CN112050122B

CN112050122B - Intelligent switching multiple light lamps based on Internet of things

Info

Publication number: CN112050122B
Application number: CN202010981113.XA
Authority: CN
Inventors: 张伟
Original assignee: Suzhou Gannz Eiectronic Technology Co ltd
Current assignee: Suzhou Gannz Eiectronic Technology Co ltd
Priority date: 2020-09-17
Filing date: 2020-09-17
Publication date: 2022-12-09
Anticipated expiration: 2040-09-17
Also published as: CN112050122A

Abstract

The invention relates to the technical field of application of the Internet of things, and discloses an intelligent switching multi-light-ray lamp based on the Internet of things, which comprises a lampshade, a control main board and a lamp tube, wherein the lampshade is arranged on the control main board; the top middle part fixed mounting of lamp shade has the construction bolt, and circular light irradiation hole has been seted up downwards to the bottom intermediate position of lamp shade, and the interior middle part that is located the lamp shade directly over the light irradiation hole is provided with the fluorescent tube of the non-light-passing ability of a set of fore-and-aft direction, the outside surface of fluorescent tube outwards communicates the light-passing board that has the even change of multiunit transparency, and the top round fixed mounting of light irradiation hole has the bounding wall, the top left side of light irradiation hole is provided with the colour change-over plate of a set of circular structure, and the surface of colour change-over plate comprises the colour block of the different colours of multiunit. The invention has the advantages that: pronunciation intelligent control, automatic light intensity and colour are changed, possess the indefinite period dust removal, and are energy-concerving and environment-protective.

Description

Intelligent switching multiple light lamps based on Internet of things

Technical Field

The invention relates to the technical field of application of the Internet of things, in particular to a multi-light-ray lamp intelligently switched based on the Internet of things.

Background

The living standard is continuously improved, and the demand of people on intelligent home life is gradually improved; convenient, comfortable and intelligent modern life style is accepted and advocated by more and more people. Wherein, the illumination is as the basic part of whole house, and humanized light design and energy-concerving and environment-protective illumination lamps and lanterns realize the transform of various light sight through intelligent control, can fully let people enjoy the light that thing networking science and technology brought, comfortable, joyful new life experience.

Chinese patent (publication No. CN 208025271U, publication No. 2018.10.30) discloses an intelligent energy-saving lamp based on the Internet of things, which comprises a shell, wherein a double-open top door is fixedly arranged at the top of the shell, a lifting device is longitudinally and fixedly arranged on a vertical central line in the shell, an illuminating lamp is fixedly arranged on the lifting device, a central processing unit, a power supply module, a Bluetooth module A and an external fixed light sensor are further fixedly arranged in the shell, the central processing unit is respectively and electrically connected with the illuminating lamp, the light sensor, the power supply module and the Bluetooth module A, the lamp realizes control signal transmission and feedback through the intelligent bracelet and the Bluetooth module, and realizes remote control on the lamp.

Disclosure of Invention

The invention aims to provide an intelligent switching multi-light lamp based on the Internet of things, and aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a multi-light-ray lamp capable of being intelligently switched based on the Internet of things comprises a lampshade, a control main board and a lamp tube; the top middle part fixed mounting of lamp shade has a construction bolt, and the interior top of lamp shade has a set of control mainboard through backup pad fixed mounting, and the control mainboard passes through wireless network connection, realizes the operation of long-range wireless control, and the control mainboard is used for controlling the operation of each inside electric power unit of lamp shade. Circular light irradiation hole has been seted up downwards to the bottom intermediate position of lamp shade, the interior middle part of the lamp shade that is located directly over the light irradiation hole is provided with the fluorescent tube of the non-light-transmitting ability of a set of fore-and-aft direction, both ends fixed mounting has hollow structure's guide rail around the fluorescent tube, the front side guide rail passes through the bearing and rotates and connect in the front side inner wall of lamp shade, the rear side guide rail rotates to be connected with fix on the inside wall behind the lamp shade with control mainboard electric connection's servo motor two, can drive the fluorescent tube through starting servo motor two and rotate in the inside of lamp shade. The lamp tube is characterized in that the outer side surface of the lamp tube is outwards communicated with a plurality of groups of transparent plates with uniformly-changed transparencies, and the light intensities released by the transparent plates at different positions are different when the lamp wick runs, so that the light plates with required light intensities are rotated right above the light irradiation holes by controlling the rotating lamp tube, and corresponding light intensities are used.

