CN114304910B - Intelligence wardrobe based on intelligence house has disinfection function - Google Patents

Abstract

The invention relates to the technical field of intelligent home furnishing, in particular to an intelligent wardrobe with a disinfection function based on the intelligent home furnishing. The technical problem is as follows: too much clothes can not be disinfected and sterilized, and the ultraviolet lamp panel irradiates different ultraviolet intensities on the outer surface of each piece of clothes. The technical implementation scheme is as follows: the utility model provides an intelligence wardrobe based on intelligence house has disinfection function, includes wardrobe, control terminal, power unit, rise mechanism and disinfection mechanism, and the top rigid coupling of wardrobe has control terminal, is equipped with two sets of power units in the wardrobe, all is equipped with the rise mechanism on every power unit of group, and the rear of every power unit of group all is equipped with disinfection mechanism. The power mechanism and the lifting mechanism realize the motion separation of the clothes, are convenient for the clothes to be disinfected and sterilized in sequence, the disinfection mechanism enables the outer surface of the clothes to be irradiated by ultraviolet rays with constant intensity, the comprehensive disinfection and sterilization of the clothes are realized, and the smoothing mechanism realizes the continuous striking and smoothing of the falling clothes.

Description

Intelligence wardrobe based on intelligence house has disinfection function

Technical Field

The invention relates to the technical field of intelligent home furnishing, in particular to an intelligent wardrobe with a disinfection function based on the intelligent home furnishing.

Background

The wardrobe is the cabinet utensil of accomodating and depositing the clothing, and the wardrobe kind divide into intelligent disinfection wardrobe, no power logical glass cabinet, stainless steel wardrobe, dampproofing multifunctional chest, folding wardrobe, simple and easy wardrobe etc. and common wardrobe switch door divide into vertical hinged door, in the cabinet with cabinet push-and-pull door etc. and the used panel of wardrobe generally has stainless steel, metal, timber etc. is one of the furniture that the family is commonly used.

Clothing among the current intelligent disinfection wardrobe receives the space restriction, increases along with the quantity that hangs the clothing, and the clothing will pile up together, makes the ultraviolet lamp plate in the disinfection wardrobe can't permeate to shine disinfection and sterilization to the clothing surface that covers together, leads to this equipment can't disinfect and sterilize to the clothing that covers, and the ultraviolet lamp plate in the current intelligent disinfection wardrobe shines the intensity difference to the surface of every clothing simultaneously, shines the area inhomogeneous to the surface of every clothing, leads to the surface disinfection and sterilization of clothing not thorough.

Therefore, the intelligent wardrobe with the disinfection function based on the intelligent home is provided.

Disclosure of Invention

In order to overcome the too much clothing can't disinfect to the clothing that is covered, the ultraviolet lamp plate shines the shortcoming that the ultraviolet intensity is different on every clothing surface, the technical problem that solves is: the intelligent wardrobe has the advantages that single clothes are disinfected and sterilized in sequence, the outer surfaces of the single clothes are uniformly irradiated with constant ultraviolet intensity, and the intelligent wardrobe has a disinfecting function based on an intelligent home.

The technical scheme of the invention is as follows: an intelligent wardrobe with a disinfection function based on an intelligent home comprises a wardrobe, wardrobe doors, a control terminal, first pressure sensors, power mechanisms, a lifting mechanism, supporting mechanisms, a disinfection mechanism and a fixing mechanism, wherein two cavities are arranged on the left and right sides in the wardrobe, two wardrobe doors are rotatably arranged on the front portion of the wardrobe, the two wardrobe doors are arranged oppositely, the control terminal is fixedly connected to the top of the wardrobe and is connected with an Internet of things terminal through electric signals, the two first pressure sensors are fixedly connected to the front side of the upper portion of the wardrobe and are electrically connected with the control terminal, the power mechanisms are respectively arranged in the two cavities of the wardrobe, each power mechanism is electrically connected with the control terminal, the lifting mechanism and the two supporting mechanisms are arranged on each power mechanism, each lifting mechanism is electrically connected with the control terminal, and the two supporting mechanisms in the same wardrobe cavity are symmetrically arranged, the rear of every group power unit all is equipped with disinfection mechanism, and every group disinfection mechanism all is connected with control terminal electricity, and two sets of disinfection mechanism symmetry set up, are equipped with a plurality of fixed establishment between the power unit.

