CN113418157B - Whole-house intelligent lamp control system - Google Patents

Abstract

The utility model relates to a whole house intelligence lamp accuse system, it includes activity lighting device and is used for the remote control unit that remote control lighting device removed, activity lighting device includes the base, flexible subassembly and light, the base is used for setting up in the wardrobe top, flexible subassembly is used for setting up the one side of seting up the cabinet door in the wardrobe, the one end and the base of flexible subassembly are fixed, the one end that the base was kept away from to flexible subassembly is fixed with the light, remote control unit is used for controlling flexible subassembly along vertical direction reciprocating motion, when flexible subassembly drives one side that the light moved to the wardrobe and is provided with the cabinet door, the luminous end of light sets up towards the wardrobe is inside. The wardrobe has the advantages that the wardrobe internal space is fully illuminated, people can conveniently observe the positions of objects in the wardrobe, and accordingly people can conveniently take out the needed objects from the wardrobe.

Description

Whole-house intelligent lamp control system

Technical Field

The application relates to the technical field of smart homes, in particular to a whole-house intelligent lamp control system.

Background

The intelligent lamp control system is a system for intelligently controlling and managing light, and is generally used for intelligently controlling light in rooms, such as living rooms, kitchens, bedrooms, dining rooms, study rooms, toilets and the like, so that the intelligent lighting function of energy conservation, environmental protection, comfort and convenience is achieved.

For the illumination of the wardrobe in the cloakroom, a light-hiding lamp is usually arranged in the wardrobe to illuminate the wardrobe, so that people can take out required articles conveniently.

The light-hiding lamp in the wardrobe is usually arranged on the inner top wall of the wardrobe, and light is shielded by hung clothes below when irradiating downwards, so that the space below the clothes is not fully illuminated, light is dark, and then people are inconvenient to take out required articles from the wardrobe, and therefore the lighting effect inside the wardrobe is to be improved.

Disclosure of Invention

In order to realize the abundant illumination to wardrobe inner space, make things convenient for people to observe the position of article in the wardrobe to make things convenient for people to take out required article from the wardrobe in, this application provides a full house intelligence lamp accuse system.

The application provides a pair of whole room intelligence lamp control system. The following technical scheme is adopted:

the utility model provides a whole house intelligence lamp control system, includes activity lighting device and is used for the remote control unit that remote control lighting device removed, activity lighting device includes base, flexible subassembly and light, the base is used for setting up in the wardrobe top, the one end of flexible subassembly is fixed with the base, the one end that the base was kept away from to flexible subassembly is fixed with the light, remote control unit is used for controlling flexible subassembly along vertical direction reciprocating motion, when flexible subassembly drives the light motion to the wardrobe and is provided with one side of cabinet door, the luminous end of light sets up towards the wardrobe is inside.

Through adopting above-mentioned technical scheme, because the light is inside and flexible subassembly and light fixed connection towards the wardrobe, when needs throw light on to wardrobe inside, open the light, along vertical direction reciprocating motion through the flexible subassembly of remote control unit control, the luminous end of light is inside and then can shine the inside space of wardrobe to a great extent, and the vertical removal through the telescoping device, the illumination zone who makes the light changes, and then can realize the abundant illumination to the wardrobe inner space, light is difficult for sheltering from by the clothes that hang in the wardrobe, make things convenient for people to observe the position of article in the wardrobe, thereby make things convenient for people to take out required article from the wardrobe.

Optionally, the telescopic assembly comprises an air cylinder and a fixing block, a cylinder body of the air cylinder is fixed to the base, a piston rod of the air cylinder is fixedly connected with the fixing block, the illuminating lamp is installed on the fixing block, and the remote control device comprises an upward moving button used for controlling the upward movement of the piston rod of the air cylinder and a downward moving button used for controlling the downward movement of the piston rod of the air cylinder.

Through adopting above-mentioned technical scheme, when the region that the light is lighted to needs removes, piston rod through pressing remote control unit's the button control cylinder that moves down stretches out the body of the jar, make the piston rod of cylinder drive fixed block and light move down, realize that the light illuminates regional moving down, piston rod through pressing remote control unit's the button control cylinder that shifts up retracts the body of the jar, make the piston rod of cylinder drive fixed block and light and shift up, realize that the light illuminates regional shifting up, make lighting device's use more convenient.