In order to realize providing the illumination ability of different colours, the top round fixed mounting of light irradiation hole has the bounding wall for prevent to see through the dispersion of the downward output light of light irradiation hole. The light irradiation hole is characterized in that a group of color conversion plates of a circular structure is arranged on the left side of the top of the light irradiation hole, the surfaces of the color conversion plates are composed of a plurality of groups of color blocks with different colors, the areas of the color blocks are far larger than those of the light irradiation hole, and the light irradiation hole can be covered by each group of color blocks when the color blocks rotate to the top of the light irradiation hole. The top middle part of the color conversion plate is upwards fixedly provided with a vertical transmission shaft, the top of the transmission shaft is rotatably connected with a first servo motor which is electrically connected with the control main board and is used for controlling the color conversion plate to rotate, and the first servo motor is fixedly arranged on the outer side wall of the enclosing plate. Through the rotation of drive colour conversion board, the colour piece that will go back different positions is rotatory to the top of light irradiation hole to the regulation is passed through the kind that light irradiation hole sent light downwards.

The interior middle part of fluorescent tube is provided with a set of wick, and the preceding lateral wall fixed mounting of wick has the horizontally conduit, and the front end of conduit extends forward in the guide rail of fluorescent tube and fluorescent tube front end extends to the front side inner wall of lamp shade, the inside of conduit is provided with the wire with wick electric connection, passes the inside of conduit through the wire and outwards connects the power and the operation that the control mainboard is used for controlling the start wick. The wire conduit is made of metal materials, and the lamp wick can be stably supported and suspended in the middle of the lamp tube while the wire conduit provides a transmission function.

As a further scheme of the invention: the guide rail middle part fixed mounting who is located the fluorescent tube front side has a set of main helical gear, the upside kernel of main helical gear have a set ofly with main helical gear mutually perpendicular from the helical gear, top middle part fixed mounting from the helical gear has vertical connecting rod, the top of connecting rod extends to the height that is less than the control mainboard downside, the upper portion of connecting rod is fixed on the front side inside of lamp shade through rotatory support frame, the top of connecting rod is connected with a set of dwang that sets up middle part in the lamp shade through the drive belt rotation towards the rear side of lamp shade, is located the downside fixed mounting of the backup pad of control mainboard bottom has a set ofly to fix the baffle on the lamp shade inner wall rather than both sides that are parallel to each other, the upper and lower end of dwang rotates the top of connecting at the bottom of backup pad and baffle through the bearing respectively, and is rotatory through the transmission drive dwang of drive belt, the well lower position of dwang is connected with two sets of fans of fixing at the baffle top through the drive belt rotation respectively towards both sides, and rotate the rotation of fan through the rotation of dwang, and then produce wind-force. The inside of the partition board on the lower side of the fan is provided with a latticed structure, so that the air generated by the fan can flow downwards to the lamp tube, and the lamp tube can be cleaned of dust on the outer side when the lamp tube is driven to change the brightness of light.

As a further scheme of the invention: a circle of heat absorbing cover surrounding the lamp tube is fixedly arranged between the top of the enclosing plate and the bottom of the partition plate, and heat generated by the lamp core inside the lamp tube during working can be absorbed through the heat absorbing capacity of the heat absorbing cover, so that the working temperature of the whole lamp is improved, and the damage rate is reduced.

As a still further scheme of the invention: the bottom round of lamp shade is equidistant fixed mounting has multiunit and control mainboard electric connection's adapter, collects user's pronunciation through the adapter to the operation of control mainboard, thereby through speech control replacement manual control, further improve intelligent level.