As a preferred technical scheme of the invention, the power mechanism comprises a sliding plate, electric push rods, supporting rods, a first fixing frame, a second fixing frame, a first support, a servo motor, a first transmission shaft, a second transmission shaft, a first belt wheel, a first belt, a second belt wheel, a third fixing frame, a first rotating shaft, a second rotating shaft, a third belt wheel and a second belt, wherein the sliding plate is arranged at the inner bottom of the wardrobe in a sliding manner, two electric push rods are fixedly connected to the inner surface of the rear part of the wardrobe, the front end of each electric push rod is fixedly connected with the front part of the sliding plate, four supporting rods are uniformly and fixedly connected to the sliding plate, the upper ends of the front and rear adjacent supporting rods are fixedly connected with the first fixing frame, each first fixing frame is fixedly connected with the second fixing frame, the two second fixing frames are oppositely arranged, the first fixing frame and the second fixing frame at the same side form a sliding chute, the upper end of the second fixing frame at the right part is fixedly connected with the first support, a servo motor is embedded in the front part of the first bracket, a first transmission shaft is rotatably arranged between the upper parts of the two first fixing frames, the right end of the first transmission shaft is fixedly connected with the output shaft end of the servo motor, a second transmission shaft is rotatably arranged between the upper parts of the two first fixing frames and is positioned behind the first transmission shaft, two first belt wheels are respectively and fixedly connected onto the first transmission shaft and the second transmission shaft, the front and back adjacent first belt wheels are connected through a first belt, a plurality of convex blocks are arranged on the first belt, two parts of the first transmission shaft are respectively and fixedly connected with a second belt wheel, third fixing frames are respectively and fixedly connected onto the inner sides of the lower parts of the two first fixing frames, a first rotating shaft and a second rotating shaft are rotatably arranged between the adjacent third fixing frames and the first fixing frames, the two first rotating shafts are respectively positioned behind the two second rotating shafts, and a first belt wheel is fixedly connected onto each of the first rotating shaft and the second rotating shaft, the front and back adjacent first belt wheels are connected through a first belt, the four first belts are located on the inner sides of the two first fixing frames, the outer ends of the two second rotating shafts are fixedly connected with third belt wheels, and the adjacent third belt wheels and the second belt wheels are connected through second belts and used for carrying out upper and lower layered suspension on clothes and transverse movement of the clothes.

As a preferred technical scheme of the invention, the upper part and the lower part of the two second fixed frames are both provided with grooves, and the lower surface of each groove of the second fixed frame is provided with a plurality of balls for the movement of the fixing mechanism.

As a preferred technical scheme of the invention, the ascending mechanism comprises second supports, a driving motor, third rotating shafts, fourth belt wheels, fourth rotating shafts, fifth belt wheels, third belts, sixth belt wheels, third transmission shafts, seventh belt wheels, fourth belts, eighth belt wheels, fifth rotating shafts, ninth belt wheels, fifth belts and separating components, wherein the upper part of each second fixed frame is fixedly connected with the second supports, the two second supports are symmetrically arranged, each second support is embedded with the driving motor, the upper part of each first fixed frame is rotatably provided with the third rotating shafts, the two third rotating shafts are oppositely arranged, the outer ends of the two third rotating shafts are respectively fixedly connected with the output shaft ends of the adjacent driving motors, the fourth belt wheels are fixedly connected on each third rotating shaft, the lower part of each second support is rotatably provided with the fourth rotating shafts, the two fourth rotating shafts are oppositely arranged, the outer ends of the two fourth rotating shafts are fixedly connected with the fifth belt wheels, the fourth belt wheel and the fifth belt wheel at the same side are connected through a third belt, each third belt is provided with a separating component, the two separating components are symmetrically arranged, the left end of a third rotating shaft at the left part is fixedly connected with a sixth belt wheel, a third transmission shaft is rotatably arranged between the upper parts of the two first fixing frames and is positioned obliquely below the first transmission shaft, the left end of the third transmission shaft is fixedly connected with a seventh belt wheel, the seventh belt wheel is connected with the sixth belt wheel through the fourth belt, the third transmission shaft is fixedly connected with two eighth belt wheels, the two eighth belt wheels are respectively positioned at the outer sides of the two first fixing frames, the lower part of each first fixing frame is rotatably provided with a fifth rotating shaft, the two fifth rotating shafts are oppositely arranged, the two fifth rotating shafts are fixedly connected with a ninth belt wheel, the ninth belt wheel and the eighth belt wheel at the same side are connected through the fifth belt, and each fifth belt is provided with two convex blocks, the clothes hanging device is used for transferring the clothes hung in an upper layer and a lower layer up and down, and the sterilizing mechanism is convenient to sterilize the clothes in sequence.

