JP2021048119A - Tower aerial defense device capable of generating power by wind force and solar heat - Google Patents

Abstract

To disclose a tower aerial defense device which can generate power by a wind force and solar heat.SOLUTION: A tower aerial defense device includes a main body, has an apex space at an apex of the main body, has a solar heat power generation mechanism which can generate power by using solar heat in the apex space, has a wind force power generation mechanism at a left side of the solar heat power generation mechanism, performs solar heat power generation by controlling the solar heat power generation mechanism, performs wind force power generation by controlling the wind force power generation mechanism, stores the power in an accumulator, suppresses energy consumption, prevents a situation that the power cannot be generated in a rainy day and a cloudy day, can protect the solar heat power generation mechanism and the wind force power generation mechanism even at bad weather by closing a first protection cover and a second protection cover by controlling a first control mechanism, controls lifting/lowering of an aerial defense lamp by a lift mechanism, closes a lamp space by a protection mechanism, protects the aerial defense lamp at time of non-use, suppresses the aging deterioration of the aerial defense lamp, elongates a use life of the aerial defense lamp, and suppresses a cost.SELECTED DRAWING: Figure 1

Description

The present invention is related to the technical field of air defense equipment, and specifically, is a high tower air defense equipment capable of generating electricity by wind power and solar heat.

Many high towers have been built with the development of the economy and the construction of cities. According to Chinese building standards, high-rise buildings with ground-to-top heights of more than 45 meters must be equipped with air defense warning devices, which requires a large amount of air defense lights. Therefore, a large amount of electric power is also required, and the air defense light is an outdoor lighting tool that easily ages when exposed to the wind and exposed to the sun. Become.

Chinese Patent Application Publication No. 104964227

An object of the present invention is to eliminate the above-mentioned drawbacks in the existing technology by providing a high tower air defense device capable of generating electricity by wind power and solar heat.

The high tower air defense device capable of generating power by wind power and solar heat of the present invention includes a main body, a top space is installed at the top of the main body, and a solar thermal power generation mechanism capable of generating power using solar heat is installed in the top space. , A wind power generation mechanism is installed on the left side of the solar thermal power generation mechanism, the wind power generation mechanism can generate power by using wind power, a central space is installed in the main body, and the first is on the left side of the central space. A protected space is installed, a first protective cover is installed in the first protected space, a second protected space is installed on the right side of the central space, and a second protected space is installed in the second protected space. A cover is installed, the first protective cover and the second protective cover can protect the solar thermal power generation mechanism and the wind power generation mechanism, and the first protective cover and the second protective cover are operated in the central space. A first control mechanism that can be used is installed, a first motor that supplies power to the first control mechanism is installed at the bottom of the central space, and a lighting space is located near the right side at the top of the main body. Is installed, an air defense light capable of performing an alarm function is installed in the lighting equipment space, and an elevating mechanism capable of raising and lowering the air defense light is installed at the bottom of the air defense light, and inside the rear wall of the lighting equipment space. A vacant space is installed in the vacant space, and a protection mechanism capable of protecting the air defense light is installed in the vacant space.

A second motor is fixedly fitted in the left wall of the top space, a first power shaft extending to the right is movably connected to the second motor, and a first is connected to the left wall of the top space. The rotary plate is rotatably installed, the first power shaft and the first rotary plate are fixedly connected, and the third motor is fixedly fitted in the top wall of the first rotary plate. A first screw extending upward is movably connected to the third motor, a fixed rod is fixedly installed on the top wall of the first rotating plate, and a second rotating plate rotates on the top of the fixed rod. The first slide groove is formed in the second rotating plate, the first slide rod is slidably installed in the first slide groove, and the front wall of the first slide rod is slidably installed. A second slide rod is fixedly installed in the vehicle, the second slide rod and the first screw are connected by threads, and a solar panel is fixedly installed on the top wall of the second rotating plate. First photosensory elements are fixedly installed at all four apex angles of the solar panel.

A wind power generator is fixedly fitted in the top wall of the main body, a storage battery is installed at the bottom of the wind power generator, and a first rotating shaft extending upward is electrically connected to the wind power generator. A horizontal rod is fixedly installed at the top end of the first rotating shaft, and a fan is fixedly installed at the left and right ends of the horizontal rod.