Optionally, the base includes a chassis, a rotating assembly and a connecting rod, the chassis is used for being installed at the top of the wardrobe, the rotating assembly is installed on the upper surface of the chassis, one end of the connecting rod is fixed to the rotating assembly, one end of the connecting rod, far away from the chassis, extends upwards in a direction far away from the chassis, one end of the connecting rod, far away from the rotating assembly, is fixedly connected to the body of the air cylinder, the rotating assembly includes a stepping motor, a driving gear and a driven gear, the stepping motor is fixedly connected to the chassis, the driving gear rotates coaxially with an output shaft of the stepping motor, the driven gear is rotatably connected to the chassis, the driven gear is horizontally arranged, the driving gear is engaged with the driven gear, one end of the connecting rod, far away from the body of the air cylinder, is fixed to the upper surface of the driven gear, when a piston rod of the air cylinder retracts into the body to reach a limit position, the illuminating lamp is positioned above the wardrobe.

Through adopting above-mentioned technical scheme, rotate through control step motor for the driving gear drives driven gear and rotates, driven gear rotates and drives the connecting rod and rotates, and the connecting rod rotates and drives flexible subassembly and light rotation.

When reaching the extreme position in the piston rod withdrawal jar body of cylinder, the light is located the top of wardrobe, when using up the light, through moving up the piston rod retraction to jar body to extreme position of button control cylinder, the step motor that controls again rotates for the connecting rod drives the light rotatory to the wardrobe directly over, when using the light, control step motor rotates, make the connecting rod drive the light rotatory to the wardrobe be equipped with one side of cabinet door, the rethread moves down the button control light and moves down and then illuminate the wardrobe inside, the lamp of having made things convenient for accomodating when not using.

Optionally, the remote control device further comprises a screwing-out button for controlling the stepping motor to rotate forwards and a screwing-in button for controlling the stepping motor to rotate backwards, when the stepping motor rotates forwards and drives the telescopic assembly to move to the limit position through the driven gear, the illuminating lamp is located on one side, provided with the cabinet door, of the wardrobe, and when the stepping motor rotates backwards and drives the telescopic assembly to move to the limit position through the driven gear, the illuminating lamp is located right above the wardrobe.

Through adopting above-mentioned technical scheme, control step motor's just reversal through set up the screw in on remote control unit and screw out the button for movable lighting device's control integration level is higher, can realize movable lighting device's accomodating and reciprocate through remote control unit, makes movable lighting device's control comparatively convenient.

Optionally, the step motor is coupled with a false start prevention circuit, the false start prevention circuit includes an infrared sensing module, an infrared comparison module and a switch module, the infrared sensing module is used for sensing whether the illuminating lamp is located above the wardrobe and emitting an infrared sensing signal, the infrared comparison module is coupled to the infrared detection module and is provided with a reference signal so as to emit an infrared comparison signal when the infrared sensing signal is greater than the reference signal, the switch module is coupled to the infrared comparison module and is connected in series in a power supply loop of the step motor so as to emit a switch signal to control the disconnection of the power supply loop of the step motor when the infrared comparison signal is received.

By adopting the technical scheme, through the arrangement of the false start prevention circuit, when the projection of the illuminating lamp in the horizontal direction is positioned on the wardrobe, namely the illuminating lamp descends and faces to one side of the wardrobe provided with the wardrobe door, the infrared sensing signal sent by the infrared sensing module is increased, when the infrared sensing signal sent by the infrared sensing module is greater than a reference signal, the infrared comparing module sends an infrared comparing signal to the switch module, the switch module sends a switch signal to control the step motor to be turned off, and at the moment, the step motor cannot be controlled to be turned on no matter a screwing-in button or a screwing-out button is pressed, and the illuminating lamp cannot rotate; when the illuminating lamp is controlled to move upwards above the wardrobe, the infrared sensing signal is smaller than the reference signal, the switch module controls a power supply loop of the stepping motor to be closed, and the rotating of the illuminating lamp can be completed by pressing the screwing-in button or screwing-out button; and then be difficult for the mistake in the light use and start step motor for the rotatory wardrobe that strikes of light, lighting device's use is comparatively safe.