Compared with the prior art, the invention has the beneficial effects that: the lamp wick is arranged in the rotatable lamp tube, a circle of light-transmitting plates for controlling the light release intensity are fixedly arranged on the outer side surface of the lamp tube, and then the sound pickup is matched with the control main board to realize the adjustment of the light intensity under the voice control;

when the light intensity of the lamp tube is changed by rotation, the lamp tube is used for switching the light intensity and the fans on the left side and the right side of the top of the lamp tube are driven and controlled to operate at the same time through the connection structural relationship of the main helical gear, the auxiliary helical gear, the connecting rod and the transmission belt, so that the lamp tube is subjected to dust removal operation, and the dust removal capacity of the lamp tube and the inner part of the lampshade is improved;

the color conversion plate is driven to rotate by starting the servo motor I, and then the color block with the required light color is rotated to the upper side of the light irradiation hole, so that light with corresponding color is emitted through the color block by the light, and the function of intelligently switching light types of the lamp is realized;

the invention has the advantages that: pronunciation intelligent control, automatic light intensity and colour are changed, possess the indefinite period dust removal, and are energy-concerving and environment-protective.

Drawings

Fig. 1 is a schematic view of a front view internal structure of a multi-light-ray lamp intelligently switched based on the internet of things.

Fig. 2 is an external structural schematic diagram of a lamp tube in a multi-light-ray lamp based on intelligent switching of the internet of things.

Fig. 3 is a schematic view of a front view internal structure of a lamp tube in a multi-light-line lamp based on intelligent switching of the internet of things.

Fig. 4 is a schematic view of a top view structure of a color conversion plate in an internet-of-things based intelligent switching multi-light lamp.

Wherein: the light source device comprises a lampshade 10, a mounting bolt 11, a control main board 12, a light irradiation hole 13, a heat absorption cover 14, a transmission shaft 15, a first servo motor 16, a sound pick-up 17, a lamp tube 18, a light transmission plate 19, a rotating rod 20, a transmission belt 21, a fan 22, a partition plate 23, a main bevel gear 24, a slave bevel gear 25, a connecting rod 26, a second servo motor 27, a lamp wick 28, a conduit 29, a lead 30, a color conversion plate 31 and a color block 32.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Example one

Referring to fig. 1-4, an intelligent switching multiple light ray lamp based on the internet of things includes a lampshade 10, a control main board 12, and a lamp 18; the top middle part fixed mounting of lamp shade 10 has mounting bolt 11, and the interior top of lamp shade 10 has a set of control mainboard 12 through backup pad fixed mounting, and control mainboard 12 passes through wireless network connection, realizes the operation of long-range wireless control, and control mainboard 12 is used for controlling the operation of each inside electric power unit of lamp shade 10. Circular light irradiation hole 13 has been seted up downwards to the bottom intermediate position of lamp shade 10, the interior middle part of lamp shade 10 that is located directly over light irradiation hole 13 is provided with a set of fore-and-aft direction's fluorescent tube 18 that does not have the light transmission ability, both ends fixed mounting has hollow structure's guide rail around fluorescent tube 18, the front side guide rail passes through the bearing and rotates to be connected in the front side inner wall of lamp shade 10, the back side guide rail rotates and is connected with fix on the inside wall behind lamp shade 10 with control mainboard 12 electric connection's second servo motor 27, can drive fluorescent tube 18 and rotate in the inside of lamp shade 10 through starting second servo motor 27. The interior middle part of fluorescent tube 18 is provided with a set of wick 28, and the preceding lateral wall fixed mounting of wick 28 has horizontal conduit 29, and the front end of conduit 29 extends forward and extends to the fluorescent tube 18 and the guide rail of fluorescent tube 18 front end extends to the front side inner wall of lamp shade 10 in, the inside of conduit 29 is provided with the wire 30 with wick 28 electric connection, passes the inside of conduit 29 through wire 30 and outwards connects the power and control mainboard 12 and be used for the operation that the control starts wick 28. The wire conduit 29 is made of metal material, and can suspend the lamp wick 28 in the middle of the lamp tube 18 while providing transmission function for the wire 30. The outer side surface of the lamp tube 18 corresponding to the light irradiation hole 13 is communicated with a plurality of groups of transparent plates 19 with uniformly changed transparencies, and the light intensities released by the transparent plates 19 at different positions are different when the lampwick 28 runs, so that the light plates 19 with required light intensities are rotated to be right above the light irradiation hole 13 by controlling the rotating lamp tube 18, and corresponding light intensities are used.

