JP2020072072A - Intelligent led lamp controlled by cloud computing and method of using lamp shade thereof - Google Patents

Abstract

To provide an intelligent LED lamp controlled by cloud computing and a method of using a lamp shade thereof.SOLUTION: The intelligent LED lamp comprises; a device main body; an intermittent opening-closing device arranged in the device main body; a switching device arranged in the device main body; and a lifting device arranged in the device main body. The intermittent opening-closing device includes a cavity arranged in the device main body, a first sliding cavity is arranged in the upper inner wall of the cavity, and a second sliding cavities in communication with the first sliding cavity are symmetrically arranged in inner walls of the left and right sides of the cavity. The intermittent opening-closing device arranged in the device main body combines with various modes of lighting of the intelligent LED lamp controlled by cloud computing adds more attractiveness to the lighting of the device and creates better atmosphere.SELECTED DRAWING: Figure 1

Description

The present invention takes up the field of intelligent home technology, specifically, an intelligent LED lamp controlled by cloud computing and a method of using the lamp shade.

Intelligent LED lamps can significantly reduce the cost of home and business use, can connect to the local area network and communicate with smartphones and computers, and people can use mobile or computer to remotely control the brightness and color of the lamps. You can also control and program the lamp to save maximum energy, but it's just like a regular lamp, it's exposed to air, it's more prone to dust buildup, the light is darker, and it's more susceptible to external forces. A lamp with a lampshade may have some reduction in lighting capability, and the lampshade can only protect the lamp for the lamp, and the function of the lampshade is single, and thus needs to be improved.

Chinese Patent Application Publication No. 106838736

The object of the present invention is to provide an intelligent LED lamp controlled by cloud computing and a method of using the lamp shade, which can solve the problems in the above current technology.

An intelligent LED lamp controlled by cloud computing and a method of using the lampshade according to an embodiment of the present invention are provided in a device body, an intermittent switching device installed in the device body, and a device installed in the device body. A switching device and an elevating device installed in the device main body; the intermittent switching device includes a cavity installed in the device main body; and a first slide cavity installed in an upper inner wall of the cavity. Second slide cavities that communicate with the first slide cavity are symmetrically installed in the left and right inner walls of the cavity, and communicate with the lower side of the second slide cavity in the lower inner wall of the cavity. A third slide cavity is installed and a first slide cavity that can slide up and down is installed in the first slide cavity. A second slide block is fixedly connected to the left and right ends of the first slide block, the second slide block being symmetrical and vertically slidable extending into the second slide cavity. Has a lower end extending into the third slide cavity, a third slide block that is vertically slidable is fixedly connected to the lower end of the second slide block, and a vibration spring is fixed to the lower end of the third slide block. Connected to each other, an intelligent LED lamp is installed in the cavity, a first concave groove having an opening downwardly communicates with the upper inner wall of the first slide cavity, and is installed in a rear inner wall of the cavity. A fourth slide cavity is installed, and a second concave groove having an opening facing forward is formed in the inner wall of the rear side of the fourth slide cavity. A motor is fixedly installed in an upper inner wall of the second groove, and a first rotating shaft extending into the second groove is power-engaged and connected to a lower end of the motor. A rotatable first gear is fixedly connected to a lower end of a rotation shaft, a front end of the first gear extends into the fourth slide cavity, and a rotatable second gear is meshed with a front end of the first gear. A third concave groove having a rearward opening is installed in the front inner wall of the fourth slide cavity, the rear end of the third concave groove extending into the fourth slide cavity, and A third gear that is meshingly connected with a second gear is installed, a first rotating cavity is installed in the upper inner wall of the third groove, and the first rotating cavity of the first rotating cavity is located at the axis of the third gear. A second rotating shaft, which is stretchable in and rotatable, is fixedly connected, A rotatable fourth gear is fixedly connected to the upper end of the two rotating shafts, a rotatable fifth gear is meshingly connected to the front end of the fourth gear, and the first groove is provided on the axis of the fifth gear. A third rotation shaft extending inward is fixedly connected, and a cam that is fixedly connected to the third rotation shaft and is capable of contacting the first slide block is installed in the first groove. A first through hole is provided in communication between the cavity and the second slide cavity, and a second through hole penetrating left and right in the second slide block and capable of being aligned with the first through hole. A third through hole is installed inside the outer wall of the second slide cavity, the third through hole penetrating left and right to the outside and aligned with the first through hole.

