JP2021068687A - Environmental protection type wind energy search light used in construction site - Google Patents

Abstract

To provide an environmental protection type wind energy search light used in a construction site, according to the present invention.SOLUTION: An environmental protection type wind energy search light is provided which is configured by: including a leg fixedly mounted on a ground surface; mounting an irradiation head rotatably on a top face of the leg; installing an irradiation space at the irradiation head; fixedly mounting an electric bulb capable of lighting up inside a right-side inner wall of the irradiation space; installing a lens frame space communicating with the irradiation space in an upper-side inner wall of the irradiation space; installing a first gear space on the left side of the lens frame space; installing a second gear space on the left side of the first gear space; mounting a spline shaft between the second gear space and the lens frame space; mounting an optical processing component capable of converging or diverging light emitted by the electric bulb at the spline shaft; mounting a blade shaft rotatably on the irradiation head; and installing a wind energy using component capable of generating electric power with wind energy on the right side of the blade shaft.SELECTED DRAWING: Figure 1

Description

The present invention relates to the field of construction site lighting, and specifically to an environmental protection type wind energy searchlight used at a construction site.

At night on the construction site, a searchlight will be placed at the construction site to ensure the safety and smoothness of the construction. However, since the search lights currently in use are fixedly attached to buildings, there are blind spots. In addition, the lighting range and distance of the searchlight can be adjusted according to the actual situation, and the applicable range is limited. In addition, the searchlight requires an external power supply, which makes it difficult to operate when a large amount of electric wires are entangled, and moreover, the construction site. It is a problem for searchlights that have a lot of dust and do not have environmental protection functions such as dust protection.

Chinese Patent Application Publication No. 103327760

We will provide an environmental protection type wind energy searchlight used at construction sites to solve the above problems.

An environmentally friendly wind energy search light used at construction sites, including a vertical pillar fixedly mounted on the ground, an irradiation head is rotatably mounted on the top surface of the vertical pillar, and the irradiation head is irradiated. A space is installed, a light bulb that can be illuminated is fixedly mounted in the right inner wall of the irradiation space, and a lens frame space communicating with the irradiation space is installed in the upper inner wall of the irradiation space. The first gear space is installed on the left side of the frame space, the second gear space is installed on the left side of the first gear space, and the spline shaft can rotate between the second gear space and the lens frame space. A light processing component capable of converging or dispersing the light emitted from the light bulb is installed on the spline shaft.
A blade shaft is rotatably mounted on the irradiation head, a wind energy utilization component capable of generating power with wind energy is installed on the right side of the blade shaft, and the wind energy utilization component is fixedly attached to the right side surface of the blade shaft. Including the mounted connecting block, the blades are hinged to the connecting block, the blades can be accommodated in a large wind force, a pulley space is installed on the left side of the second gear space, and the blades. The shaft penetrates the pulley space, the pulley shaft is rotatably mounted between the pulley space and the second gear space, the wind energy utilization component is connected to the pulley shaft, and the second gear shaft is connected. In the gear space and the first gear space, control parts for switching between convergence and dispersion of the light processing parts with respect to light are installed.
The control component includes a first gear fixedly mounted on the pulley shaft, a second gear is mounted on the spline shaft as a spline, and the first gear rotates the second gear 180 degrees. By not engaging the second gear and the first gear after the second gear is engaged, convergence and dispersion with respect to light are switched, and an adjustment component capable of rotating the irradiation head to adjust the irradiation position is installed in the vertical column. A nozzle that injects water to the outside to drop dust is fixedly mounted on the outer surface of the.

Advantageously, the light processing component includes a lens connecting frame fixedly mounted on the spline shaft, in which the lens frame is vertically symmetrically and slidably installed, and the lens frame and the lens. A cushioning spring is fixedly attached to the connecting frame, a concave surface capable of condensing light is installed on the lower buffer spring, and a concave mirror capable of diffusing light is fixedly attached to the upper buffer spring. ing.