The lamp tube is characterized in that a group of main helical gears 24 are fixedly mounted in the middle of a guide rail positioned on the front side of the lamp tube 18, a group of slave helical gears 25 perpendicular to the main helical gears 24 are arranged in the inner core of the upper side of each main helical gear 24, vertical connecting rods 26 are fixedly mounted in the middle of the tops of the slave helical gears 25, the tops of the connecting rods 26 extend to a height lower than the lower side of the control main board 12, the upper portions of the connecting rods 26 are fixed on the inner portion of the front side of the lamp shade 10 through rotating support frames, the tops of the connecting rods 26, facing the rear side of the lamp shade 10, are rotatably connected with a group of rotating rods 20 arranged in the middle of the lamp shade 10 through transmission belts 21, a group of partition plates 23, parallel to the two sides of the lower side of a support plate at the bottom of the support plate and the tops of the partition plates 23, are fixedly mounted at the middles of the rotating rods 20, are rotatably connected with two groups of fans 22, facing the two sides of the rotating rods, and fixed at the tops of the partitions 23 through the transmission belts 21, and the fans 22 are rotatably driven to rotate through bearings, so as to generate wind power. The partition 23 on the lower side of the fan 22 is provided with a grid structure inside to facilitate the wind generated by the fan 22 to flow downward to the lamp 18, so that when the lamp 18 is driven to change the brightness of the light, the lamp 18 can be cleaned from the outside.

Example two

In order to realize the illumination capability of providing different colors, a surrounding plate is fixedly arranged at the top of the light irradiation hole 13 in a circle manner and used for preventing the light transmitted through the light irradiation hole 13 from being dispersed downwards. The left side of the top of the light irradiation hole 13 is provided with a group of color conversion plates 31 with a circular structure, the surface of each color conversion plate 31 is composed of a plurality of groups of color blocks 32 with different colors, the area of each color block 32 is far larger than that of the light irradiation hole 13, and the light irradiation holes 13 can be covered in order to ensure that each group of color blocks 32 can rotate to the top of the light irradiation hole 13. The top middle part of the color conversion plate 31 is upwards fixedly provided with a vertical transmission shaft 15, the top part of the transmission shaft 15 is rotatably connected with a first servo motor 16 which is electrically connected with the control main board 12 and is used for controlling the color conversion plate 31 to rotate, and the first servo motor 16 is fixedly arranged on the outer side wall of the enclosing plate. By driving the color conversion plate 31 to rotate, the color block 32, which is still in a different position, is rotated to the top of the light irradiation hole 13, thereby adjusting the kind of light emitted downward through the light irradiation hole 13. A circle of heat absorbing cover 14 surrounding the lamp tube 18 is fixedly arranged between the top of the enclosing plate and the bottom of the partition plate 23, and heat generated by the lamp wick 28 in the lamp tube 18 during working can be absorbed through the heat absorbing capacity of the heat absorbing cover 14, so that the working temperature of the whole lamp is improved, and the damage rate is reduced.

In order to further improve the intelligent control ability of this lamps and lanterns, the bottom round of equidistant fixed mounting of lamp shade 10 has multiunit and control mainboard 12 electric connection's adapter 17, collects user's pronunciation through adapter 17 to the operation of control mainboard 12, thereby through speech control replacement manual control, further improve intelligent level.

The working principle of the invention is as follows: when the lamp tube 18 is used, the lamp tube is fixedly installed through the installation bolt 11, then the remote control main board 12 is in wireless connection, the operation mode of the remote control main board 12 is achieved, then the lamp tube 18 is started to rotate by the aid of the second servo motor 27 according to required light intensity in the process of using the lamp tube 18, the light transmitting plate 19 which releases proper light intensity is rotated to the top of the light irradiation hole 13 in a voice collecting mode through the sound pickup 17, the lamp wick 28 is started, the second servo motor 27 is further started to rotate to control the lamp tube 18, the light transmitting plate 19 which releases proper light intensity is rotated to the top of the light irradiation hole 13, then the purpose of controlling the light intensity is achieved, meanwhile, the fans 22 on the left side and the right side of the top of the lamp tube 18 are driven to operate through the first main bevel gear 24, the second servo motor 16 is started to drive the color conversion plate 31 to rotate when the light color needs to be changed, then the color block 32 of the required light color is rotated to the upper side of the light irradiation hole 13, and accordingly light rays of corresponding colors are emitted through the color block 32.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims

