CN114877271B

CN114877271B - Intelligent socket induction foot lamp

Info

Publication number: CN114877271B
Application number: CN202210484953.4A
Authority: CN
Inventors: 郑小锋; 程金桥; 郑益淼; 鲁伟波; 郑超
Original assignee: Zhejiang Geno Electrical Co ltd
Current assignee: Zhejiang Geno Electrical Co ltd
Priority date: 2022-05-06
Filing date: 2022-05-06
Publication date: 2024-04-05
Anticipated expiration: 2042-05-06
Also published as: CN114877271A

Abstract

The invention discloses an intelligent socket induction footlight, and belongs to the technical field of lighting lamps. This response ground lamp includes the ground lighting fixture, be provided with the illumination lamps and lanterns on the ground lighting fixture, the cover has the lamp shade that warp on the illumination lamps and lanterns, it sets up on the ground lighting fixture to warp the lamp shade, ground lamp frame bottom is provided with the removal tray, illumination lamps and lanterns pass through the wire and are connected with intelligent socket, intelligent socket passes through the wire and is connected with the power, be provided with control switch on the ground lighting fixture, control switch passes through the wire and is connected with illumination lamps and lanterns, it is provided with the anti-falling handle to warp the lamp shade below, install the ground lamp, when needs use, with the circular telegram line of ground lamp with intelligent socket connection, intelligent socket is the ground lamp power supply, after opening control switch, the ground lamp will be opened, send bright see through the lamp shade that warp after the illumination lamps and lanterns circular telegram when needs remove the ground lamp, promote ground lamp frame can, when the slope appears in the ground lamp, anti-falling handle will make the ground lamp keep balanced.

Description

Intelligent socket induction foot lamp

Technical Field

The invention relates to the technical field of lighting lamps, in particular to an intelligent socket induction footlight.

Background

The popularization of lighting equipment brings people with bright life, from most common incandescent lamps to LED lamps which are developed more rapidly nowadays, the people's desire for bright is witnessed, along with the progress of science and technology, more and more lamp types are appeared on the market for people to choose, a series of lamp which are in good condition such as a floor lamp, a pendant lamp, a desk lamp and the like can lead people to be dazzled, but the current lamp has a common defect that when people do not turn off the switch of the lamp, the lamp always keeps on, the power is wasted, the common sound control lamp and the light control lamp are inconvenient to use in the families of common people, the brightness of most lamps cannot be intelligently adjusted, and the brightness of the lamps with different color depths cannot be achieved.

The invention CN201711047329.3 provides a multifunctional touch floor lamp, which comprises a floor lamp base, wherein the floor lamp base is connected with a floor lamp post device, the top end of the floor lamp post device is connected with a floor lamp shade, the middle part inside the floor lamp shade is provided with an incandescent lamp, a circle of ventilation holes are uniformly formed in the middle of the floor lamp shade, the side surface of the lower part of the floor lamp shade, which is provided with a temperature and humidity detector in the circumferential direction of the ventilation holes, is provided with an infrared detector, the floor lamp post device is formed by a telescopic rod and a driving device in the telescopic rod, a circuit board is arranged in the telescopic rod, a micro control unit and a wireless receiving device are arranged on the circuit board, the circuit board is electrically connected with the micro control unit, the micro control unit is respectively connected with an infrared detector, the wireless receiving device and the temperature and humidity detector, and universal wheel devices are symmetrically arranged at the bottom end of the floor lamp base.

Disclosure of Invention

The invention provides an intelligent socket induction footlight which can effectively solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

this response foot lamp includes the floor lamp frame, be provided with the illumination lamps and lanterns on the floor lamp frame, the cover has the lamp shade that warp on the illumination lamps and lanterns, it sets up on the floor lamp frame to warp the lamp shade, floor lamp frame bottom is provided with the removal tray, illumination lamps and lanterns pass through the wire and are connected with intelligent socket, intelligent socket passes through the wire and is connected with the power, be provided with control switch on the floor lamp frame, control switch passes through the wire and is connected with illumination lamps and lanterns, be provided with down the handle on the floor lamp frame, the handle that prevents down is located the lamp shade below warp, install the foot lamp, when needs use, be connected the circular telegram line and the intelligent socket of foot lamp, intelligent socket is the foot lamp power supply, after opening control switch, the foot lamp will be opened, send light after the illumination lamps and see through the lamp shade that warp and throw light, when needs to move the foot lamp, only need promote floor lamp frame remove can, when the foot lamp appears the slope, the handle that prevents down will make the foot lamp keep balanced.