Advantageously, the wind energy utilization component also includes a first electromagnet fixedly mounted on the right side surface of the irradiation head, the blade shaft is fixedly mounted with a slide ring, said slide ring and said. A pulling spring is fixedly mounted between the connecting block, and four pulling rods are centrally symmetrically connected to the slide ring by hinges so as to surround the blade shaft, and the pulling rod and the blade are connected to each other. Connected by a hinge, the first permanent magnet is mounted symmetrically and fixedly on the left side surface of the slide ring, and the hook hook is mounted symmetrically and fixedly on the left side surface of the slide ring. A front-back symmetrical hook hook space is installed on the right side surface of the irradiation head, and a first electromagnetic space communicating with the hook hook space is installed front-back symmetrically in the front-rear inner wall of the hook hook space. A hooking block is slidably mounted in the first electromagnetic space, a second electromagnet is fixedly mounted in one side inner wall of the first electromagnetic space, and one side surface of the hooking block is fixedly mounted. The second permanent magnet is fixedly mounted, and the first push-moving spring is fixedly mounted between the second permanent magnet and the first electromagnetic space.

Advantageously, a universal joint is fixedly mounted on the blade shaft, a generator is fixedly mounted in the left inner wall of the pulley space, and the output shaft of the generator and the blade shaft are connected to each other. It is fixedly connected, a storage battery is fixedly mounted in the irradiation head, and the storage battery and the blade shaft are connected by an electric signal.

Beneficially, the control component also includes a first pulley fixedly mounted on the blade shaft, the second pulley fixedly mounted on the pulley shaft, and within the right inner wall of the pulley space. A second electromagnetic space communicating with the pulley space is installed, a tension pulley slide block is slidably mounted in the second electromagnetic space, and a tension pulley is rotatably mounted on the tension pulley slide block. A third electromagnet is fixedly mounted on the front inner wall of the second electromagnetic space, and a third permanent magnet is fixedly mounted on the front side surface of the tension pulley slide block, and the third permanent magnet and the third permanent magnet are fixedly mounted. A second push-moving spring is fixedly mounted between the electromagnet and the second pulley, and a belt is traversably mounted between the second pulley, the tension pulley, and the first pulley.

A slide ring space is installed on the left side of the second gear space, a fourth electromagnet is fixedly mounted on the left inner wall of the slide ring space, and a slide link is slidably mounted in the slide ring space. A fourth permanent magnet is fixedly attached to the slide ring, a push rod is fixedly attached to the right side surface of the slide link, and a fixed block is fixedly attached to the left side surface of the second gear. When mounted, a slide groove is formed in the fixed block, and the push rod and the slide groove are slidably connected to each other.

A switching motor is fixedly mounted in the right inner wall of the first gear space, a third gear is fixedly mounted in the output shaft of the switching motor, and in the first gear space in the spline shaft. A fourth gear is fixedly mounted on the vehicle, and the fourth gear and the third gear are in mesh with each other.

The adjusting component includes a third gear space installed in the vertical column, and a rotary wheel shaft is rotatably installed between the left side surface of the vertical column and the left inner wall of the third gear space, and the rotary wheel shaft is rotatably installed. A rotary wheel is fixedly attached to the left side surface of the vertical column, an insertion rod is slidably attached to the left surface of the vertical column, the insertion rod can hook the rotary wheel, and the right surface of the rotary wheel shaft is slidable. A fifth gear is fixedly mounted, a lifting operating space is installed above the third gear space, and a gear penetrating the top surface of the vertical column is provided between the lifting operating space and the third gear space. The shaft is rotatably mounted, the gear shaft can slide up and down in the vertical column, the sixth gear is fixedly mounted on the gear shaft, and the sixth gear meshes with the fifth gear. A lift push block is slidably mounted between the left inner wall of the lift operating space and the left surface of the vertical column, a lift wheel disk is fixedly mounted on the gear shaft, and the lift push block is mounted. The lifting wheel disk can be raised, the seventh gear is fixedly mounted on the top surface of the gear shaft, and an inwardly recessed recessed groove is formed on the bottom surface of the irradiation head, and the inside of the recessed groove is formed. An internal gear is installed in the center, and the internal gear in the recessed groove meshes with the seventh gear.