According to a further technical plan, the switching device includes a fourth through hole that is installed in the lower inner wall of the third slide cavity and vertically penetrates to the outside, and the opening faces right in the left inner wall of the fourth through hole. A fourth recessed groove is installed, a rack that can slide left and right into the fourth through hole is installed in the fourth recessed groove, and the opening is downward in the upper inner wall of the fourth recessed groove. A fifth recessed groove is installed, a sixth gear whose lower end is meshingly connected with the rack is installed in the fifth recessed groove, and a rear end of the sixth gear is provided at an axial center of the sixth gear. A fourth rotating shaft fixedly connected to a motor, which is fixedly connected to the rear inner wall of the concave groove, is fixedly connected, and an opening is formed in the rear inner wall of the fourth through hole so that the opening faces forward. A sixth groove is installed, and the sixth groove and the fourth slide cavity are A fourth slide block, which extends through the sixth concave groove and can slide left and right with the rack, is fixedly connected to the rear end of the rack, and vertically slides in the fourth slide cavity. A fifth slide block having a lower end that engages with the fourth slide block is installed, and guide slide grooves having openings facing each other are symmetrically installed in the front and rear inner walls of the fourth slide cavity. A first guide slide block extending into the guide slide groove is fixedly connected to the front and rear ends of the slide block, and a return spring is fixedly connected to the lower end of the first guide slide block, and the second gear A fifth rotating shaft whose lower end is fixedly connected to the fifth slide block by rotation is fixedly connected to the axis center of the fourth slide cabinet. The lower side of the second gear of the I seventh gear that is fixedly connected to the fifth rotation shaft is installed.

In a further technical plan, the lifting device includes an eighth gear installed in the fourth slide cavity and meshable with the seventh gear, and a second rotating cavity is installed in a front inner wall of the fourth slide cavity. A sixth rotary shaft extending into the second rotary cavity is fixedly connected to the axis of the eighth gear, and a rotatable ninth gear is fixedly connected to the front end of the sixth rotary shaft. A rotatable tenth gear is meshingly connected to the lower end of the ninth gear, and a screw capable of extending through the cavity into the third slide cavity and rotating at the shaft center of the tenth gear. A bolt is fixedly connected, a sixth slide block that can slide up and down is screw-connected to the screw bolt, and a lower end of the sixth slide block has a lower end at the intelligent LED run. A seventh slide block that is fixedly connected to is fixedly connected to the intelligent LED lamp, and a guide slide lever having a lower end extending into the third slide cavity is installed on the front side of the intelligent LED lamp. A second guide slide block, which is slidably connected to the guide slide lever, is fixedly connected to the front end of the seventh slide block, and the fourth through hole is provided between the cavity and the third slide cavity. A fifth through hole that is aligned with and can pass through the intelligent LED lamp is installed.

The method includes the following steps:

When using this device, turn on the intelligent LED lamp which can be controlled by cloud computing, and the intelligent LED lamp can convert different lighting modes by cloud computing, and after turning on the intelligent LED lamp The light is refracted to the outside by the first through hole and the third through hole.

Then, the motor is started, the motor drives and rotates the first rotation shaft, the first rotation shaft drives and rotates the first gear, the first gear drives and rotates the second gear, and the second gear Driving and rotating the third gear, the third gear driving and rotating the second rotating shaft, the second rotating shaft driving and rotating the fourth gear, the fourth gear driving and rotating the fifth gear, The fifth gear drives and rotates the third rotation shaft, the third rotation shaft drives and rotates the cam, and when the protruding end of the cam contacts the first slide block, the first slide block is pushed and slid downward, The first slide block pushes the second slide block to slide down, the second slide block pushes the third slide block to slide down, the third slide block slides down and pushes out the vibration spring, Second slide block When the second slide hole on the first slide block gradually shifts from the first through hole and the third through hole, less light is emitted to the outside of the intelligent LED lamp, and the first slide block slides to the bottom side. When the second through hole is completely displaced from the first through hole and the third through hole, and the protrusion of the cam and the first slide block are gradually separated, the elasticity of the vibration spring causes the third slide block, The second slide block and the first slide block slide up, the second through hole first recovers the state of aligning with the first through hole and the third through hole, and then shifts to the upper position and vibrates with the cam. The engagement with the spring has the effect of intermittent opening and closing at the position of the second through hole.