The deformation lampshade comprises a shielding cover, the shielding cover is in sliding connection with the deformation lampshade, a shielding cavity is arranged in the shielding cover, an air exhaust row is arranged in the shielding cavity and in sliding contact with the shielding cavity, the air exhaust row is arranged on an air release ring, an air storage chamber is arranged above the shielding cavity and is communicated with the air release ring, colored gas is arranged in the air storage chamber, the air storage chamber is provided with an air charging motor above the air storage chamber, the output end of the air charging motor is fixedly connected with one end of the air exhaust row, close to the air storage chamber, of the air storage chamber when the light adjustment is needed, only the air charging motor is required to be started, the air charging motor can drive the air exhaust row to move, the air exhaust row moves in the shielding cavity, the colored gas in the air storage chamber is released, the positions of the air storage ring can be regulated according to requirements, and accordingly, the release effects of different colors on the same lamp can be achieved easily, and when the light adjustment is needed, the air exhaust motor is required to be started to be back moved, and the colored gas returns to the shielding cavity.

The anti-falling handle comprises an anti-falling ring, the anti-falling ring is sleeved on the floor lamp bracket and is rotationally connected with the floor lamp bracket through a bearing, a plurality of air ejector tubes are arranged on the anti-falling ring, the distance between adjacent air ejector tubes is equal, the air ejector tubes are communicated with the anti-falling ring, an air ejector motor is arranged in one air ejector tube, an air ejector turbine is arranged at the output end of the air ejector motor, the air ejector turbine is rotationally connected with the air ejector tube, a negative weight is arranged on the air ejector tube far away from the air ejector motor, a load block is in sliding connection with the air ejector tube, a trigger switch is arranged on the air ejector tube, the trigger switch is connected with the air ejector motor after the foot lamp deflects, the anti-falling ring can also rotate under the action of the negative weight, the negative weight moves to the end of the air ejector tube, the trigger switch is closed, the air ejector tube can rotate the air ejector motor, the air ejector turbine is driven to rotate, external air enters into other tubes, and air is ejected from the air ejector tube far away from the air ejector motor, the direction is opposite to the dumping direction of the lamp bracket, the driving force opposite to the floor lamp bracket is generated, and the stability of the floor lamp bracket is guaranteed, and meanwhile the structure is of a touch-type structure with reduced electric power.

The anti-falling ring is internally provided with a plurality of air blocking balls, each air blocking ball is arranged on the ball ring, each air blocking ball is in sliding connection with the ball ring, a spring is arranged between each air blocking ball and the ball ring, two ends of the spring are respectively connected with the air blocking ball and the ball ring, the ball ring is provided with a balance block, the air blocking balls are propped against the air spraying pipe, when the floor lamp frame deflects, the ball ring can also rotate, the balance block on the ball ring can enable the ball ring to keep the same direction, one end far away from the air spraying motor can jet air, the balance block keeps the downward direction, the air blocking balls in other directions can prop against the air spraying pipe in other directions, the air spraying pipe in other directions can not jet air, acting forces opposite to the tilting direction are generated, and the balance state of the floor lamp frame is guaranteed.

The intelligent socket comprises a socket shell, two anti-falling grooves are formed in the socket shell, a first clamping piece and a second clamping piece are respectively arranged in each anti-falling groove, anti-falling pieces are arranged below each anti-falling groove, each anti-falling piece is rotationally connected with the corresponding anti-falling groove, clamping wedge blocks are respectively arranged on two sides of each anti-falling piece, the two clamping wedge blocks respectively support against the first clamping piece and the corresponding second clamping piece, each anti-falling groove is respectively connected with an infrared component, the anti-falling grooves are rotationally connected with the socket shell, a grounding groove is formed in the upper portion of each anti-falling groove, the grounding groove is connected with a grounding wire, a light-transmitting cover is arranged on the socket shell, an infrared component is arranged on one side, close to the light-transmitting cover, of the socket shell, and the plug is electrified when the sensing foundation is placed into the socket, the first clamping piece and the second clamping piece are locked, the anti-falling pieces are respectively arranged on the anti-falling pieces, the anti-falling pieces are respectively supported on the anti-falling pieces, the anti-falling pieces downwards move under the action of the plug, the first clamping pieces and the second clamping pieces are respectively connected with the infrared component, the infrared component is mutually close to each other, the anti-falling pieces, the first clamping pieces and the plug is enabled to be directly pulled out by the plug, and the infrared component is selectively and the infrared component is powered by the infrared component.