The tail wing is fixedly attached to the left side surface of the irradiation head.

The beneficial effect of the present invention is: The present invention realizes self-power supply by generating electricity with wind power to reduce the external power supply, and also ejects water to the outside at the construction site where the present invention is installed to prevent dust. It can be realized, meet the requirements of environmental protection, and protect the environment.
In addition, the irradiation head can rotate freely depending on the wind direction during power generation, and the irradiation head can be fixed by adjusting the irradiation angle during nighttime use, and it is applied to different construction sites and has a widespread value.

In order to explain the present invention in detail with reference to FIGS. 1 to 7 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention and is described in the present application. Each direction is the direction when the device is viewed in the same direction as in FIG.

FIG. 1 is an overall configuration diagram of the present invention. FIG. 2 is a cross-sectional configuration diagram in the AA direction in FIG. FIG. 3 is a cross-sectional configuration diagram in the BB direction in FIG. FIG. 4 is a cross-sectional configuration diagram in the CC direction in FIG. FIG. 5 is an enlarged configuration diagram of D in FIG. FIG. 6 is an enlarged configuration diagram of E in FIG. FIG. 7 is a top view of the lifting push block 19.

As shown in FIGS. 1 to 7, it is an environment-protecting wind energy searchlight used at a construction site, and includes a vertical column 10 fixedly mounted on the ground, and an irradiation head 23 is provided on the top surface of the vertical column 10. Is rotatably mounted, an irradiation space 90 is installed in the irradiation head 23, and a light bulb 48 that can be illuminated is fixedly mounted in the right inner wall of the irradiation space 90, and is attached to the upper inner wall of the irradiation space 90. A lens frame space 43 communicating with the irradiation space 90 is installed inside, a first gear space 75 is installed on the left side of the lens frame space 43, and a second gear space is installed on the left side of the first gear space 75. 62 is installed, a spline shaft 61 is rotatably mounted between the second gear space 62 and the lens frame space 43, and the spline shaft 61 is subjected to optical processing capable of converging or dispersing the light emitted from the light bulb 48. Part 80 is installed,
A blade shaft 34 is rotatably mounted on the irradiation head 23, a wind energy utilization component 81 capable of generating power with wind energy is installed on the right side of the blade shaft 34, and the wind energy utilization component 81 is attached to the blade shaft 34. A connecting block 41 fixedly mounted on the right side surface is included, and the blade 40 is connected to the connecting block 41 by a hinge, and the blade 40 can be accommodated in a large wind force, and the second gear space 62. A pulley space 28 is installed on the left side, the blade shaft 34 penetrates the pulley space 28, and a pulley shaft 32 is rotatably mounted between the pulley space 28 and the second gear space 62. The wind energy utilization component 81 is connected to the pulley shaft 32, and in the second gear space 62 and the first gear space 75, a control component 82 that switches between convergence and dispersion of the light processing component 80 with respect to light is provided. Installed,
The control component 82 includes a first gear 63 fixedly mounted on the pulley shaft 32, a second gear 73 is mounted on the spline shaft 61 as a spline, and the first gear 63 is the second gear 73. By not engaging the second gear 73 and the first gear 63 after the rotation is interlocked by 180 degrees, the convergence and dispersion with respect to the light are switched, and the irradiation head 23 is rotated in the vertical column 10 to perform the irradiation position. An adjusting component 83 is installed, and a nozzle 22 that injects water to the outside to drop dust is fixedly mounted on the outer surface of the vertical column 10.