The first motor is fixedly fitted in the bottom wall of the central space, a second screw extending upward is movably connected to the first motor, and a first slider is attached to the outer surface of the second screw. Connected by a screw thread, a second slide groove is formed on both the left wall and the right wall of the first slider, and a small slide space is provided on the front and rear walls of the second slide groove. Pulleys are slidably installed in the slide grooves, the first connecting rod and the second connecting rod are connected to each of the pulleys by hinges, the third slide groove is formed in the pulley, and the third slide is formed. A third slide rod is slidably installed in the groove, and the third slide rod is slidably installed in the small slide space.

The first protective space and the central space communicate with each other, the first protective cover is slidably installed in the first protective space, and the first fixing rod and the second fixing are attached to the rear wall of the central space. The rod is fixedly installed, the first connecting rod is rotatably installed on the outer surface of the first fixed rod, the first protective cover and the first connecting rod are connected by a hinge, and the second protective space and the second protective space. The second protective cover is slidably installed in the second protective space, and the second connecting rod is rotatably installed on the outer surface of the second fixed rod so as to communicate with the central space. The connecting rod and the second protective cover are connected by a hinge.

A fourth motor is fixedly fitted in the left wall of the lamp space, a third screw is movably connected to the fourth motor, and two screw thread blocks are screwed on the outer periphery of the third screw. It is connected by a thread, a third conrod is connected to the screw thread block by a hinge, a second slider is slidably installed in the lamp space, and the second slider and the third conrod are fourth. The fourth conrod and the third conrod are connected by a conrod, the fourth conrod and the second slider are connected by a hinge, and an air defense lamp is fixed to the top of the second slider. A second photosensing element is fixedly installed at the top of the main body near the right side, and a drainage space is installed at the bottom of the lamp space so as to communicate with the lamp space. There is.

An empty space is installed on the rear side of the lighting equipment space, and a slide space is installed at the bottom of the empty space so as to communicate with the empty space. The slide space and the lighting equipment space communicate with each other, and the slide. A fourth slide rod extending back and forth is slidably installed in the space, a spherical slider is fixedly installed at the front end of the fourth slide rod, and a spring space is located behind the slide space. It is installed so as to communicate with the slide space, a first spring is fixedly installed on the rear wall of the spring space, and the first spring and the fourth slide rod are fixedly connected.

A third fixed rod is fixedly installed on the left wall of the empty space, a fifth connecting rod is connected to the third fixed rod by a hinge, and a fourth slide groove is formed in the fifth connecting rod. , The third fixing rod and the fourth slide groove are slidably connected, the fifth connecting rod and the fourth slide rod are connected by a hinge, and the empty space and the lighting equipment space are connected to each other. The five slide rods are slidably installed, the fifth slide rod comes into contact with the fifth connecting rod, and a stop plate is fixedly installed at the bottom of the fifth slide rod, and the stop plate and the empty space The front wall is connected by a second spring.

The beneficial effects of the present invention are: The present invention generates solar thermal power by controlling the solar thermal power generation mechanism, wind power generation by controlling the wind power generation mechanism, stores power by a storage battery, reduces energy waste, and rains. The present invention can protect the solar thermal power generation mechanism and the wind power generation mechanism even in bad weather by closing the first protective cover and the second protective cover by controlling the first control mechanism to prevent the situation where power cannot be generated on a cloudy day. , The elevating mechanism controls the elevating and lowering of the air defense light, the protection mechanism closes the lighting space, and when the present invention is not used, the air defense light is protected, the aging of the air defense light is suppressed, and the service life of the air defense light is extended. Keep costs down.

In order to explain the invention of the present application in detail with reference to FIGS. 1 to 6 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 coincide with each other.

FIG. 1 is a schematic diagram of the overall configuration of a high tower air defense device capable of generating electricity by wind power and solar heat according to the present invention. FIG. 2 is a schematic view of the protective cover in the closed state according to the present invention. FIG. 3 is a partially enlarged schematic view of “A” in FIG. FIG. 4 is a partially enlarged schematic view of “B” in FIG. FIG. 5 is a partially enlarged schematic view of “C” in FIG. FIG. 6 is a left side view of the protection mechanism according to the present invention.