The infrared component comprises an infrared emitter, the infrared emitter is arranged on one side of the transparent cover, the infrared emitter is connected with the control switch through a wire, a detection box is arranged on one side of the infrared emitter and fixedly connected with the socket shell, the detection box is connected with the circuit board through a wire, the circuit board is connected with the control switch and the anti-drop groove through a wire, after the control switch is opened, the infrared emitter is electrified, under the control of the circuit board, the infrared emitter is intermittently electrified, the transparent cover emits infrared rays to irradiate a scene outside the transparent cover, the scene is received and detected by the detection box, and the transparent cover is used for continuously protecting the infrared component and preventing dust from entering the infrared component.

The infrared light sensitive tube is arranged in the detection box and connected with the circuit board through a wire, one end of the infrared light sensitive tube, far away from the circuit board, is connected with the anti-drop groove, the detection box is provided with a filter plate, the filter plate is provided with teeth, the detection box is provided with an adjusting motor, the output end of the adjusting motor is meshed with the teeth of the filter plate, the filter plate is in sliding connection with the detection box, the adjusting motor is connected with the circuit board through the wire, after the infrared transmitter transmits infrared rays, the infrared light sensitive tube in the detection box receives the reflected infrared rays, so that the resistance is increased, current flowing through the infrared light sensitive tube enters the circuit board, when the current changes frequently, the current proves that a person is using a lamp, when the current does not change obviously or changes into a regular change trend, the circuit board can automatically cut off the power supply.

The lower end of the movable tray is provided with a plurality of movable fixing blocks, each movable fixing block is respectively and rotatably connected with the movable tray, one side of the movable tray, which is close to the movable fixing blocks, is provided with a hidden cavity, a locking block is arranged in the hidden cavity, the locking block is in sliding connection with the inner wall of the hidden cavity, two sides of the locking block are respectively provided with locking beads, the locking beads are connected with the locking block through springs, the locking block props against the movable fixing blocks, the lower end of the movable fixing block is provided with movable rollers, the movable rollers are rotatably connected with the movable fixing blocks, when the foot lamps need to move, the floor lamp brackets are pushed to push the movable tray to move, when the movable tray moves to a proper position, the movable fixing blocks only need to move upwards, the movable fixing blocks can turn over to the hidden cavity with the movable rollers, so that the movable tray is in direct contact with the ground, friction with the ground is enhanced, the movable tray is more stably stood on the ground, the movement cannot occur, and the possibility of toppling is reduced.

Compared with the prior art, the invention has the beneficial effects that: 1. the intelligent lamp lighting control device adopts the induction type intelligent socket, can sense the change condition of the indoor environment through intelligent adjustment of the infrared component, and controls whether to supply power to the lamp according to the indoor change condition, so that the effect of intelligently controlling the lighting of the lamp is realized, the power loss caused by forgetting of a user is reduced, and the service life of the lamp is reduced.

2. The invention adopts the design of preventing toppling, can avoid the problem of damage to the lamp caused by straight and straight beating to the ground when the floor lamp frame topples through the triggering device, and has the automatic righting function when the floor lamp frame topples slightly.

3. The invention adopts the function of automatic inflation and ventilation of the lamp, can achieve the function of different brightness of the lighting lamp, can store a plurality of gases with different colors into the lamp, can achieve the effect of one lamp with multiple colors, and simultaneously can adjust the bright depth of the colors so as to be more suitable for the demands of people.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic three-dimensional structure of the present invention;

FIG. 2 is a schematic view of a deformed lampshade structure according to the present invention;

FIG. 3 is a schematic view of the structure of the mobile pallet of the present invention;

FIG. 4 is a schematic view of a partially cut-away structure of the smart jack of the present invention;

FIG. 5 is a schematic view of the internal structure of the anti-drop slot of the present invention;

FIG. 6 is a schematic view of the inside structure of the fall prevention ring of the present invention;

FIG. 7 is a schematic view of the structure of a gas lance of the present invention;