The light processing component 80 includes a lens connecting frame 45 fixedly mounted on the spline shaft 61, and the lens frame 44 is vertically symmetrically and slidably installed on the lens connecting frame 45 to and the lens frame 44. A cushioning spring 47 is fixedly attached to the lens connecting frame 45, a concave surface capable of condensing light is provided on the lower buffer spring 47, and a concave mirror capable of diffusing light on the upper buffer spring 47. 46 is fixedly attached, and after the lower cushioning spring 47 moves to the light bulb 48, the cushioning spring 47 presses the lens frame 44 and the light bulb 48, and the concave surface of the cushioning spring 47 can collect light, and the upper side can be focused. The concave mirror 46 in the cushioning spring 47 can disperse light to widen the irradiation range.

The wind energy utilization component 81 also includes a first electromagnet 35 fixedly mounted on the right side surface of the irradiation head 23, and a slide ring 38 is fixedly mounted on the blade shaft 34 with the slide ring 38. A pulling spring 42 is fixedly attached to the connecting block 41, and four pulling rods 39 are centrally symmetrically connected to the slide ring 38 by a hinge so as to surround the blade shaft 34. The rod 39 and the blade 40 are connected by a hinge, the first permanent magnet 36 is vertically symmetrically and fixedly mounted on the left side surface of the slide ring 38, and a hook hook is attached to the left side surface of the slide ring 38. 37 is mounted symmetrically and fixedly, and a hook space 50 that is symmetrical in the front-rear direction is installed on the right side surface of the irradiation head 23, and the hook hook space 50 is inside the front-rear inner wall of the hook space 50. The first electromagnetic space 53 communicating with the space 50 is installed symmetrically in the front-rear direction, and the hooking block 51 is slidably mounted in the first electromagnetic space 53, and is inside the inner wall on one side of the first electromagnetic space 53. The second electromagnet 55 is fixedly mounted, and the second permanent magnet 52 is fixedly mounted on one side surface of the hooking block 51, between the second permanent magnet 52 and the first electromagnetic space 53. The first push-moving spring 54 is fixedly attached to the magnet, and the blade 40 is kept open by the action of the pull rod 39. In a strong wind, the first electromagnet 35 is energized and the first electromagnet 35 is the first. (1) The permanent magnet 36 is attracted, the slide ring 38 pulls the pull rod 39 to the left, the pull rod 39 pulls the blade 40 to store it, and the slide ring 38 interlocks the hook hook 37 to store the hook. When the hook block 51 hooks the hook 37 and the blade 40 opens, the second electromagnet 55 is energized, and the second electromagnet 55 attracts the second permanent magnet 52 and hooks the second electromagnet 52. The hook 51 does not hook the hook 37, the hook 37 is separated from the hook space 50, and the blade 40 is opened by the action of the pulling spring 42.

A universal joint 31 is fixedly mounted on the blade shaft 34, and a generator 26 is fixedly mounted in the left inner wall of the pulley space 28, and the output shaft of the generator 26 and the blade shaft 34 Is fixedly connected, a storage battery 49 is fixedly mounted in the irradiation head 23, the storage battery 49 and the blade shaft 34 are connected by an electric signal, and the blade 40 rotates and interlocks the blade shaft 34. At that time, the blade shaft 34 interlocks the generator 26 with the power generation, and the electricity generated from the generator 26 is stored by the storage battery 49.

The control component 82 also includes a first pulley 30 fixedly mounted on the blade shaft 34, a second pulley 33 fixedly mounted on the pulley shaft 32, and inside the right inner wall of the pulley space 28. A second electromagnetic space 58 communicating with the pulley space 28 is installed in the second electromagnetic space 58, a tension pulley slide block 56 is slidably mounted in the second electromagnetic space 58, and a tension pulley is mounted on the tension pulley slide block 56. 90 is rotatably mounted, a third electromagnet 60 is fixedly mounted on the front inner wall of the second electromagnetic space 58, and a third permanent magnet 57 is fixedly mounted on the front side surface of the tension pulley slide block 56. A second push-moving spring 59 is fixedly mounted between the third permanent magnet 57 and the third electromagnet 60, and the second pulley 33, the tension pulley 90, and the first pulley 30 are mounted. A belt 29 is movably mounted between the two, and after energizing the third electromagnet 60, the third electromagnet 60 pushes and moves the third permanent magnet 57 and the tension pulley slide block 56 to slide the second electromagnet 60 backward. After the electromagnet 55 pulls the belt 29, the first pulley 30 rotates and interlocks the second pulley 33, and the third electromagnet 60 causes a power failure, the first pulley 30 cannot rotate and interlock the second pulley 33.