With reference to FIGS. 1 to 6, the present invention is a high tower air defense device capable of generating power by wind power and solar heat, including a main body 10, and a top space 27 is installed at the top of the main body 10, and the top space 27 is contained therein. A solar thermal power generation mechanism 90 capable of generating power by using solar heat is installed, a wind power generation mechanism 91 is installed on the left side of the solar thermal power generation mechanism 90, and the wind power generation mechanism 91 can generate power by using wind power. A central space 11 is installed inside, a first protective space 12 is installed on the left side of the central space 11, a first protective cover 13 is installed in the first protected space 12, and the central space 11 is installed. A second protective space 18 is installed on the right side of the above, a second protective cover 21 is installed in the second protective space 18, and the first protective cover 13 and the second protective cover 21 are the solar thermal power generation mechanism. A first control mechanism 92 capable of protecting the 90 and the wind power generation mechanism 91 and operating the first protective cover 13 and the second protective cover 21 is installed in the central space 11. A first motor 16 for supplying power to the first control mechanism 92 is installed at the bottom of 11, and a lighting space 40 is installed near the right side at the top of the main body 10, and the inside of the lighting space 40. An air defense light 47 capable of performing an alarm function is installed in the air defense light 47, an elevating mechanism 93 capable of raising and lowering the air defense light 47 is installed at the bottom of the air defense light 47, and an empty space is provided in the rear wall of the lighting equipment space 40. 62 is installed, and a protection mechanism 94 capable of protecting the air defense light 47 is installed in the empty space 62.

To be beneficial, a second motor 28 is fixedly fitted in the left wall of the top space 27, and a first power shaft 29 extending to the right is movably connected to the second motor 28. The first rotating plate 30 is rotatably installed on the left wall of the top space 27, the first power shaft 29 and the first rotating plate 30 are fixedly connected, and the top wall of the first rotating plate 30 is fixedly connected. A third motor 31 is fixedly fitted inside, a first screw 32 extending upward is movably connected to the third motor 31, and a fixing rod 39 is attached to the top wall of the first rotating plate 30. It is fixedly installed, a second rotating plate 36 is rotatably installed on the top of the fixed rod 39, a first slide groove 35 is formed in the second rotating plate 36, and the first slide groove is formed. The first slide rod 34 is slidably installed in the 35, and the second slide rod 33 is fixedly installed on the front wall of the first slide rod 34, and the second slide rod 33 and the first slide rod 33 are fixedly installed. The screw 32 is connected by a screw thread, the solar panel 38 is fixedly installed on the top wall of the second rotating plate 36, and the first photosensory element 37 is installed at each of the four top angles of the solar panel 38. Is fixedly installed, the optimum irradiation angle of light can be determined by operating the first photosensory element 37, and the first power shaft 29 becomes the first rotating plate by operating the second motor 28. 30 is driven and rotated, and the fixed rod 39 is interlocked to drive and rotate the second rotating plate 36, the solar panel 38 is rotated, and the third motor 31 is operated to operate the third motor 31. One screw 32 is rotated, and the second slide rod 33 is raised or lowered, and the second rotating plate 36 drives and rotates the solar panel 38 to make the solar panel 38 perpendicular to the optimum light irradiation angle. , The power generation effect of the solar panel 38 is maximized.

To be beneficial, a wind power generator 23 is fixedly fitted in the top wall of the main body 10, a storage battery 22 is installed at the bottom of the wind power generator 23, and the wind power generator 32 extends upward. The first rotating shaft 24 is connected so as to be power-transmitting, the horizontal rod 25 is fixedly installed at the top end of the first rotating shaft 24, and the fan 26 is fixed at the left and right ends of the horizontal rod 25. When the fan 26 is exposed to the wind and rotates, the horizontal rod 25 drives and rotates the first rotating shaft 24, the wind power generator 23 operates to generate electricity, and the storage battery 22 Can store the electric power generated by the wind power generation mechanism 91 and the solar thermal power generation mechanism 90.

Beneficially, the first motor 16 is fixedly fitted into the bottom wall of the central space 11, and a second screw 17 extending upward is ubiquitously connected to the first motor 16 to transmit the second. A first slider 52 is connected to the outer surface of the screw 17 by a screw thread, a second slide groove 54 is formed on both the left wall and the right wall of the first slider 52, and the front and rear walls of the second slide groove 54 are formed. A small slide space 53 is installed in each of the two, and a slide 49 is slidably installed in the second slide groove 54, and the first connecting rod 14 and the second connecting rod 19 are hinged in the slide 49, respectively. A third slide groove 50 is formed in the pulley 49, a third slide rod 51 is slidably installed in the third slide groove 50, and the third slide rod 51 is the small slide. Slidingly installed in the space 53, by operating the first motor 16, the second screw 17 rotates to lower the first slider 52, and the third slide rod 51 is said to be small. It slides upward along the slide space 53, slides the pulley 49 upward along the second slide groove 54, and the first connecting rod 14 and the second connecting rod 19 rotate.