FIG. 8 is a schematic view of the infrared assembly of the present invention;

FIG. 9 is a schematic diagram of the configuration of the pump exhaust and air release ring of the present invention;

reference numerals in the drawings: 1. floor lamp stand; 2. a lighting fixture; 3. deforming the lampshade; 301. a shielding cover; 302. shielding the cavity; 303. exhausting; 304. a deflation ring; 305. an air storage chamber; 306. an air charging motor; 4. moving the tray; 5. an intelligent socket; 501. a socket housing; 502. an anti-drop groove; 503. a first clamping piece; 504. a second clamping piece; 505. an anti-falling sheet; 506. clamping the wedge block; 507. a grounding groove; 508. a light-transmitting cover; 6. a control switch; 7. an anti-fall handle; 701. an anti-falling ring; 702. a gas lance; 703. a jet motor; 704. a jet turbine; 705. a negative weight; 706. triggering a switch; 707. gas-blocking ball; 708. a ball ring; 709. a balance weight; 14. an infrared component; 1401. an infrared emitter; 1402. a detection box; 1403. a circuit board; 1404. an infrared photosensitive tube; 1405. a filter; 1406. adjusting a motor; 8. moving the fixed block; 9. a hidden cavity; 10. a locking block; 11. locking the beads; 12. and (5) moving the roller.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 9, the present invention provides the following technical solutions:

this response rag lamp includes floor lamp frame 1, be provided with illumination lamp 2 on the floor lamp frame 1, the cover has deformation lamp shade 3 on the illumination lamp 2, deformation lamp shade 3 sets up on floor lamp frame 1, floor lamp frame 1 bottom is provided with removes tray 4, illumination lamp 2 passes through the wire and is connected with smart jack 5, smart jack 5 passes through the wire and is connected with the power, be provided with control switch 6 on the floor lamp frame 1, control switch 6 passes through the wire and is connected with illumination lamp 2, be provided with anti-falling handle 7 on the floor lamp frame 1, anti-falling handle 7 is located deformation lamp shade 3 below, install the rag lamp, when needs use, be connected the circular telegram line and the smart jack of rag lamp, smart jack is the rag lamp power supply, after opening control switch, the rag lamp will be opened, send bright transmission deformation lamp shade and throw light after the circular telegram, when needs to remove the rag lamp, only need promote the floor lamp frame remove, when the rag lamp appears the slope, anti-falling handle will make the rag lamp keep balanced.

The deformation lampshade 3 comprises a shielding cover 301, the shielding cover 301 is in sliding connection with the deformation lampshade 3, a shielding cavity 302 is arranged in the shielding cover 301, an air exhaust row 303 is arranged in the shielding cavity 302, the air exhaust row 303 is in sliding contact with the shielding cavity 302, the air exhaust row 303 is arranged on a deflation ring 304, an air storage chamber 305 is arranged above the shielding cavity 302, the air storage chamber 305 is communicated with the deflation ring 304, colored gas is filled in the air storage chamber 305, the deflation ring 304 is in sliding contact with the air exhaust row 303, an air charging motor 306 is arranged above the air storage chamber 305, the output end of the air charging motor 306 is fixedly connected with one end of the air exhaust row 303, close to the air storage chamber 305, only the air charging motor is required to be started, the air exhaust row is driven to move when the light of the foot lamps is required to be regulated, the air exhaust row is required to move in the shielding cavity, the colored gas in the air storage chamber is released, the positions of the deflation ring can be regulated according to requirements, and accordingly, the release effects of different colors on the same lamp can be realized easily, and when the same lamp is required to be turned on, the colored gas is required to be turned back on, and the air exhaust row is required to be started.