As a preferred technical scheme of the invention, the separating component comprises second pressure sensors, first fixing plates, L-shaped brackets, first springs, induction rods and wedge-shaped fixing blocks, wherein the outer side walls of the upper parts of the two first fixing frames are fixedly connected with the second pressure sensors, the two second pressure sensors are electrically connected with a control terminal, the second pressure sensors are positioned behind the second fixing frames, the third belt is fixedly connected with the two first fixing plates, each first fixing plate is provided with a T-shaped sliding chute, each T-shaped sliding chute is internally provided with the L-shaped bracket in a sliding manner, the first springs are fixedly connected between the adjacent L-shaped brackets and the first fixing plates, one end of each L-shaped bracket is fixedly connected with the induction rods, the right parts of the two induction rods are arranged in a wedge-shaped block manner, the rear upper parts of the two second fixing frames are fixedly connected with the wedge-shaped fixing blocks, the wedge-shaped fixing blocks on the same side are matched with the wedge-shaped blocks of the two induction rods, for separation of the securing mechanism.

As a preferred technical scheme of the invention, the supporting mechanism comprises an induction plate, a first fixed rod, a first rotating rod, a sixth rotating shaft, a second rotating rod, a torsional spring, a third rotating rod, a first fixed block, a first n-type sliding rod and a first tension spring, wherein the first fixed frame at the left part is provided with two cavities, the right side wall of the first fixed frame at the left part is provided with an arc-shaped groove, the arc-shaped groove on the first fixed frame is communicated with one cavity, the induction plate is arranged in one cavity of the first fixed frame in a sliding way, the upper end of the induction plate is fixedly connected with the first fixed rod, the first fixed rod is positioned at the right side of the first fixed frame at the left part, the lower part of the first fixed rod is rotatably provided with the first rotating rod, the upper part in the first fixed frame at the left part is rotatably provided with the sixth rotating shaft, the sixth rotating shaft is positioned below the first fixed rod, the right end of the sixth rotating shaft is fixedly connected with the second rotating rod, the lower part of the second rotating rod is provided with a convex column, the projection of second dwang is connected with the lower part of first dwang rotates, the rigid coupling has the torsional spring between the first fixed frame of second dwang and left part, the torsional spring cover is in the sixth pivot, the middle part rigid coupling of sixth pivot has the third dwang, the third dwang is located another cavity internal rotation of first fixed frame, the upper portion of third dwang is the projection setting, the projection of third dwang is located the arc wall of first fixed frame, the projection of third dwang is connected with the upper portion rotation of second dwang, the first fixed frame upper portion right side wall rigid coupling of left part has first fixed block, it is provided with first n type slide bar to slide in the first fixed block, the lower part rear end of first n type slide bar is the inclined plane setting, the upper portion and the first dead lever cooperation work of first n type slide bar, the rigid coupling has first extension spring between first fixed block and the first n type slide bar, be used for fixing the clothing that rises to the upper strata.

As a preferred technical scheme of the invention, the disinfection mechanism comprises a first ultraviolet lamp panel, a gear-lacking wheel, a seventh rotating shaft, a first straight gear, a second fixed block, a first sliding rod, a second n-type sliding rod, a third fixed block, an eighth rotating shaft, a second ultraviolet lamp panel and a second straight gear, the first ultraviolet lamp panel is fixedly connected to the rear wall in the left part of the wardrobe, the gear-lacking wheel is fixedly connected to the middle part of the door in the left part, a groove is formed in the left wall of the wardrobe, the seventh rotating shaft is fixedly connected to the groove of the wardrobe, the first straight gear is rotatably arranged on the seventh rotating shaft, the first straight gear is meshed with teeth of the gear-lacking wheel, the second fixed block is fixedly connected to the inner side wall in the left part of the wardrobe, the first sliding rod is slidably arranged in the second fixed block, the front rack of the first sliding rod is arranged, the rack of the first sliding rod is meshed with the first straight gear, the rear part of the first sliding rod is fixedly connected with a second n-type sliding rod, and the second n-type sliding rod penetrates through the rear wall of the wardrobe, the front portion of second n type slide bar is the rack setting, even rigid coupling has four third fixed blocks in the left part cavity of wardrobe, it is provided with the eighth pivot to rotate between two adjacent third fixed blocks from top to bottom, the middle part of every eighth pivot all the rigid coupling has second ultraviolet lamp plate, two second ultraviolet lamp plate symmetries set up, the upper portion of every eighth pivot all the rigid coupling has the second straight-tooth gear, two second straight-tooth gears are located the top of two second ultraviolet lamp plates, two second straight-tooth gears respectively with adjacent second n type slide bar rack toothing, an ultraviolet disinfection for carry out constant strength to the piece clothing.