Optionally, the infrared induction module includes infrared transmitting tube D1 and infrared receiving tube D2, infrared transmitting tube D1 installs the outer wall at the connecting rod, infrared receiving tube D2 installs the surface at the light, and when the piston rod of cylinder contracts to the cylinder body inside and reaches extreme position, infrared transmitting tube D1's transmitting end is just to infrared receiving tube D2's receiving end, works as the projection of light along the horizontal direction is located the wardrobe surface, infrared transmitting tube D1's transmitting end misplaces with infrared receiving tube D2's receiving end.

By adopting the technical scheme, when the piston rod of the air cylinder contracts to the inside of the cylinder body and reaches the limit position, because the transmitting end of the infrared transmitting tube D1 is over against the receiving end of the infrared receiving tube D2, the infrared receiving tube D2 receives the infrared rays sent by the infrared transmitting tube D1, the infrared sensing signal sent by the infrared sensing module is smaller than the reference signal, when the illuminating lamp moves downwards to the side over against the wardrobe, the infrared transmitting tube D1 is staggered with the infrared receiving tube D2, the infrared receiving tube D2 cannot receive the infrared rays sent by the infrared transmitting tube D1, the infrared receiving tube D2 is in a reverse cut-off state, the infrared sensing signal sent by the infrared sensing module is larger than the reference signal, and the detection of the infrared sensing signal is realized.

Optionally, the movable lighting device further comprises a sliding block fixed to the top of the wardrobe, the sliding block is arranged along the horizontal extending direction of the wardrobe, a sliding groove is formed in the top surface of the sliding block in a concave mode, the sliding groove extends along the length direction of the sliding block, a sliding driving assembly is fixed to the base, and the sliding driving assembly is used for driving the base to move back and forth along the extending direction of the sliding groove.

By adopting the technical scheme, the sliding driving assembly drives the base to slide along the length direction of the sliding groove, so that the lighting lamp can slide along the length direction of the wardrobe, the installation quantity of the lighting lamps is saved, and each area of the length direction of the wardrobe can be conveniently illuminated.

Optionally, two limit blocks are protruded from the bottom of the sliding groove, the limit blocks are arranged along the extending direction of the sliding groove, a limiting notch is formed between the inner side wall of the sliding groove and a limiting block close to the sliding groove, the sliding driving assembly comprises a plurality of idler wheels and a driving motor, the idler wheels are respectively positioned at the two limiting notches and can slide in a reciprocating manner along the extending direction of the sliding groove, a transmission rod is fixed between the two symmetrical idler wheels positioned in different limiting notches, and the transmission rods are all rotatably connected with a plurality of supporting rods, one end of the support rod, which is far away from the rotating rod, is fixedly connected with the chassis, any one of the driving rods coaxially rotates to form a first driving gear, the driving motor is fixed at the bottom of the chassis, an output shaft of the driving motor coaxially rotates to form a second driving gear, and the second driving gear is meshed with the first driving gear.

Through adopting above-mentioned technical scheme, the setting of spacing breach for the gyro wheel receives limiting displacement, and then the gyro wheel is difficult for appearing the skew of horizontal direction when sliding along the extending direction of spout, makes the slip of gyro wheel more stable, and driving motor drive rotates and makes first drive gear drive second drive gear rotate, and then makes the transfer line rotate and drive the gyro wheel and slide along the extending direction of spout, realizes the function of sliding drive subassembly drive base along spout extending direction reciprocating motion.

Optionally, the spout all caves in along extending direction's both sides inner wall and has a spacing groove, the spacing groove sets up along the extending direction of spout, both ends of transfer line all are located the spacing inslot after passing the gyro wheel.

Through adopting above-mentioned technical scheme, the setting of spacing groove for slide driving assembly and slider are along vertical direction joint, and the slider is fixed with the top of wardrobe moreover, and then makes base and wardrobe realize the joint of vertical direction, makes the installation of base, flexible subassembly and light safer.