The anti-falling handle 7 comprises an anti-falling ring 701, the anti-falling ring 701 is sleeved on the floor lamp frame 1 and is rotationally connected with the floor lamp frame 1 through a bearing, a plurality of air ejector pipes 702 are arranged on the anti-falling ring 701, the distances between the adjacent air ejector pipes 702 are equal, the air ejector pipes 702 are communicated with the anti-falling ring 701, an air ejector motor 703 is arranged in one air ejector pipe 702, an air ejector turbine 704 is arranged at the output end of the air ejector motor 703, the air ejector turbine 704 is rotationally connected with the air ejector pipe 702, a negative weight 705 is arranged on the air ejector pipe 702 far away from the air ejector motor 703, the weight 705 is slidably connected with the air ejector pipe 702, a trigger switch 706 is arranged on the air ejector pipe 702, the trigger switch 706 is connected with the air ejector motor 703, after the foundation lamp deflects due to the action of the negative weight, the negative weight moves to the air ejector pipe, the trigger switch is closed, the air ejector pipes rotate, the air ejector motor is driven to rotate, external air is driven to enter other air ejector pipes, and air is ejected from the air ejector pipes far away from the air ejector motor, the air ejector pipes, the direction is opposite to the direction of the lamp frame, and the falling power is guaranteed to be stable, and the falling power structure is guaranteed to fall down.

The anti-falling ring 701 is internally provided with a plurality of air blocking balls 707, each air blocking ball 707 is arranged on a ball ring 708, each air blocking ball 707 is in sliding connection with the ball ring 708, a spring is arranged between each air blocking ball 707 and the ball ring 708, two ends of the spring are respectively connected with the air blocking balls 707 and the ball ring 708, the ball ring 708 is provided with a balance block 709, the air blocking balls 707 prop against the air spraying pipe 702, when the floor lamp frame deflects, the ball ring also rotates, the balance block on the ball ring can enable the ball ring to keep the same direction, one end far away from the air spraying motor can spray air, the balance block keeps downward, and the air blocking balls in other directions prop against the air spraying pipes in other directions, so that the air spraying pipes in other directions cannot spray air, acting forces opposite to the tilting directions are generated, and the balance state of the floor lamp frame is ensured.

The smart socket 5 comprises a socket housing 501, two anti-falling grooves 502 are formed in the socket housing 501, a first clamping piece 503 and a second clamping piece 504 are respectively arranged in each anti-falling groove 502, anti-falling pieces 505 are arranged below the anti-falling grooves 502, the anti-falling pieces 505 are rotatably connected with the anti-falling grooves 502, clamping wedges 506 are respectively arranged on two sides of each anti-falling piece 505, the two clamping wedges 506 respectively support against the first clamping piece 503 and the second clamping piece 504, each anti-falling groove 502 is respectively connected with an infrared component 14, the anti-falling grooves 502 are rotatably connected with the socket housing 501, a grounding groove 507 is arranged above each anti-falling groove 502, the grounding groove 507 is connected with a grounding wire, a light transmission cover 508 is arranged on the socket housing 501, an infrared component 14 is arranged on one side, close to the light transmission cover 508, when the sensing feet are placed into the socket, the first clamping pieces and the second clamping pieces lock plugs, the anti-falling pieces are electrified, the anti-falling pieces are respectively supported against the first clamping pieces and the second clamping pieces, the anti-falling pieces are respectively, the anti-falling pieces are moved under the action of the plugs, the anti-falling pieces are respectively connected with the infrared component 14, and the anti-falling pieces are simultaneously clamped by the infrared component, and the anti-falling pieces are enabled to rotate, and the infrared component is clamped by the infrared component to be directly and the infrared component.

The infrared ray assembly 14 comprises an infrared ray emitter 1401, the infrared ray emitter 1401 is arranged on one side of a light transmission cover 508, the infrared ray emitter 1401 is connected with a control switch 6 through a wire, a detection box 1402 is arranged on one side of the infrared ray emitter 1401, the detection box 1402 is fixedly connected with a socket shell 501, the detection box 1402 is connected with a circuit board 1403 through a wire, the circuit board 1403 is connected with the control switch 6 and an anti-drop groove 502 through a wire, after the control switch is opened, the infrared ray emitter is electrified, under the control of the circuit board, the infrared ray emitter is intermittently electrified, the light transmission cover emits infrared rays to irradiate scenes outside the light transmission cover and is received and detected by the detection box, and the light transmission cover continuously protects the infrared ray assembly and prevents dust from entering the infrared ray assembly.