A slide ring space 64 is installed on the left side of the second gear space 62, a fourth electromagnet 65 is fixedly mounted on the left inner wall of the slide ring space 64, and a slide link is provided in the slide ring space 64. 67 is slidably mounted, a fourth permanent magnet 66 is fixedly mounted on the slide ring 67, a push rod 69 is fixedly mounted on the right side surface of the slide link 67, and the second gear 73 is mounted. A fixed block 70 is fixedly mounted on the left side surface of the above, a slide groove 71 is formed in the fixed block 70, and the push rod 69 and the slide groove 71 are slidably connected to form a lens connecting frame 45. When interlocking with rotation, the fourth electromagnet 65 is energized, the fourth electromagnet 65 pushes the fourth permanent magnet 66 and the slide ring 67 to the right and slides them, and the first gear 63 rotates and interlocks the second gear 73. After the fixed block 70 is rotated and interlocked by the second gear 73 by 180 degrees, the second gear 73 slides to the right by the action of the slide groove 71 and does not mesh with the first gear 63, so that the lens After the connecting frame 45 rotates 180 degrees, it stops rotating, and after passing a current in the opposite direction to the fourth electromagnet 65, the fourth permanent magnet 66 pulls the slide ring 67 and slides it to the left, and the second gear 73 is pulled and meshes with the first gear 63.

A switching motor 78 is fixedly mounted in the inner wall on the right side of the first gear space 75, and a third gear 76 is fixedly mounted on the output shaft of the switching motor 78. A fourth gear 77 is fixedly mounted in the one gear space 75, and the fourth gear 77 and the third gear 76 are meshed with each other. When the switching motor 78 is started, the switching motor 78 moves to the third gear. The 76 is rotationally interlocked, the third gear 76 is rotated, the fourth gear 77 is rotationally interlocked by 180 degrees, and the lens connecting frame 45 is rotationally interlocked.

The adjusting component 83 includes a third gear space 12 installed in the vertical column 10, and a rotary wheel shaft 17 can rotate between the left side surface of the vertical column 10 and the left inner wall of the third gear space 12. The rotary wheel 16 is fixedly mounted on the left side surface of the rotary wheel shaft 17, the insertion rod 15 is slidably mounted on the left side surface of the vertical column 10, and the insertion rod 15 hooks the rotary wheel 16. A fifth gear 18 is fixedly mounted on the right side surface of the rotary wheel shaft 17, and a lifting operating space 20 is installed above the third gear space 12, and the lifting operating space 20 and the first gear are provided. A gear shaft 13 penetrating the top surface of the vertical column 10 is rotatably mounted between the three gear spaces 12 and the gear shaft 13 can slide up and down in the vertical column 10, and the gear shaft 13 can slide up and down. The sixth gear 14 is fixedly mounted, and the sixth gear 14 can mesh with the fifth gear 18, and is lifted and pushed between the left inner wall of the lifting working space 20 and the left side surface of the standing column 10. The block 19 is slidably mounted, the lifting wheel plate 21 is fixedly mounted on the gear shaft 13, the lifting push block 19 can raise the lifting wheel plate 21, and the top surface of the gear shaft 13 can be raised. A seventh gear 24 is fixedly mounted on the surface, a recessed groove 27 recessed inward is formed on the bottom surface of the irradiation head 23, an internal gear is installed in the recessed groove 27, and the recessed groove 27 is installed. The internal gear inside meshes with the seventh gear 24, and when adjusting the irradiation angle, the lift push block 19 is pushed and moved to slide to the right, and the lift push block 19 is the sixth gear 14 and the fifth gear. The seventh gear 24 and the internal gear of the recessed groove 27 mesh with each other by pushing and moving the 18th gear, the insertion rod 15 is removed, the rotary wheel 16 is rotated, and the rotary wheel 16 rotates and interlocks the fifth gear 18. The fifth gear 18 rotates and interlocks the sixth gear 14, the sixth gear 14 rotates and the seventh gear 24 rotates and interlocks, the seventh gear 24 rotates and the irradiation head 23 rotates and interlocks, and the irradiation head 23 The irradiation angle is adjusted, and after the adjustment, the insertion rod 15 is inserted, the rotating wheel 16 does not rotate, the irradiation head 23 does not rotate, and the irradiation position is fixed.