Finally, when normal lighting is needed, the motor at the rear end of the fourth rotating shaft is started, the fourth rotating shaft rotates and drives the sixth gear, and the sixth gear rotates and drives the rack. Slide to the left, the rack drives the fourth slide block to slide to the left, the fourth slide block slides to the left, drives the fifth slide block to slide up, and the fifth slide block slides to the top. The two gears are separated from the meshing with the first gear and the third gear, the seventh gear and the eighth gear mesh with each other, the motor is started, the motor drives and rotates the first rotary shaft, and the first rotary shaft Drive and rotate the first gear, the first gear drives and rotates the second gear, the second gear drives and rotates the fifth rotation shaft, and the fifth rotation shaft drives and rotates the seventh gear. , The seventh gear drives and rotates the eighth gear, and the eighth gear turns the sixth The shaft is driven and rotated, the sixth rotating shaft drives and rotates the ninth gear, the ninth gear drives and rotates the tenth gear, the tenth gear drives and rotates the screw bolt, and the screw bolt The sixth slide block drives and slides down, the sixth slide block drives the seventh slide block and slides down, the seventh slide block drives the intelligent LED lamp and slides down to the outside, and the intelligent LED lamp When turned on, normal lighting effects can be achieved.

The beneficial effects of the present invention are as follows.

By installing an intermittent switchgear, an engagement can be formed between the intelligent LED lamp and the lamp shade, the lamp having more light combinations;

By installing the switching device, the motor can drive the lifting device and the intermittent switching device respectively, which saves the cost of the device, saves energy consumption, and makes the device design more sophisticated;

By installing the lifting device, the intelligent LED lamp can be lowered to the outside of the device to enhance the lighting effect, and when the intelligent LED lamp is located in the lamp shade, the lamp shade will not damage the intelligent LED lamp. Can also be protected;

The lamp and the lampshade of the present invention are more rational and sophisticated in overall structure, easy to use, have many light modes, good lighting effect, high safety of use, and have high use and popular value.

FIG. 1 is a schematic diagram of an internal configuration of an intelligent LED lamp controlled by cloud computing according to the present invention and a method of using the lamp shade; FIG. 2 is a cross-sectional view of the present invention in the “A-A” direction; FIG. 3 is a sectional view of the present invention in the “BB” direction.

In order to explain the present invention in detail with reference to FIGS. 1 to 3 below and to explain it conveniently, the following directions are defined as follows: The direction is the same.