The infrared light sensitive tube 1404 is arranged in the detection box 1402, the infrared light sensitive tube 1404 is connected with the circuit board 1403 through a wire, one end, far away from the circuit board 1403, of the infrared light sensitive tube 1404 is connected with the anti-falling groove 502, the detection box 1402 is provided with the filter 1405, the filter 1405 is provided with teeth, the detection box 1402 is provided with the regulating motor 1406, the output end of the regulating motor 1406 is meshed with the teeth of the filter 1405, the filter 1405 is in sliding connection with the detection box 1402, the regulating motor 1406 is connected with the circuit board 1403 through a wire, after infrared light is emitted by the infrared emitter, the infrared light sensitive tube in the detection box receives reflected infrared light, the resistance is increased, current flowing through the infrared light sensitive tube enters the circuit board, when the current is changed frequently, a person is proved to use the lamp, when the current is not changed obviously, or is changed into a regular change trend, the unmanned aerial vehicle is proved to be indoor, and the circuit board is automatically powered off.

The lower extreme of removal tray 4 is provided with a plurality of removal fixed block 8, every removal fixed block 8 respectively with remove tray 4 swivelling joint, remove tray 4 is close to removal fixed block 8 one side and is provided with hidden chamber 9, be provided with locking piece 10 in the hidden chamber 9, locking piece 10 and hidden chamber 9 inner wall sliding connection, locking piece 10 both sides are provided with locking pearl 11 respectively, locking pearl 11 passes through spring coupling with locking piece 10, locking piece 10 supports removal fixed block 8, remove fixed block 8 lower extreme and be provided with removal gyro wheel 12, removal gyro wheel 12 and removal fixed block 8 swivelling joint, when the foot lamp needs to remove, promote the floor lighting fixture, drive removal tray and remove, when removing to suitable position, only need upwards remove the locking piece, the removal fixed block will carry the removal gyro wheel upset to the hidden intracavity, make removal tray and the direct contact on the ground, the friction with the ground is strengthened and make the more stable standing of removal tray on the earth surface, can not take place the removal, and reduce the possibility of toppling over.

The working principle of the invention is as follows: when needs use, with the power-on line and the smart jack 5 of footlight, smart jack 5 is the footlight power supply, this smart jack passes through infrared ray subassembly 14, detect indoor environment simultaneously, infrared ray subassembly 14 still can automatically regulated, avoid owing to single error that detects by a wide margin, thereby indirectly control the power-on condition of smart jack 5, after opening control switch, the footlight will be opened, send light and throw the deformation lamp shade 3 and throw light on after the illumination lamps and lanterns 2 are electrified, air-inflation motor 306 drives and bleeds 303 and remove, bleeds 303 and remove in shelter from the chamber 302, release the colored gas that exists in the chamber 305, still can adjust the position of bleed ring 304 according to the demand, realize the release of different colours, thereby realize the release effect of different colours on same lamp easily, when needs remove the footlight, only need promote floor lamp frame 1 remove can, when the slope appears to the footlight, prevent that the ring will trigger automatically, jet motor 703 will start, and select the jet-propelled direction according to floor lamp frame 1's the backward direction is automatic, can realize that the function is just to the floor lamp of falling to the more to the floor to the ground when just falling to the ground.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An intelligent socket response footlight, its characterized in that: the induction foot lamp comprises a floor lamp holder (1), wherein a lighting lamp (2) is arranged on the floor lamp holder (1), a deformation lamp cover (3) is sleeved on the lighting lamp (2), the deformation lamp cover (3) is arranged on the floor lamp holder (1), a movable tray (4) is arranged at the bottom end of the floor lamp holder (1), the lighting lamp (2) is connected with an intelligent socket (5) through a wire, the intelligent socket (5) is connected with a power supply through a wire, a control switch (6) is arranged on the floor lamp holder (1), the control switch (6) is connected with the lighting lamp (2) through a wire, an anti-falling handle (7) is arranged on the floor lamp holder (1), and the anti-falling handle (7) is arranged below the deformation lamp cover (3);

the deformation lampshade (3) comprises a shielding cover (301), the shielding cover (301) is in sliding connection with the deformation lampshade (3), a shielding cavity (302) is arranged in the shielding cover (301), an air exhaust row (303) is arranged in the shielding cavity (302), the air exhaust row (303) is in sliding contact with the shielding cavity (302), the air exhaust row (303) is arranged on a deflation ring (304), an air storage chamber (305) is arranged above the shielding cavity (302), the air exhaust row (303) is communicated with the deflation ring (304), colored gas is filled in the air storage chamber (305), the deflation ring (304) is in sliding contact with the air exhaust row (303), an air inflation motor (306) is arranged above the air storage chamber (305), and the output end of the air inflation motor (306) is fixedly connected with one end, close to the air storage chamber (305), of the air exhaust row (303).