A tail wing 25 is fixedly mounted on the left side surface of the irradiation head 23, and the tail wing 25 can generate electricity for the blade 40 in the direction of wind reception all the time when it does not operate in the daytime.

The nozzle 22 can spray water all the way to the outer construction site to drop dust, the tail wing can position the blade 40 all the way in the direction of the wind when it is not operating in the daytime, and the blade 40 is a pull rod. It remains open all the time due to the action of 39, and when there is a strong wind, the first electromagnet 35 is energized, the first electromagnet 35 attracts the first permanent magnet 36, and the slide ring 38 pulls the pull rod 39 to the left. The pull rod 39 pulls and stores the blade 40, the slide ring 38 interlocks the hook 37 to enter the hook space 50, and the hook block 51 hooks the hook 37. When the blade 40 opens, the second electromagnet 55 is energized, the second electromagnet 55 attracts the second permanent magnet 52, the hook block 51 does not hook the hook 37, and the hook hook 37 catches the hook. Apart from the space 50, the blades 40 are opened by the action of the pulling spring 42, and when the blades 40 rotate and interlock the blade shaft 34, the blade shaft 34 interlocks the generator 26 to generate electricity, and the electricity generated from the generator 26. Is stored by the storage battery 49.
When using at night, first adjust the irradiation angle, push the lift push block 19 and slide it to the right, and the lift push block 19 pushes and moves the sixth gear 14 and the fifth gear 18 to engage with each other. The seven gears 24 and the internal gears of the recessed groove 27 mesh with each other, the insertion rod 15 is removed, the rotary wheel 16 is rotated, the rotary wheel 16 rotates the fifth gear 18, and the fifth gear 18 rotates the sixth gear 14. Rotationally interlocked, the sixth gear 14 rotates to rotate the seventh gear 24, the seventh gear 24 rotates to rotate the irradiation head 23, the irradiation angle of the irradiation head 23 is adjusted, and the irradiation head 23 is inserted after the adjustment. The rod 15 is inserted, the rotating wheel 16 is not rotated, the irradiation head 23 is not rotated, and the irradiation position is fixed.
After energizing the third electromagnet 60, the third electromagnet 60 pushes and moves the third permanent magnet 57 and the tension pulley slide block 56 to slide backward, the second electromagnet 55 pulls the belt 29, and the first pulley 30 moves. After the second pulley 33 is rotationally interlocked and the third electromagnet 60 is interrupted, the first pulley 30 cannot rotate and interlock the second pulley 33, and when the second pulley 33 rotates, the first gear 63 When the lens connecting frame 45 is rotated, the fourth electromagnet 65 is energized, and the fourth electromagnet 65 pushes and moves the fourth permanent magnet 66 and the slide ring 67 to the right to slide the first gear. 63 can rotate and interlock the second gear 73, and after the second gear 73 rotates and interlocks the fixed block 70 by 180 degrees, the second gear 73 slides to the right by the action of the slide groove 71. It does not mesh with the first gear 63, the lens connecting frame 45 does not rotate after rotating 180 degrees, and after passing a current in the opposite direction to the fourth electromagnet 65, the fourth permanent magnet 66 pulls the slide ring 67. The second gear 73 is pulled and meshes with the first gear 63 to continue the next switching. When the switching motor 78 is started, the switching motor 78 rotates the third gear 76 to interlock with the third gear. 76 rotates and the fourth gear 77 is rotated and interlocked by 180 degrees to rotate and interlock the lens connecting frame 45.
After the lower buffer spring 47 moves to the bulb 48, the buffer spring 47 presses against the lens frame 44 and the bulb 48, the concave surface of the buffer spring 47 can be focused, and the concave mirror 46 of the upper buffer spring 47 The irradiation range can be expanded by scattering light.