Optionally, the remote control device further includes a forward button and a backward button for controlling the sliding driving assembly to move back and forth along the extending direction of the sliding chute, when the forward button is pressed, the driving motor rotates in a forward direction, and when the backward button is pressed, the driving motor rotates in a reverse direction.

Through adopting above-mentioned technical scheme, through the button integration with remote control driving motor on remote control unit for activity lighting device's control is comparatively convenient.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the lighting area of the lighting lamp is changed, so that the internal space of the wardrobe can be fully illuminated, the light is not easily shielded by clothes hung in the wardrobe, and people can conveniently observe the positions of objects in the wardrobe, so that people can conveniently take out the required objects from the wardrobe;

2. the piston rod of the air cylinder is controlled to retract into the cylinder body by pressing the upward moving button of the remote control device, so that the piston rod of the air cylinder drives the fixed block and the illuminating lamp to move upward, the upward movement of an illuminating area of the illuminating lamp is realized, and the illuminating device is more convenient to use;

3. the setting of spacing breach for the gyro wheel receives limiting displacement, and then the gyro wheel is difficult for appearing the skew of horizontal direction when the extending direction along the spout slides, makes the slip of gyro wheel more stable.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is an enlarged view of portion B of FIG. 1;

fig. 4 is a circuit diagram of the false start prevention circuit in the embodiment of the present application.

Description of the reference numerals: 1. a wardrobe; 2. a telescoping assembly; 21. a cylinder; 22. a fixed block; 3. a base; 31. a chassis; 32. a rotating assembly; 321. a stepping motor; 322. a driving gear; 323. a driven gear; 33. a connecting rod; 4. a slide drive assembly; 41. a drive motor; 42. a roller; 43. a transmission rod; 44. a support bar; 45. a first drive gear; 46. a second drive gear; 5. a slider; 51. a chute; 52. a limiting block; 53. a limiting notch; 54. a limiting groove; 6. a remote controller; 7. an infrared sensing module; 8. an infrared comparison module; 9. a switch module; 10. an illuminating lamp.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clearly understood, the present application is further described in detail below with reference to fig. 1-4 and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The embodiment of the application discloses whole house intelligence lamp control system. Referring to fig. 1, the whole-house intelligent lamp control system includes a movable lighting device fixed to a wardrobe 1 and a remote controller device for remotely controlling the movement of the lighting device, in this embodiment, the remote controller device is a remote controller 6.

The movable lighting device comprises a sliding block 5, a base 3, a telescopic assembly 2 and an illuminating lamp 10, wherein the sliding block 5 is fixed on the top surface of the wardrobe 1, the sliding block 5 is arranged along the horizontal extending direction of the wardrobe 1, a sliding groove 51 is recessed in the upper surface of the sliding block 5, the sliding groove 51 extends along the length direction of the sliding block 5, and two ends of the sliding groove 51 along the length direction are sealed; the base 3 is provided with a sliding driving component 4, and the sliding driving component 4 is used for driving the base 3 to reciprocate along the extending direction of the sliding chute 51; the base 3 is fixedly connected with the telescopic component 2; one end of the telescopic component 2, which is far away from the base 3, is fixedly connected with an illuminating lamp 10, and the light-emitting end of the illuminating lamp 10 faces the interior of the wardrobe 1; the remote controller 6 is used for controlling the sliding driving component 4 to drive the base 3 to slide in the sliding groove 51 in a reciprocating manner and controlling the telescopic component 2 to move in a reciprocating manner along the vertical direction.

The telescopic component 2 comprises an air cylinder 21 and a fixing block 22, the body of the air cylinder 21 is fixed with the base 3, the piston rod of the air cylinder 21 is fixedly connected with the fixing block 22, the illuminating lamp 10 penetrates through the fixing block 22 and the illuminating lamp 10 is fixedly connected with the fixing block 22, and when the piston rod of the air cylinder 21 retracts into the body to reach the limit position, the illuminating lamp 10 is positioned above the wardrobe 1; the remote controller 6 includes an up-shift button for controlling the upward movement of the piston rod of the air cylinder 21 and a down-shift button for controlling the downward movement of the piston rod of the air cylinder 21.