As shown in FIGS. 1 to 3, an intelligent LED lamp controlled by cloud computing according to an embodiment of the present invention and a method of using the lamp shade are as follows: an apparatus main body 10, an intermittent opening / closing installed in the apparatus main body 10. A device, including a switching device installed in the device main body 10 and a lifting device installed in the device main body 10, the intermittent switching device includes a cavity 11 installed in the device main body 10, A first slide cavity 12 is installed in the upper inner wall of the cavity 11, and a second slide cavity 13 communicating with the first slide cavity 12 is symmetrically installed in the left and right inner walls of the cavity 11. A third slide cavity (14) communicating with the lower side of the second slide cavity (13) is installed in the inner wall of the lower side of the cavity (11). A first slide block 15 which can slide up and down is installed in the first slide block 12, and the left and right ends of the first slide block 15 are symmetrical and can slide up and down extending in the second slide cavity 13. The second slide block 16 is fixedly connected, the lower end of the second slide block 16 extends into the third slide cavity 14, and the lower end of the second slide block 16 is a third slide block that can slide up and down. 17 is fixedly connected, a vibration spring 18 is fixedly connected to the lower end of the third slide block 17, an intelligent LED lamp 19 is installed in the cavity 11, and an upper inner wall of the first slide cavity 12 is installed. A first recessed groove 20 having an opening facing downward is installed therein, and a fourth slide cavity 21 is installed in a rear inner wall of the cavity 11. A second recessed groove 22 having an opening facing forward is installed in the rear inner wall of the slide cavity 21, a motor 23 is fixedly installed in the upper inner wall of the second recessed groove 22, and the motor 23 is fixed to the lower end of the motor 23. A first rotating shaft 24 extending into the two recessed grooves 22 is engaged and connected by power, a rotatable first gear 25 is fixedly connected to the lower end of the first rotating shaft 24, and the first gear 25 A front end extends into the fourth slide cavity 21, and a rotatable second gear 26 is meshingly connected to the front end of the first gear 25, and an opening is directed rearward in a front inner wall of the fourth slide cavity 21. Third recessed groove 27 of which a rear end extends into the fourth slide cavity 21 in the third recessed groove 27 and is meshed with and connected to the second gear 26. Is installed, the first rotating cavity 29 is installed in the upper inner wall of the third groove 27, A second rotating shaft 30 extending in the first rotating cavity 29 and rotatable is fixedly connected to the core, and a rotatable fourth gear 31 is fixedly connected to the upper end of the second rotating shaft 30. A fifth gear 32, which can rotate, is meshingly connected to the front end of the fourth gear 31, and a third rotating shaft 33 extending into the first groove 20 is fixedly attached to the shaft center of the fifth gear 32. A cam 34 fixedly connected to the third rotation shaft 33 and capable of contacting the first slide block 15 is installed in the first groove 20 and is connected to the cavity 11 and the second slide. A first through hole 35 is installed in communication with the cavity 13, a second through hole 36 penetrating left and right in the second slide block 16 and capable of being aligned with the first through hole 35 is installed, Inside the outer wall of the second slide cavity 13 is left to the outside. Third through hole 37 is provided to align the position and penetrating and the first through-hole 35.

As an informative example, the switching device includes a fourth through hole 38 installed in the lower inner wall of the third slide cavity 14 and penetrating up and down to the outside, the left side of the fourth through hole 38. A fourth recessed groove 39 having an opening facing right is installed in the inner wall, and a rack 40 that can be slid to the left and right into the fourth through hole 38 is installed in the fourth recessed groove 39. A fifth concave groove 41 having an opening facing downward is provided in the upper inner wall of the groove 39, and a sixth gear 42 having a lower end meshingly connected with the rack 40 is provided in the fifth concave groove 41. A fourth rotating shaft 43 fixedly connected to the shaft center of the sixth gear 42 by a power is connected to a motor whose rear end is fixedly connected to the rear inner wall of the fifth concave groove 41. A sixth recessed groove 44 having an opening facing forward is installed in the inner wall of the rear side of the fourth through hole 38. 44 and the fourth slide cavity 21 communicate with each other, and at the rear end of the rack 40, a fourth slide block 45 that extends into the sixth concave groove 44 and can slide left and right with the rack 40 is fixed. A fifth slide block 46 that is connected and that can slide up and down and whose lower end engages with the fourth slide block 45 is installed in the fourth slide cavity 21, and the fifth slide block 46 of the front and rear inner walls of the fourth slide cavity 21 is installed. Guide slide grooves 47 having openings facing each other are symmetrically installed therein, and first guide slide blocks 48 extending into the guide slide grooves 47 are fixedly connected to the front and rear ends of the fifth slide block 46. The return spring 49 is fixedly connected to the lower end of the first guide slide block 48, and the lower end is fixedly connected to the fifth slide block 46 by rotation at the axial center of the second gear 26. A fifth rotating shaft 50 is fixedly connected, and a seventh gear 51 fixedly connected to the fifth rotating shaft 50 is installed below the second gear 26 in the fourth slide cavity 21. To be done.