According to the above method, those skilled in the art can carry out various changes according to the operation pattern within the scope of the present invention.

Claims (9)

An environmentally friendly wind energy search light used at construction sites, including a vertical pillar fixedly mounted on the ground, an irradiation head is rotatably mounted on the top surface of the vertical pillar, and the irradiation head is irradiated. A space is installed, a light bulb that can be illuminated is fixedly mounted in the right inner wall of the irradiation space, and a lens frame space communicating with the irradiation space is installed in the upper inner wall of the irradiation space. The first gear space is installed on the left side of the frame space, the second gear space is installed on the left side of the first gear space, and the spline shaft can rotate between the second gear space and the lens frame space. A light processing component capable of converging or dispersing the light emitted from the light bulb is installed on the spline shaft.
A blade shaft is rotatably mounted on the irradiation head, a wind energy utilization component capable of generating power with wind energy is installed on the right side of the blade shaft, and the wind energy utilization component is fixedly attached to the right side surface of the blade shaft. Including the mounted connecting block, the blades are hinged to the connecting block, the blades can be accommodated in a large wind force, a pulley space is installed on the left side of the second gear space, and the blades. The shaft penetrates the pulley space, the pulley shaft is rotatably mounted between the pulley space and the second gear space, the wind energy utilization component is connected to the pulley shaft, and the second gear shaft is connected. In the gear space and the first gear space, control parts for switching between convergence and dispersion of the light processing parts with respect to light are installed.
The control component includes a first gear fixedly mounted on the pulley shaft, a second gear is mounted on the spline shaft as a spline, and the first gear rotates the second gear 180 degrees. By not engaging the second gear and the first gear after the second gear is engaged, convergence and dispersion with respect to light are switched, and an adjustment component capable of rotating the irradiation head to adjust the irradiation position is installed in the vertical column. An environmentally friendly wind energy search light used at construction sites, which is characterized by a fixed nozzle that injects water to the outside to drop dust on the outer surface of the gear. The light processing component includes a lens connecting frame fixedly mounted on the spline shaft, and the lens frame is vertically symmetrically and slidably installed in the lens connecting frame, and the lens frame and the lens connecting frame are connected to each other. A cushioning spring is fixedly mounted between them, a concave surface capable of condensing light is installed on the lower buffer spring, and a concave mirror capable of diffusing light is fixedly mounted on the upper buffer spring. The environmentally friendly wind energy searchlight used at the construction site according to claim 1, which is a feature. The wind energy utilization component also includes a first electromagnet fixedly mounted on the right side surface of the irradiation head, and a slide ring is fixedly mounted on the blade shaft between the slide ring and the connecting block. A pulling spring is fixedly attached to the slide ring, four pull rods are connected to the slide ring by a hinge in a centrally symmetrical manner so as to surround the blade shaft, and the pull rod and the blade are connected by a hinge. The first permanent magnet is mounted symmetrically and fixedly on the left side surface of the slide ring, and the hook hook is mounted symmetrically and fixedly on the left side surface of the slide ring, and the right side of the irradiation head is mounted. A front-back symmetrical hook hook space is installed on the surface, and a first electromagnetic space communicating with the hook hook space is installed front-back symmetrically in the front-rear inner wall of the hook hook space. A hook block is slidably mounted inside, a second electromagnet is fixedly mounted in the inner wall on one side of the first electromagnetic space, and a second permanent magnet is mounted on one side of the hook block. Used in the construction site according to claim 1, wherein the first push-moving spring is fixedly mounted between the second permanent