Beneficially, the first protective space 12 and the central space 11 communicate with each other, the first protective cover 13 is slidably installed in the first protective space 12, and the rear wall of the central space 11 is slidably installed. The first fixing rod 15 and the second fixing rod 20 are fixedly installed in the first connecting rod 15, and the first connecting rod 14 is rotatably installed on the outer surface of the first fixing rod 15, and the first protective cover 13 and the first one are installed. The first connecting rod 14 is connected by a hinge, the second protective space 18 and the central space 11 communicate with each other, and the second protective cover 21 is slidably installed in the second protective space 18, and the first The second connecting rod 19 is rotatably installed on the outer surface of the second fixing rod 20, the second connecting rod 19 and the second protective cover 21 are connected by a hinge, and the first connecting rod 14 and the second connecting rod 19 are connected. By rotating, the first protective cover 13 and the second protective cover 21 are opened or closed.

To be beneficial, a fourth motor 41 is fixedly fitted in the left wall of the lamp space 40, and a third screw 42 is movably connected to the fourth motor 41 so that the third screw 42 can be transmitted. Two thread blocks 43 are connected to the outer periphery by threads, a third conrod 44 is connected to the thread block 43 by a hinge, and a second slider 46 is slidably installed in the lamp space 40. The second slider 46 and the third conrod 44 are connected by a fourth conrod 45, the fourth conrod 45 and the third conrod 44 are connected by a hinge, and the fourth conrod 45 and the second conrod 45 are connected. The slider 46 is connected by a hinge, an air defense lamp 47 is fixedly installed on the top of the second slider 46, and a second light sensor 48 is fixed on the top of the main body 10 near the right side. The drainage space 67 is installed at the bottom of the lamp space 40 so as to communicate with the lamp space 40, and it is confirmed that the external light beam is weakened by operating the second light sensor 48. Then, by operating the fourth motor 41, the third screw 42 rotates, the two thread blocks 43 are moved so as to approach each other, and the third control rod 44 moves the second slider 46. It is driven and raised, the air defense lamp 47 is raised, the air defense lamp 47 is made to emit light to give an air defense alarm, and rainwater in the lighting equipment space 40 is discharged through the drainage space 67.

To be beneficial, an empty space 62 is installed behind the lighting space 40, and a slide space 55 is installed at the bottom of the empty space 62 so as to communicate with the empty space 62. A fourth slide rod 56 extending back and forth is slidably installed in the slide space 55, and a spherical slider 66 is fixed to the front end of the fourth slide rod 56. The spring space 57 is installed so as to communicate with the slide space 55 on the rear side of the slide space 55, and the first spring 58 is fixedly installed on the rear wall of the spring space 57. The first spring 58 and the fourth slide rod 56 are fixedly connected, and by lowering the second slider 46, the spherical slider 66 slides backward, and the fourth slide rod 56 is moved backward. When the second slider 46 is raised, the spherical slider 66 drives the fourth slide rod 56 to slide forward.

To be beneficial, a third connecting rod 60 is fixedly installed on the left wall of the empty space 62, and a fifth connecting rod 59 is connected to the third fixing rod 60 with a hinge so that the fifth connecting rod 59 may be connected. A fourth slide groove 61 is formed therein, the third fixed rod 60 and the fourth slide groove 61 are slidably connected, and the fifth connecting rod 59 and the fourth slide rod 56 are connected by a hinge. A fifth slide rod 63 is slidably installed between the empty space 62 and the lighting equipment space 40, the fifth slide rod 63 comes into contact with the fifth connecting rod 59, and the fifth slide rod 63 A stop plate 64 is fixedly installed at the bottom of the rod, and the stop plate 64 and the front wall of the empty space 62 are connected by a second spring 65, and the fourth slide rod 56 is slid backward. The fifth connecting rod 59 rotates, and the fifth slide rod 63 slides forward and extends into the lighting space 40 to protect the air defense light 47.