1. A multi-light-ray lamp capable of being intelligently switched based on the Internet of things comprises a lampshade (10), a control main board (12) and a lamp tube (18); the remote wireless control lamp shade is characterized in that a group of front and back non-light-transmission tubes (18) are arranged in the middle of the inner portion of the lamp shade (10) right above the light irradiation holes (13), guide rails of a hollow structure are fixedly arranged at the front end and the back end of the lamp tube (18), the front guide rails are rotatably connected into the inner wall of the front side of the lamp shade (10) through bearings, the back guide rails are rotatably connected with a second servo motor (27) which is fixed on the inner side wall of the back of the lamp shade (10) and electrically connected with the control main board (12), the lamp tube (18) is driven to rotate inside the lamp shade (10) by starting the second servo motor (27), a plurality of groups of light-transmission plates (19) which are uniformly changed are outwards communicated, the light-transmission plates (19) control the light-transmission tubes (18) to transmit light of required light intensity to the light-transmission holes (19) to rotate inside the lamp shade (10), and a group of light-irradiation light-transmission plates (31) are arranged above the light-transmission holes (13) and correspond to the light-irradiation holes (13) of the top of the light-transmission plates, so that a circle of light-irradiation hole (13) is fixedly arranged, the surface of the color conversion plate (31) is composed of a plurality of groups of color blocks (32) with different colors, the area of each color block (32) is far larger than that of the corresponding light irradiation hole (13), a vertical transmission shaft (15) is upwards fixedly installed in the middle of the top of the color conversion plate (31), the top of the transmission shaft (15) is rotatably connected with a first servo motor (16) which is electrically connected with the control main board (12) and is used for controlling the color conversion plate (31) to rotate, and the first servo motor (16) is fixedly installed on the outer side wall of the enclosing plate;

a group of main helical gears (24) are fixedly installed in the middle of a guide rail positioned on the front side of the lamp tube (18), a group of secondary helical gears (25) which are perpendicular to the main helical gears (24) are arranged in the inner core of the upper side of each main helical gear (24), a vertical connecting rod (26) is fixedly installed in the middle of the top of each secondary helical gear (25), the top of each connecting rod (26) extends to a height lower than the lower side of the control main board (12), the upper parts of the connecting rods (26) are fixed on the inner part of the front side of the lampshade (10) through rotary supporting frames, the top of each connecting rod (26) towards the rear side of the lampshade (10) is rotatably connected with a group of rotating rods (20) arranged in the middle of the lampshade (10) through driving belts (21), a group of partition plates (23) which are parallel to each other are fixedly installed on the lower side of a support plate positioned at the bottom of the control main board (12), the upper and lower ends of the rotating rods (20) are rotatably connected to the bottom of the support plate and the top of the partition plates (23) through bearing rotating rods, and fans (22) fixed on the tops of the partition plates (23) towards the two sides through driving belts (21) respectively;

the inside of the partition board (23) at the lower side of the fan (22) is provided with a grid-shaped structure.

2. The Internet of things-based intelligent switching multi-light lamp is characterized in that a group of lampwicks (28) are arranged in the middle of the lamp tube (18), a horizontal wire conduit (29) is fixedly mounted on the front side wall of each lampwick (28), the front end of each wire conduit (29) extends forwards through the lamp tube (18) and a guide rail at the front end of the lamp tube (18) and extends into the inner wall of the front side of the lampshade (10), and a wire (30) electrically connected with the lampwicks (28) is arranged inside each wire conduit (29).

3. An internet of things based intelligent switching multi-light fixture as claimed in claim 2, wherein the conduit (29) is made of metal.

4. The Internet of things-based intelligently switched multi-light lamp as claimed in claim 1, wherein a ring of heat absorbing cover (14) surrounding the lamp tube (18) is fixedly mounted between the top of the enclosing plate and the bottom of the partition plate (23).

5. The Internet of things-based intelligent switching multi-light lamp as claimed in claim 1 or 2, wherein a plurality of groups of sound pick-up devices (17) electrically connected with the control main board (12) are fixedly mounted at the bottom of the lampshade (10) at equal intervals.