Referring to fig. 1, the base 3 includes a chassis 31, a rotating assembly 32 and a connecting rod 33, the chassis 31 is fixedly connected to the sliding driving assembly 4, the rotating assembly 32 is installed on the upper surface of the chassis 31, one end of the connecting rod 33 is fixed to the rotating assembly 32, one end of the connecting rod 33 far away from the rotating assembly 32 extends upward and then extends in a direction far away from the rotating assembly 32, and one end of the connecting rod 33 far away from the rotating assembly 32 is fixedly connected to the cylinder body of the air cylinder 21.

Referring to fig. 1 and 2, the rotating assembly 32 includes a stepping motor 321, a driving gear 322, and a driven gear 323, the stepping motor 321 is fixed to the upper surface of the chassis 31, the driving gear 322 rotates coaxially with an output shaft of the stepping motor 321, the driven gear 323 is rotatably connected to the chassis 31, the driven gear 323 is horizontally disposed, the driving gear 322 is engaged with the driven gear 323, and one end of the connecting rod 33 away from the cylinder body of the air cylinder 21 is fixed to the upper surface of the driven gear 323.

The remote controller 6 further comprises a screwing-out button for controlling the stepping motor 321 to rotate forward and a screwing-in button for controlling the stepping motor 321 to rotate backward, when the stepping motor 321 rotates forward and drives the telescopic assembly 2 to move to the limit position through the driven gear 323, the illuminating lamp 10 is positioned on one side of the wardrobe door of the wardrobe 1, and when the stepping motor 321 rotates backward and drives the telescopic assembly 2 to move to the limit position through the driven gear 323, the illuminating lamp 10 is positioned right above the wardrobe 1.

Referring to fig. 1 and 3, the bottom of the sliding groove 51 protrudes with two limiting blocks 52, the limiting blocks 52 are arranged along the extending direction of the sliding groove 51, a limiting notch 53 is formed between the inner side wall of the sliding groove 51 and the limiting blocks 52 close to the sliding groove 51, the sliding driving assembly 4 comprises four rollers 42 and a driving motor 41, the four rollers 42 are respectively arranged at the two limiting notches 53 in a pairwise symmetry manner, the rollers 42 can slide in a reciprocating manner along the extending direction of the sliding groove 51, the transmission rod 43 is arranged and fixed between the two symmetrical rollers 42 in different limiting notches 53, the sliding groove 51 is provided with limiting grooves 54 in a concave manner along the inner walls of two sides of the extending direction, the limiting grooves 54 are arranged along the extending direction of the sliding groove 51, and two ends of the transmission rod 43 are arranged in the limiting grooves 54 after passing through the rollers 42.

Referring to fig. 3, two support rods 44 are rotatably connected to each of the two transmission rods 43, one end of each support rod 44, which is away from the corresponding rotation rod, is fixedly connected to the bottom of the chassis 31, a first driving gear 45 is coaxially rotated on any one of the transmission rods 43, the driving motor 41 is fixedly connected to the bottom of the chassis 31, a second driving gear 46 is coaxially rotated on an output shaft of the driving motor 41, and the second driving gear 46 is engaged with the first driving gear 45.

The remote controller 6 further includes a forward button and a backward button for controlling the slide driving assembly 4 to reciprocate along the extending direction of the slide groove 51, and when the forward button is pressed, the driving motor 41 rotates in a forward direction, and when the backward button is pressed, the driving motor 41 rotates in a reverse direction.

Referring to fig. 4, a false start prevention circuit is coupled to the stepping motor 321, and the false start prevention circuit includes an infrared sensing module 7, an infrared comparison module 8, and a switch module 9.

The infrared induction module 7 is used for inducing whether the illuminating lamp 10 is positioned above the wardrobe 1 and sending an infrared induction signal; the infrared induction module 7 comprises an infrared transmitting tube D1 and an infrared receiving tube D2, the infrared transmitting tube D1 is fixed on the outer wall of the connecting rod 33, the infrared receiving tube D2 is fixed on the surface of the illuminating lamp 10, when a piston rod of the air cylinder 21 contracts to the inside of the cylinder body to reach the limit position, the transmitting end of the infrared transmitting tube D1 is over against the receiving end of the infrared receiving tube D2, when the projection of the illuminating lamp 10 along the horizontal direction is located on the surface of the wardrobe 1, the transmitting end of the infrared transmitting tube D1 is staggered with the receiving end of the infrared receiving tube D2.