As an advantageous and example, the lifting device includes an eighth gear 52 installed in the fourth slide cavity 21 and capable of meshing with the seventh gear 51, the front inner wall of the fourth slide cavity 21. A second rotary cavity 53 is installed therein, and a sixth rotary shaft 54 extending into the second rotary cavity 53 is fixedly connected to the shaft center of the eighth gear 52, and the sixth rotary shaft 54 A rotatable ninth gear 55 is fixedly connected to the front end of the ninth gear 55, and a rotatable tenth gear 56 is meshingly connected to the lower end of the ninth gear 55. A screw bolt 57 that extends through 11 into the third slide cavity 14 and can rotate is fixedly connected, and a sixth slide block 58 that can slide up and down is screwed and connected to the screw bolt 57, Front end of sixth slide block 58 The lower end of the third slide cavity 14 is fixedly connected to a seventh slide block 59 whose lower end is fixedly connected to the intelligent LED lamp 19, and the lower end of the cavity 11 is on the front side of the intelligent LED lamp 19 of the third slide cavity 14. A guide slide lever 60 extending inside is installed, and a second guide slide block 61, which is slidably engaged with the guide slide lever 60, is fixedly connected to the front end of the seventh slide block 59, and A fifth through hole 62, which is aligned with the fourth through hole 38 and allows the intelligent LED lamp 19 to pass therethrough, is installed between the 11 and the third slide cavity 14.

The method includes the following steps:

When using this device, turn on intelligent LED lamp 19 that can be controlled by cloud computing, intelligent LED lamp 19 can convert different lighting modes by cloud computing, turn on intelligent LED lamp 19 After that, the light is refracted to the outside by the first through hole 35 and the third through hole 37.

Then, the motor 23 is started, the motor 23 drives and rotates the first rotary shaft 24, the first rotary shaft 24 drives and rotates the first gear 25, and the first gear 25 drives the second gear 26. The second gear 26 drives and rotates the third gear 28, the third gear 28 drives and rotates the second rotary shaft 30, and the second rotary shaft 30 drives and rotates the fourth gear 31. The fourth gear 31 drives and rotates the fifth gear 32, the fifth gear 32 drives and rotates the third rotation shaft 33, the third rotation shaft 33 drives and rotates the cam 34, and the projection end of the cam 34 Touches the first slide block 15, the first slide block 15 is pushed to slide downward, the first slide block 15 pushes the second slide block 16 to slide downward, and the second slide block 16 is pushed to the third slide block. Push 17 and slide it down, the third slide block 17 slides down and the vibration spring 18 The second through hole 36 in the second slide block 16 is gradually displaced from the first through hole 35 and the third through hole 37 at this time, so that less light is emitted to the outside of the intelligent LED lamp 19. When the first slide block 15 slides to the lowermost side, the second through hole 36 is completely displaced from the first through hole 35 and the third through hole 37, and the projection of the cam 34 and the first slide When the block 15 and the block 15 are gradually separated, the elastic force of the vibration spring 18 causes the third slide block 17, the second slide block 16 and the first slide block 15 to slide upward, so that the second through hole 36 and the first through hole 35 and The third through hole 37 is first restored to the aligned state, then is displaced upward, and is intermittently opened and closed at the position of the second through hole 36 by the engagement of the cam 34 and the vibration spring 18. Has the effect of.

Finally, when normal lighting is required, the motor at the rear end of the fourth rotary shaft 43 is started, the fourth rotary shaft 43 rotates, drives and rotates the sixth gear 42, and the sixth gear 42 rotates. The rack 40 is driven to slide to the left, the rack 40 drives the fourth slide block 45 to slide to the left, the fourth slide block 45 slides to the left, and the fifth slide block 46 is driven to slide up, The fifth slide block 46 slides up to disengage the second gear 26 from the mesh with the first gear 25 and the third gear 28, the seventh gear 51 and the eighth gear 52 mesh, and the motor 23 is started, The motor 23 drives and rotates the first rotating shaft 24, the first rotating shaft 24 drives and rotates the first gear 25, the first gear 25 drives and rotates the second gear 26, and the second gear 26 The fifth rotary shaft 50 is driven to rotate, the fifth rotary shaft 50 drives and rotates the seventh gear 51, and the seventh gear 51 is rotated to the eighth tooth. 52 is driven and rotated, the eighth gear 52 drives and rotates the sixth rotation shaft 54, the sixth rotation shaft 54 drives and rotates the ninth gear 55, and the ninth gear 55 drives the tenth gear 56. Then, the tenth gear 56 drives and rotates the screw bolt 57, and the screw bolt 57 drives and slides down the sixth slide block 58, and the sixth slide block 58 drives down the seventh slide block 59. The 7th slide block 59 drives the intelligent LED lamp 19 and slides it down to the outside to turn on the intelligent LED lamp 19 to achieve the normal lighting effect.