When used, the present invention is attached to the top of a high-rise building, and on a sunny day, the optimum light irradiation angle is determined by the operation of the first photosensory element 37, and the second motor 28 is operated to perform the first. The power shaft 29 drives and rotates the first rotating plate 30, and the fixed rod 39 drives and rotates the second rotating plate 36, rotating the solar panel 38 and operating the third motor 31. The first screw 32 is rotated, the second slide rod 33 is raised or lowered, and the second rotating plate 36 drives and rotates the solar panel 38 to make the solar panel 38 perpendicular to the optimum light irradiation angle and the solar panel. The 38 generates solar heat, and the fan 26 rotates in contact with the wind, so that the horizontal rod 25 drives and rotates the first rotating shaft 24, and the wind power generator 23 operates to generate electricity. The electric power generated by the wind power generation mechanism 91 and the solar thermal power generation mechanism 90 is stored, and the electric power is provided to the air defense light 47. When the weather of thunderstorm occurs, the first motor 16 is operated to rotate the second screw 17. Then, the first slider 52 is lowered, and the third slide rod 51 slides upward along the small slide space 53, the pulley 49 slides upward along the second slide groove 54, and the first conrod 14 And the second conrod 19 rotate, the first protective cover 13 and the second protective cover 21 close to protect the solar thermal power generation mechanism 90 and the wind power generation mechanism 91, and when the sun goes down and it gets dark, the second photosensory element 48 By activating, it is determined that the external light beam is weakened, and by activating the fourth motor 41, the third screw 42 rotates to move the two thread blocks 43 closer to each other, and the second (3) The control rod 44 drives the second slider 46 to raise the air defense light 47, causes the air defense light 47 to emit light to give an air defense warning, and activates the second photosensory element 48 at dawn. By reversing the fourth motor 41, the third screw 42 is reversed, the two thread blocks 43 are separated, and the third conrod 44 is the second slider 46. The spherical slider 66 slides backward, the fourth slider 56 slides backward, and the fifth conrod 59 rotates, and the fifth slide rod 63 slides forward in the lighting space 40. It extends in and closes the lighting space 40, thus protecting the air defense light 47.

The beneficial effects of the present invention are: The present invention generates solar thermal power by controlling the solar thermal power generation mechanism, wind power generation by controlling the wind power generation mechanism, stores power by a storage battery, reduces energy waste, and rains. The present invention can protect the solar thermal power generation mechanism and the wind power generation mechanism even in bad weather by closing the first protective cover and the second protective cover by controlling the first control mechanism to prevent the situation where power cannot be generated on a cloudy day. , The elevating mechanism controls the elevating and lowering of the air defense light, the protection mechanism closes the lighting space, and when the present invention is not used, the air defense light is protected, the aging of the air defense light is suppressed, and the service life of the air defense light is extended. Keep costs down.

Those skilled in the art can make various modifications to the above embodiments as long as they do not depart from the general spirit and concept of the present application. All of these variants should be covered within the scope of protection of this application. The protection plan of this application should be based on the claims of the patent attached to this application.

Claims (8)