The anode of the infrared emission tube D1 is coupled with a first resistor R1, one end of the first resistor R1, which is far away from the anode of the infrared emission tube D1, is coupled to the power supply voltage VCC, the cathode of the infrared emission tube D1 is grounded, the cathode of the infrared reception tube D2 is coupled with a second resistor R2, one end of the second resistor R2, which is far away from the cathode of the infrared reception tube D2, is coupled to the power supply voltage VCC, the anode of the infrared reception tube D2 is grounded, two ends of the infrared emission tube D1 are connected in parallel with a first capacitor C1, two ends of the infrared reception tube D2 are connected in parallel with a second capacitor C2, and a connection node between the cathode of the infrared reception tube VD2 and the second capacitor C2 is coupled to the infrared comparison module 8.

The infrared comparison module 8 is coupled to the infrared detection module and is provided with a reference signal so as to send out an infrared comparison signal when the infrared induction signal is greater than the reference signal; the infrared comparison module 8 comprises a comparator N1, a first signal input terminal of the comparator N1 is an inverting input terminal coupled to the cathode of the infrared receiving tube D2, a second signal input terminal of the comparator N1 is a positive input terminal coupled to a sliding resistor RP, the sliding resistor RP comprises a sliding terminal and two fixed terminals, the second signal input terminal of the comparator N1 is coupled to the sliding terminal, any one of the fixed terminals is coupled to the power voltage VCC, and the other fixed terminal is grounded; the signal output terminal of the comparator N1 is coupled to the third resistor R3, and the third resistor R3 is far away from the switch module 9 of the comparator N1.

The switch module 9 is coupled to the infrared comparison module 8 and is connected in series in the power supply circuit of the stepping motor 321 to send a switch signal to control the power supply circuit of the stepping motor 321 to be disconnected when receiving the infrared comparison signal; the switch module 9 includes a PNP-type transistor Q1 and a relay KM1, a base of the transistor Q1 is coupled to a signal output terminal of the comparator N1, an emitter of the transistor Q1 is coupled to the power supply voltage VCC, a collector of the transistor Q1 is connected in series with the relay KM1 and then grounded, the relay KM1 includes a normally closed contact switch KM1-1, and the normally closed contact switch KM1-1 is connected in series in a power supply loop of the stepping motor 321.

The implementation principle of a whole-house intelligent lamp control system in the embodiment of the application is as follows: when the movable lighting device is used for lighting the inside of the wardrobe 1, the remote controller 6 is started first, the stepping motor 321 drives the driven gear 323 to rotate by pressing the screwing-out button, the air cylinder 21 and the lighting lamp 10 are further rotated to one side of the wardrobe 1 with the cabinet door, and the lighting lamp 10 is still positioned above the wardrobe 1 at the moment.

The driving motor 41 is controlled to rotate by pressing the forward button or the backward button, so that the roller 42 drives the illuminating lamp 10 to move along the extending direction of the sliding slot 51, and the illuminating lamp 10 is moved to the upper part of the area to be illuminated inside the wardrobe 1.

Finally, the downward moving button is pressed to enable a piston rod of the air cylinder 21 to drive the illuminating lamp 10 to move downwards, the downward moving button is moved to an area to be illuminated, pressing is stopped, the space, facing the interior of the wardrobe 1, of the illuminating lamp 10 can be observed at the moment, required objects can be found conveniently, and the forward moving button or the backward moving button can be pressed to enable the illuminating lamp 10 to move along the horizontal extending direction of the wardrobe 1 at the horizontal height.