When using this device, turn on intelligent LED lamp 19 that can be controlled by cloud computing, intelligent LED lamp 19 can convert different lighting modes by cloud computing, turn on intelligent LED lamp 19 After that, the light is refracted to the outside by the first through hole 35 and the third through hole 37, starts the motor 23, the motor 23 drives and rotates the first rotating shaft 24, and the first rotating shaft 24 moves to the first position. The first gear 25 drives and rotates, the first gear 25 drives and rotates the second gear 26, the second gear 26 drives and rotates the third gear 28, and the third gear 28 rotates the second rotary shaft 30. Driven and rotated, the second rotary shaft 30 drives and rotates the fourth gear 31, the fourth gear 31 drives and rotates the fifth gear 32, and the fifth gear 32 drives and rotates the third rotary shaft 33. The third rotating shaft 33 is a cam When the protruding end of the cam 34 contacts the first slide block 15, the first slide block 15 is pushed and slid downward, and the first slide block 15 pushes the second slide block 16 and slid downward. Then, the second slide block 16 pushes the third slide block 17 to slide it downward, and the third slide block 17 slides downward to push the vibration spring 18 downward. When the hole 36 is gradually displaced from the first through hole 35 and the third through hole 37, the light emitted to the outside of the intelligent LED lamp 19 decreases, and when the first slide block 15 slides to the bottom side, The second through hole 36 is completely displaced from the first through hole 35 and the third through hole 37, and the projection of the cam 34 and the first slide block 15 gradually. When separated, the third slide block 17, the second slide block 16 and the first slide block 15 slide upward due to the elasticity of the vibration spring 18, and the second through hole 36 becomes the first through hole 35 and the third through hole 37. First, the position is restored to the aligned state, then the position is displaced upward, and the engagement of the cam 34 and the vibration spring 18 has the effect of intermittent opening / closing at the position of the second through hole 36. In this case, the motor at the rear end of the fourth rotating shaft 43 is started, the fourth rotating shaft 43 rotates and drives and rotates the sixth gear 42, and the sixth gear 42 rotates and drives the rack 40 and slides to the left. The rack 40 drives the fourth slide block 45 to slide to the left, the fourth slide block 45 slides to the left to drive the fifth slide block 46 to slide up, and the fifth slide block 46 slides up. Second gear 26 The first gear 25 and the third gear 28 are disengaged from each other, the seventh gear 51 and the eighth gear 52 mesh with each other, the motor 23 is started, and the motor 23 drives and rotates the first rotary shaft 24, The first rotary shaft 24 drives and rotates the first gear 25, the first gear 25 drives and rotates the second gear 26, and the second gear 26 drives and rotates the fifth rotary shaft 50 to rotate the fifth gear. The shaft 50 drives and rotates the seventh gear 51, the seventh gear 51 drives and rotates the eighth gear 52, the eighth gear 52 drives and rotates the sixth rotation shaft 54, and the sixth rotation shaft 54 The ninth gear 55 is driven and rotated, the ninth gear 55 drives and rotates the tenth gear 56, the tenth gear 56 drives and rotates the screw bolt 57, and the screw bolt 57 drives the sixth slide block 58. Slide down, the sixth slide block 58 drives the seventh slide block 59 and slides down, and the seventh slide block 59 is an intelligent LED. Drive the lamp 19, slide it down to the outside, and turn on the intelligent LED lamp 19 to achieve the normal lighting effect.

It is clear to a person skilled in the art that the present invention can be modified in various ways without departing from the general spirit and idea of the present invention, and all the modifications are within the protection scope of the present invention. The protection plan of the present invention should be based on the claims of the present invention.