A top space is installed at the top of the main body including the main body, a solar thermal power generation mechanism capable of generating power by using solar heat is installed in the top space, and a wind power generation mechanism is installed on the left side of the solar thermal power generation mechanism. The wind power generation mechanism can generate electricity by using wind power, a central space is installed in the main body, a first protected space is installed on the left side of the central space, and the first protected space is inside the first protected space. A first protective cover is installed, a second protective space is installed on the right side of the central space, a second protective cover is installed in the second protective space, and the first protective cover and the second protective cover are installed. The protective cover can protect the solar thermal power generation mechanism and the wind power generation mechanism, and a first control mechanism capable of operating the first protective cover and the second protective cover is installed in the central space, and the central portion thereof. At the bottom of the space, a first motor that supplies power to the first control mechanism is installed, a lighting space is installed near the right side at the top of the main body, and an alarm function is provided in the lighting space. An air defense light that can be fulfilled is installed, an elevating mechanism that can raise and lower the air defense light is installed at the bottom of the air defense light, an empty space is installed in the rear wall of the lighting equipment space, and the empty space is filled with the empty space. Is a high-rise air defense device capable of generating electricity by wind power and solar heat, which is characterized in that a protection mechanism capable of protecting the air defense light is installed. A second motor is fixedly fitted in the left wall of the top space, a first power shaft extending to the right is movably connected to the second motor, and a first is connected to the left wall of the top space. The rotary plate is rotatably installed, the first power shaft and the first rotary plate are fixedly connected, and the third motor is fixedly fitted in the top wall of the first rotary plate. A first screw extending upward is movably connected to the third motor, a fixed rod is fixedly installed on the top wall of the first rotating plate, and a second rotating plate rotates on the top of the fixed rod. The first slide groove is formed in the second rotating plate, the first slide rod is slidably installed in the first slide groove, and the front wall of the first slide rod is slidably installed. A second slide rod is fixedly installed in the vehicle, the second slide rod and the first screw are connected by threads, and a solar panel is fixedly installed on the top wall of the second rotating plate. The high tower air defense device capable of generating power by wind power and solar heat according to claim 1, wherein first photosensory elements are fixedly installed at all four apex angles of the solar panel. A wind power generator is fixedly fitted in the top wall of the main body, a storage battery is installed at the bottom of the wind power generator, and a first rotating shaft extending upward is electrically connected to the wind power generator. The first aspect of the invention is described in claim 1, wherein a horizontal rod is fixedly installed at the top end of the first rotating shaft, and fans are fixedly installed at the left and right ends of the horizontal rod. High tower air defense device that can generate electricity from wind power and solar heat. The first motor is fixedly fitted in the bottom wall of the central space, a second screw extending upward is movably connected to the first motor, and a first slider is attached to the outer surface of the second screw. It is connected by a screw thread, a second slide groove is formed on both the left wall and the right wall of the first slider, and a small slide space is installed on the front and rear walls of the second slide groove. Pulleys are slidably installed in each of the slide grooves, the first conrod and the second conrod are connected to each of the pulleys by hinges, the third slide groove is formed in the pulley, and the third slide is formed. The wind power and solar heat according to claim 1, wherein a third slide rod is slidably installed in the groove, and the third slide rod is slidably installed in the small slide space. High tower air defense device that can generate electricity. The first protective space and the central space communicate with each other, the first protective cover is slidably installed in the first protective space, and the first fixing rod and the second fixing are attached to the rear wall of the central space. The rod is fixedly installed, the first connecting rod is rotatably installed on the outer surface of the first fixed rod, the first protective cover and the first connecting rod are connected by a hinge, and the second protective space and the second protective space. The second protective cover is slidably installed in the second protective space, and the second connecting rod is rotatably installed on the outer surface of the second fixed rod so as to communicate with the central space. The high tower air defense device capable of generating power by wind power and solar heat according to claim 4, wherein the connecting rod and the second protective cover are connected by a hinge. A fourth motor is fixedly fitted in the left wall of the lamp space, a third screw is movably connected to the fourth motor, and two screw thread blocks are screwed on the outer periphery of the third screw. It is connected by a thread, a third conrod is connected to the screw thread block by a hinge, a second slider is slidably installed in the lamp space, and the second slider and the third conrod are fourth. The fourth conrod and the third conrod are connected by a conrod, the fourth conrod and the second slider are connected by a hinge, and an air defense lamp is fixed to the top of the second slider. A second photosensing element is fixedly installed at the top of the main body near the right side, and a drainage space is installed at the bottom of the lamp space so as to communicate with the lamp space. The high tower air defense device capable of generating power by the wind force and solar heat according to claim 1, wherein the high tower air defense device is characterized by the above. An empty space is installed on the rear side of the lighting equipment space, and a slide space is installed at the bottom of the empty space so as to communicate with the empty space. The slide space and the lighting equipment space communicate with each other, and the slide. A fourth slide rod extending back and forth is slidably installed in the space, a spherical slider is fixedly installed at the front end of the fourth slide rod, and a spring space is located behind the slide space. It is installed so as to communicate with the slide space, the first spring is fixedly installed on the rear wall of the spring space, and the first spring and the fourth slide rod are fixedly connected. The high tower air defense device capable of generating power by the wind force and solar heat according to claim 6, which is a feature. A third fixed rod is fixedly installed on the left wall of the empty space, a fifth connecting rod is connected to the third fixed rod by a hinge, and a fourth slide groove is formed in the fifth connecting rod. , The third fixing rod and the fourth slide groove are slidably connected, the fifth connecting rod and the fourth slide rod are connected by a hinge, and the empty space and the lighting equipment space are connected to each other. The five slide rods are slidably installed, the fifth slide rod comes into contact with the fifth connecting rod, and a stop plate is fixedly installed at the bottom of the fifth slide rod, and the stop plate and the empty space The high tower air defense device capable of generating power by wind power and solar heat according to claim 7, wherein the front wall is connected by a second spring.

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