Meanwhile, the projection of the illuminating lamp 10 in the horizontal direction is positioned on the wardrobe 1, namely, the illuminating lamp 10 descends and faces to one side of the wardrobe 1 with a cabinet door, an infrared induction signal sent by the infrared induction module 7 is greater than a reference signal, an infrared comparison signal is sent to the triode Q1 by the signal output end of the comparator N1, the triode Q1 is conducted to disconnect the normally closed contact switch KM1-1, the stepping motor 321 is closed, and at the moment, the stepping motor 321 cannot be controlled to start no matter a screwing-in button or a screwing-out button is pressed, the illuminating lamp 10 cannot rotate; when the illuminating lamp 10 is controlled to move upwards above the wardrobe 1 and the infrared receiving tube D2 is over against the infrared transmitting tube D1, the infrared sensing signal is smaller than the reference signal, the normally closed contact switch KM1-1 is closed again, and the rotating of the illuminating lamp 10 can be completed by pressing the screwing-in button or screwing-out button; further, the stepping motor 321 is not easy to be started by mistake in the use process of the illuminating lamp 10.

After the articles in the wardrobe 1 are taken out, the piston rod of the air cylinder 21 is retracted into the wardrobe body to the limit position by pressing the upward moving button, the air cylinder 21 and the illuminating lamp 10 are rotated to the upper part of the sliding groove 51 by pressing the screwing button, and the remote controller 6 is closed, so that the movable illuminating device is used.

The cooperation of activity lighting device and remote controller 6 for people need not to look over each corner of wardrobe 1, can select the wardrobe 1 inner zone that will illuminate through operating the activity lighting device in the place of a distance apart from wardrobe 1, makes things convenient for people to observe the article that needs take out after, directly goes to the article position and can take out the article.

The foregoing is a preferred embodiment of the present application and is not intended to limit the scope of the present application in any way, and any features disclosed in this specification (including the abstract and drawings) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Claims (7)

1. The utility model provides a full house intelligence lamp control system which characterized in that: the movable lighting device comprises a base (3), a telescopic component (2) and a lighting lamp (10), wherein the base (3) is arranged above a wardrobe (1), the telescopic component (2) is arranged on one side of the wardrobe (1) with a cabinet door, one end of the telescopic component (2) is fixed with the base (3), one end, far away from the base (3), of the telescopic component (2) is fixed with the lighting lamp (10), the telescopic component (2) comprises an air cylinder (21) and a fixing block (22), the base (3) comprises a chassis (31), a rotating component (32) and a connecting rod (33), a cylinder body of the air cylinder (21) is fixed with the base (3), the chassis (31) is used for being installed at the top of the wardrobe (1), and the rotating component (32) is installed on the upper surface of the chassis (31), one end of the connecting rod (33) is fixed with the rotating assembly (32), one end, far away from the chassis (31), of the connecting rod (33) extends upwards in the direction far away from the chassis (31), one end, far away from the rotating assembly (32), of the connecting rod (33) is fixedly connected with the cylinder body of the cylinder (21), the piston rod of the cylinder (21) is fixedly connected with the fixed block (22), the illuminating lamp (10) is installed on the fixed block (22), the rotating assembly (32) comprises a stepping motor (321), a driving gear (322) and a driven gear (323), the stepping motor (321) is fixedly connected with the chassis (31), the driving gear (322) rotates coaxially with the output shaft of the stepping motor (321), the driven gear (323) is rotatably connected with the chassis (31), the driven gear (323) is horizontally arranged, and the driving gear (322) is meshed with the driven gear (323), one end, far away from the cylinder body of the air cylinder (21), of the connecting rod (33) is fixed to the upper surface of the driven gear (323), when a piston rod of the air cylinder (21) retracts into the cylinder body to reach a limit position, the illuminating lamp (10) is located above the wardrobe (1), the remote control device is used for controlling the telescopic component (2) to reciprocate along the vertical direction, and when the telescopic component (2) drives the illuminating lamp (10) to move to one side, provided with a cabinet door, of the wardrobe (1), the light emitting end of the illuminating lamp (10) faces the interior of the wardrobe (1); step motor (321) is coupled with prevents mistake starting circuit, prevent mistake starting circuit includes infrared induction module (7), infrared comparison module (8) and switch module (9), infrared induction module (7) include infrared transmitting tube D1 and infrared receiving tube D2, infrared transmitting tube D1 installs the outer wall at connecting rod (33), infrared receiving tube D2 installs the surface at light (10), when the piston rod shrink of cylinder (21) reaches extreme position to the cylinder body inside, infrared transmitting tube D1's transmitting terminal is just to infrared receiving tube D2's receiving terminal, when light (10) are located wardrobe (1) surface along the projection of horizontal direction, infrared transmitting tube D1's transmitting terminal and infrared receiving tube D2's receiving terminal dislocation, infrared induction module (7) are used for responding to whether light (10) are located the top of wardrobe (1) and send infrared induction signal, the infrared comparison module (8) is coupled with the infrared detection module and is provided with a reference signal so as to send out an infrared comparison signal when the infrared induction signal is greater than the reference signal, and the switch module (9) is coupled with the infrared comparison module (8) and is connected in series in a power supply loop of the stepping motor (321) so as to send out a switch signal to control the power supply loop of the stepping motor (321) to be disconnected when receiving the infrared comparison signal.