Claims (2)

A device main body, an intermittent switching device installed in the device main body, a switching device installed in the device main body, and an elevating device installed in the device main body, wherein the intermittent switching device is the device main body. A first slide cavity is installed in an upper inner wall of the cavity, and a second slide cavity communicating with the first slide cavity is symmetrical in the left and right inner walls of the cavity. And a third slide cavity communicating with the lower side of the second slide cavity is installed in the lower inner wall of the cavity, and a first slide block that can slide up and down in the first slide cavity. Are installed at the left and right ends of the first slide block and are vertically symmetrical to each other and extend vertically into the second slide cavity. A second slide block that can be moved is fixedly connected, a lower end of the second slide block extends into the third slide cavity, and a third slide block that can slide up and down is provided at a lower end of the second slide block. Fixedly connected, a vibration spring is fixedly connected to the lower end of the third slide block, an intelligent LED lamp is installed in the cavity, and an opening is downward in the upper inner wall of the first slide cavity. A first recessed groove is installed in communication, a fourth slide cavity is installed in the rear inner wall of the cavity, a second recessed groove with an opening facing forward is installed in the rear inner wall of the fourth slide cavity, A motor is fixedly installed in an upper inner wall of the second groove, and a first rotating shaft extending into the second groove is engaged with a lower end of the motor by power. And a first gear that can be rotated is fixedly connected to the lower end of the first rotation shaft, the front end of the first gear extends into the fourth slide cavity, and can rotate to the front end of the first gear. A second gear is meshingly engaged and connected, a third concave groove having an opening facing rearward is installed in a front inner wall of the fourth slide cavity, and a rear end of the third concave groove has a rear end of the fourth slide cavity. A third gear that extends inward and is meshingly connected with the second gear is installed, a first rotating cavity is installed in an upper inner wall of the third groove, and an axial center of the third gear is installed. A second rotating shaft extending into the first rotating cavity and rotatable is fixedly connected, a rotatable fourth gear is fixedly connected to an upper end of the second rotating shaft, and a front end of the fourth gear is A fifth gear, which can be rotated to A third rotating shaft extending into the first concave groove is fixedly connected to an axis of the vehicle, and the third rotating shaft is fixedly connected to the first concave groove and is connected to the first rotating groove. A cam that can come into contact with the slide block is installed, a first through hole is provided in communication between the cavity and the second slide cavity, the second slide block penetrates left and right, and the first through hole is formed. A second through hole that can be aligned is installed, a third through hole that penetrates left and right to the outside and is aligned with the first through hole is installed in the outer inner wall of the second slide cavity, and the switching is performed. The device includes a fourth through hole that is installed in the lower inner wall of the third slide cavity and vertically penetrates to the outside, and the opening is rightward in the left inner wall of the fourth through hole. A fourth recessed groove is installed, a rack is installed in the fourth recessed groove so as to be slidable left and right into the fourth through hole, and a fifth downward facing opening is formed in an upper inner wall of the fourth recessed groove. A recessed groove is provided, a sixth gear whose lower end is meshingly connected with the rack is installed in the fifth recessed groove, and a rear end is provided at the fifth recessed groove at the axial center of the sixth gear. A fourth rotating shaft fixedly connected to a motor that is fixedly connected to the rear inner wall of the fourth rotary shaft is fixedly connected, and an opening is formed in the rear inner wall of the fourth through hole that is a sixth forward facing opening. A fourth groove is installed, the sixth groove and the fourth slide cavity communicate with each other, and a fourth slide which extends into the sixth groove at the rear end of the rack and can slide left and right with the rack. The block is fixedly connected and slides up and down in the fourth slide cavity. A fifth slide block whose lower end engages with the fourth slide block is installed, and guide slide grooves whose openings face each other are symmetrically installed in the front and rear inner walls of the fourth slide cavity. A first guide slide block that extends into the guide slide groove is fixedly connected to the front and rear ends of the block, and a return spring is fixedly connected to the lower end of the first guide slide block. A fifth rotation shaft whose lower end is fixedly connected to the fifth slide block by rotation is fixedly connected to the shaft center, and the fifth slide shaft is fixedly connected to the fifth