two first vertical long rods, and the positioning through grooves of the other two long rod positioning assemblies correspond to the positions of two second vertical long rods.

7. The solar charging energy-saving spotlight according to claim 5, wherein the control module comprises a light control module and an LED spotlight position adjustment module, the light control module is respectively connected with four LED spotlight, and the LED spotlight position adjustment module is respectively connected with the lifting electric cylinder, the first electric linear push rod and the second electric linear push rod.

8. The solar charging energy-saving spot lamp according to claim 7, wherein the light control module comprises four light source driving modules, a first single chip microcomputer and a first wireless communication transmission module, the four LED spot lamps comprise a housing, a plurality of white LED lamps, a plurality of yellow LED lamps, a plurality of red LED lamps and a plurality of blue LED lamps are arranged in the housing, and a light-transmitting plate is arranged at the port of the housing, the plurality of white LED lamps, the plurality of yellow LED lamps, the plurality of red LED lamps and the plurality of blue LED lamps are arranged in a rectangular array, the four light source driving modules are respectively connected with the white LED lamps, the plurality of yellow LED lamps, the plurality of red LED lamps and the plurality of blue LED lamps, the storage battery is respectively connected with the four light source driving modules, the first single chip microcomputer and the first wireless communication transmission module, and the first single chip microcomputer is respectively connected with the four light source driving modules.

9. The solar charging energy-saving spotlight according to claim 7 or 8, wherein the LED spotlight position adjusting module comprises a light sensor, a second single chip microcomputer and a second wireless communication transmission module, the light sensor and the second wireless communication transmission module are both connected with the second single chip microcomputer, the second single chip microcomputer is connected with the lifting electric cylinder, the first electric linear push rod and the second electric linear push rod, and the storage battery is respectively connected with the light sensor, the second single chip microcomputer, the second wireless communication transmission module, the upper limit contact switch and the lower limit contact switch.