2. The whole-house intelligent lamp control system according to claim 1, characterized in that: the remote control device comprises an upward moving button for controlling the upward movement of the piston rod of the air cylinder (21) and a downward moving button for controlling the downward movement of the piston rod of the air cylinder (21).

3. The whole-house intelligent lamp control system according to claim 1, characterized in that: the remote control device further comprises a screwing-out button used for controlling the forward rotation of the stepping motor (321) and a screwing-in button used for controlling the reverse rotation of the stepping motor (321), when the stepping motor (321) rotates forward and drives the telescopic assembly (2) to move to the limit position through the driven gear (323), the illuminating lamp (10) is located on one side of the wardrobe door (1), and when the stepping motor (321) rotates reversely and drives the telescopic assembly (2) to move to the limit position through the driven gear (323), the illuminating lamp (10) is located right above the wardrobe (1).

4. The whole-house intelligent lamp control system according to claim 1, characterized in that: the movable lighting device further comprises a sliding block (5) fixed to the top of the wardrobe (1), the sliding block (5) is arranged in the horizontal extending direction of the wardrobe (1), a sliding groove (51) is formed in the top surface of the sliding block (5) in a concave mode, the sliding groove (51) extends in the length direction of the sliding block (5), a sliding driving assembly (4) is fixed to the base (3), and the sliding driving assembly (4) is used for driving the base (3) to move in a reciprocating mode in the extending direction of the sliding groove (51).

5. The whole-house intelligent lamp control system according to claim 4, characterized in that: the bottom arch of spout (51) has two stopper (52), stopper (52) are along the extending direction setting of spout (51), form spacing breach (53) between the inside wall of spout (51) and stopper (52) that is close to with it, slip drive assembly (4) include a plurality of gyro wheels (42) and driving motor (41), and is a plurality of gyro wheel (42) are located two spacing breach (53) respectively and gyro wheel (42) can follow the extending direction reciprocating slide of spout (51), are located and are fixed with transfer line (43) between two symmetrical gyro wheels (42) in different spacing breach (53), and are a plurality of transfer line (43) all rotate and are connected with a plurality of bracing pieces (44), the one end and chassis (31) fixed connection of dwang are kept away from in bracing piece (44), arbitrary transfer line (43) coaxial rotation has first drive gear (45), the driving motor (41) is fixed at the bottom of the chassis (31), an output shaft of the driving motor (41) coaxially rotates to form a second driving gear (46), and the second driving gear (46) is meshed with the first driving gear (45).

6. The whole-house intelligent lamp control system according to claim 5, characterized in that: the inner walls of two sides of the sliding groove (51) in the extending direction are both sunken to form limiting grooves (54), the limiting grooves (54) are arranged in the extending direction of the sliding groove (51), and two ends of the transmission rod (43) penetrate through the rollers (42) and then are both located in the limiting grooves (54).

7. The whole-house intelligent lamp control system according to claim 5, characterized in that: the remote control device further comprises a forward button and a backward button which are used for controlling the sliding driving component (4) to move back and forth along the extending direction of the sliding groove (51), when the forward button is pressed, the driving motor (41) rotates forwards, and when the backward button is pressed, the driving motor (41) rotates reversely.

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