slide block below the second gear. A seventh gear fixedly connected to the rotating shaft is installed, and the lifting device is installed in the fourth slide cavity and includes an eighth gear that can mesh with the seventh gear. A second rotary cavity is installed in the front inner wall of the fourth slide cavity, and a sixth rotary shaft extending into the second rotary cavity is fixedly connected to the shaft center of the eighth gear. , A rotatable ninth gear is fixedly connected to the front end of the sixth rotating shaft, a rotatable tenth gear is meshingly connected to the lower end of the ninth gear, and the axial center of the tenth gear is A screw bolt that extends through the cavity and extends into the third slide cavity and is rotatable is fixedly connected, and a sixth slide block that can slide up and down is screwed and connected to the screw bolt. A seventh slide block whose lower end is fixedly connected to the intelligent LED lamp is fixedly connected to a front end of the block, and the intelligent LED lamp of the cavity is connected to the seventh slide block. A guide slide lever whose lower end extends into the third slide cavity is installed on the front side, and a second guide slide block, which is slidably connected to the guide slide lever, is fixed to the front end of the seventh slide block. And a fifth through hole that is aligned with the fourth through hole and that allows the intelligent LED lamp to pass therethrough is connected between the cavity and the third slide cavity. 3 is an automated intelligent LED lamp controlled by cloud computing according to an embodiment of the present invention. When using this device, turn on the intelligent LED lamp which can be controlled by cloud computing, and the intelligent LED lamp can convert different lighting modes by cloud computing, and after turning on the intelligent LED lamp , The light is refracted to the outside by the first through hole and the third through hole, and then starts the motor, the motor drives and rotates the first rotating shaft, and the first rotating shaft drives and rotates the first gear. , The first gear drives and rotates the second gear, the second gear drives and rotates the third gear, the third gear drives and rotates the second rotation shaft, and the second rotation shaft rotates the fourth gear. Driven and rotated, the 4th gear drives and rotates the 5th gear, the 5th gear drives and rotates the 3rd rotating shaft, and the 3rd rotating shaft drives and rotates the cam, When the protruding end contacts the first slide block, push the first slide block to slide it down, the first slide block pushes the second slide block to slide it down, and the second slide block pushes the third slide block to push it down. The third slide block slides downward and pushes out the vibration spring downward.At this time, the second through hole in the second slide block is gradually displaced from the first through hole and the third through hole, When the first slide block slides to the bottom, the second through hole is completely displaced from the first through hole and the third through hole when the light emitted to the outside of the intelligent LED lamp decreases, and the cam When the protrusion and the first slide block gradually separate, the elasticity of the vibration spring causes the third slide block to move. C, the second slide block and the first slide block slides up, the second through hole and the first through hole and the third through hole, first recovered to a state of alignment, and then displaced to the upper position, The engagement of the cam and the vibration spring has the effect of intermittent opening and closing at the position of the second through hole, and finally, when normal lighting is demanded, the motor at the rear end of the fourth rotation shaft is started and the fourth rotation is performed. The shaft rotates and drives the sixth gear to rotate, the sixth gear rotates to drive the rack to slide to the left, the rack drives the fourth slide block to slide to the left, and the fourth slide block slides to the left. Then, the fifth slide block is driven to slide up, the fifth slide block slides up, and the second gear is separated from the meshing with the first gear and the third gear, and the seventh gear and the eighth gear mesh with each other. Shi , Start the motor, the motor drives and rotates the first rotation shaft, the first rotation shaft drives and rotates the first gear, the first gear drives and rotates the second gear, and the second gear rotates The fifth rotary shaft is driven and rotated, the fifth rotary shaft drives and rotates the seventh gear, the seventh gear drives and rotates the eighth gear, and the eighth gear drives and rotates the sixth rotary shaft, The sixth rotary shaft drives and rotates the ninth gear, the ninth gear drives and rotates the tenth gear, the tenth gear drives and rotates the screw bolt, and the screw bolt drives and drives the sixth slide block. Slide the 6th slide block to drive the 7th slide block to slide down, 7th slide block to drive the intelligent LED lamp to slide to the outside, and turn on the intelligent LED lamp to get the normal lighting effect That can be realized Using intelligent LED lamp and the lamp shade is controlled by a cloud computing according to an embodiment of the non-present invention.

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