magnet and the first electromagnetic space. Environmental protection type wind energy search light. A universal joint is fixedly mounted on the blade shaft, a generator is fixedly mounted in the left inner wall of the pulley space, and the output shaft of the generator and the blade shaft are fixedly connected. The environmental protection type used at a construction site according to claim 1, wherein a storage battery is fixedly mounted in the irradiation head, and the storage battery and the blade shaft are connected by an electric signal. Wind energy search light. The control component also includes a first pulley fixedly mounted on the blade shaft, a second pulley fixedly mounted on the pulley shaft, and the pulley space in the right inner wall of the pulley space. A communicating second electromagnetic space is installed, a tension pulley slide block is slidably mounted in the second electromagnetic space, and a tension pulley is rotatably mounted in the tension pulley slide block, and the second electromagnetic is mounted. A third electromagnet is fixedly mounted on the inner wall on the front side of the space, and a third permanent magnet is fixedly mounted on the front side surface of the tension pulley slide block, and between the third permanent magnet and the third electromagnet. 1 is characterized in that a second push-moving spring is fixedly mounted, and a belt is traversably mounted between the second pulley, the tension pulley, and the first pulley. Environmentally friendly wind energy search light used at the listed construction sites. A slide ring space is installed on the left side of the second gear space, a fourth electromagnet is fixedly mounted on the left inner wall of the slide ring space, and a slide link is slidably mounted in the slide ring space. A fourth permanent magnet is fixedly attached to the slide ring, a push rod is fixedly attached to the right side surface of the slide link, and a fixed block is fixedly attached to the left side surface of the second gear. The environmental protection type wind used in the construction site according to claim 1, wherein a slide groove is formed in the fixed block, and the push rod and the slide groove are slidably connected to each other. Energy search light. A switching motor is fixedly mounted in the right inner wall of the first gear space, a third gear is fixedly mounted in the output shaft of the switching motor, and in the first gear space in the spline shaft. The environmental protection type wind energy search light used at a construction site according to claim 1, wherein a fourth gear is fixedly mounted on the vehicle, and the fourth gear and the third gear are engaged with each other. The adjusting component includes a third gear space installed in the vertical column, and a rotary wheel shaft is rotatably installed between the left side surface of the vertical column and the left inner wall of the third gear space, and the rotary wheel shaft is rotatably installed. A rotary wheel is fixedly attached to the left side surface of the vertical column, an insertion rod is slidably attached to the left surface of the vertical column, the insertion rod can hook the rotary wheel, and the right surface of the rotary wheel shaft is slidable. A fifth gear is fixedly mounted, a lifting operating space is installed above the third gear space, and a gear penetrating the top surface of the vertical column is provided between the lifting operating space and the third gear space. The shaft is rotatably mounted, the gear shaft can slide up and down in the vertical column, the sixth gear is fixedly mounted on the gear shaft, and the sixth gear meshes with the fifth gear. A lift push block is slidably mounted between the left inner wall of the lift operating space and the left surface of the vertical column, a lift wheel disk is fixedly mounted on the gear shaft, and the lift push block is mounted. The lifting wheel disk can be raised, the seventh gear is fixedly mounted on the top surface of the gear shaft, and an inwardly recessed recessed groove is formed on the bottom surface of the irradiation head, and the inside of the recessed groove is formed. The environment-protected wind energy search light used at a construction site according to claim 1, wherein an internal gear is installed in the vehicle, and the internal gear in the recessed groove meshes with the seventh gear. The environmental protection type wind energy searchlight used at a construction site according to claim 1, wherein a tail wing is fixedly mounted on the left side surface of the irradiation head.

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