The anti-tilting handle (7) comprises an anti-tilting ring (701), the anti-tilting ring (701) is sleeved on the floor lamp frame (1) and is rotationally connected with the floor lamp frame (1) through a bearing, a plurality of air ejector pipes (702) are arranged on the anti-tilting ring (701), the distances between adjacent air ejector pipes (702) are equal, the air ejector pipes (702) are communicated with the anti-tilting ring (701), an air ejector motor (703) is arranged in one air ejector pipe (702), an air ejector turbine (704) is arranged at the output end of the air ejector motor (703), the air ejector turbine (704) is rotationally connected with the air ejector pipe (702), a load block (705) is arranged on the air ejector pipe (702) far away from the air ejector motor (703), a trigger switch (706) is arranged on the air ejector pipe (702), and the trigger switch (706) is connected with the air ejector motor (703);

the intelligent socket (5) comprises a socket shell (501), two anti-falling grooves (502) are formed in the socket shell (501), a first clamping piece (503) and a second clamping piece (504) are respectively arranged in each anti-falling groove (502), an anti-falling piece (505) is arranged below each anti-falling groove (502), each anti-falling piece (505) is rotatably connected with each anti-falling groove (502), clamping wedge blocks (506) are respectively arranged on two sides of each anti-falling piece (505), the two clamping wedge blocks (506) respectively abut against the first clamping piece (503) and the second clamping piece (504), each anti-falling groove (502) is respectively connected with an infrared ray component (14), each anti-falling groove (502) is rotatably connected with the socket shell (501), a grounding groove (507) is formed above each anti-falling groove (502), each grounding groove (507) is connected with a grounding wire, a light-transmitting cover (508) is arranged on the socket shell (501), and one side, close to the infrared ray component (14) in the socket shell (501).

2. The intelligent socket induction footlight of claim 1, wherein: be provided with a plurality of gas-barrier ball (707) in anti-falling ring (701), every gas-barrier ball (707) set up on ball ring (708), every gas-barrier ball (707) and ball ring (708) sliding connection, be provided with the spring between gas-barrier ball (707) and ball ring (708), the spring both ends are connected with gas-barrier ball (707), ball ring (708) respectively, be provided with balancing piece (709) on ball ring (708), gas-barrier ball (707) support on jet-propelled pipe (702).

3. The intelligent socket induction footlight of claim 1, wherein: the infrared component (14) comprises an infrared emitter (1401), the infrared emitter (1401) is arranged on one side of the light-transmitting cover (508), the infrared emitter (1401) is connected with the control switch (6) through a wire, a detection box (1402) is arranged on one side of the infrared emitter (1401), the detection box (1402) is fixedly connected with the socket shell (501), the detection box (1402) is connected with the circuit board (1403) through a wire, and the circuit board (1403) is connected with the control switch (6) and the anti-falling groove (502) through a wire.

4. A smart jack response footlight as claimed in claim 3, wherein: be provided with infrared photosensitive tube (1404) in detection box (1402), infrared photosensitive tube (1404) are connected with circuit board (1403) through the wire, circuit board (1403) one end and anticreep groove (502) are kept away from to infrared photosensitive tube (1404), be provided with filter plate (1405) on detection box (1402), be provided with tooth on filter plate (1405), be provided with accommodate motor (1406) on detection box (1402), accommodate motor (1406) output and filter plate (1405) tooth meshing, filter plate (1405) and detection box (1402) sliding connection, accommodate motor (1406) are connected through the wire with circuit board (1403).

5. The intelligent socket induction footlight of claim 1, wherein: the movable tray is characterized in that a plurality of movable fixing blocks (8) are arranged at the lower end of the movable tray (4), each movable fixing block (8) is respectively and rotatably connected with the movable tray (4), a hiding cavity (9) is arranged on one side, close to the movable fixing block (8), of the movable tray (4), a locking block (10) is arranged in the hiding cavity (9), the locking block (10) is slidably connected with the inner wall of the hiding cavity (9), locking beads (11) are respectively arranged at two sides of the locking block (10), the locking beads (11) are connected with the locking block (10) through springs, the locking block (10) props against the movable fixing block (8), a movable roller (12) is arranged at the lower end of the movable fixing block (8), and the movable roller (12) is rotatably connected with the movable fixing block (8).