As a preferred technical scheme of the invention, the fixing mechanism comprises a second fixing rod, a second sliding rod, a second fixing plate, a second tension spring, a fourth fixing block, a third sliding rod, a second spring, a fifth fixing block, a sliding baffle plate, a third tension spring, a fixing rack, a ninth rotating shaft, a third straight gear, a first rotating plate, a second rotating plate and a third fixing rod, wherein a plurality of second fixing rods are arranged in a sliding groove formed by a first fixing frame and the second fixing frame in a sliding manner and are uniformly divided into an upper layer and a lower layer, the second fixing rod on the upper layer is positioned below the first belt on the upper layer, the second fixing rod on the lower layer is positioned above the first belt on the lower layer, the middle part of the second fixing rod is arranged in a groove, a convex column is arranged in the groove of the second fixing rod, two second sliding rods are arranged in the second fixing rod in a sliding manner, the lower ends of the two second sliding rods are both arranged in a wedge-shaped block, a second fixing plate is fixedly connected to the upper ends of the two second sliding rods, two ends of the second fixing plate are provided with wedge blocks, two second tension springs are fixedly connected between the second fixing plate and the second fixing rod, two fourth fixing blocks are fixedly connected to the lower surface of the second fixing rod, a third sliding rod is slidably arranged in each fourth fixing block, the two third sliding rods are oppositely arranged, the outer ends of the two third sliding rods are provided with wedge blocks, the inner ends of the two third sliding rods are provided with arc-shaped rods, the adjacent wedge blocks of the third sliding rods are matched with the wedge blocks of the second sliding rods, a second spring is fixedly connected between the adjacent wedge blocks of the third sliding rods and the fourth fixing blocks, the two second springs are respectively sleeved on the two third sliding rods, two fifth fixing blocks are fixedly connected to the front surface of the second fixing rod, sliding baffles are slidably arranged in the two fifth fixing blocks, the two sliding baffles are oppositely arranged, and the front part of each sliding baffle is provided with a lug block, the upper parts of the outer sides of the two sliding baffle plates are provided with wedge blocks, the wedge blocks of the two sliding baffle plates are respectively matched with the wedge blocks at the two ends of the second fixed plate, a third tension spring is fixedly connected between the convex block and the fifth fixed block on the adjacent sliding baffle plates, the lower end of each sliding baffle plate is fixedly connected with a fixed rack, the second fixed rod is rotatably provided with two ninth rotating shafts, the two ninth rotating shafts are symmetrically arranged, and the front part of each ninth rotating shaft is fixedly connected with a third straight gear, the adjacent third straight gears are meshed with the fixed gear racks, the rear end of each ninth rotating shaft is fixedly connected with a first rotating plate, the front end of each ninth rotating shaft is fixedly connected with a second rotating plate, and a third fixing rod is fixedly connected between the lower parts of the first rotating plate and the second rotating plate and used for fixing hung clothes and avoiding the clothes from falling off in the moving process.

As a preferred technical scheme of the invention, the device also comprises a flattening mechanism, the lower parts of the two second fixing frames are provided with the flattening mechanism, the flattening mechanism comprises a tenth belt pulley, a fourth fixing frame, a fourth transmission shaft, a rotating wheel, a fourth straight gear, a fifth transmission shaft, a fifth straight gear, an eleventh belt pulley and a sixth belt, the right end of the fifth rotating shaft at the right part is fixedly connected with the tenth belt pulley, the rear side wall of the lower part of the two second fixing frames is fixedly connected with the fourth fixing frame, the fourth fixing frame is rotatably provided with a plurality of fourth transmission shafts, the middle part of each fourth transmission shaft is fixedly connected with the rotating wheel, the right end of each fourth transmission shaft is fixedly connected with the fourth straight gear, the lower part of each fourth transmission shaft is provided with the fifth transmission shaft, each fifth transmission shaft is rotatably arranged in the right side wall of the fourth fixing frame, the right end of each fifth transmission shaft is fixedly connected with the fifth straight gear, and the fifth straight gear and the fourth straight gear are meshed with each other, an eleventh belt wheel is fixedly connected to the right end of the fifth transmission shaft at the lowest part, and the eleventh belt wheel and the tenth belt wheel are connected through a sixth belt and used for beating falling clothes and smoothing the falling clothes.

As a preferred technical scheme of the invention, the side wall of each rotating wheel is uniformly provided with four long plates, and when the rotating wheel rotates, the long plates on the rotating wheel hit clothes in the falling process, so that the clothes are prevented from being folded and deformed.

The beneficial effects are that: the four first belts in the power mechanism intermittently rotate for a certain distance to transversely move hung clothes, the L-shaped support and the fifth belt on the third belt in the lifting mechanism longitudinally move the hung clothes to rotate the hung clothes, so that the clothes are separated, the clothes are sequentially disinfected and sterilized, the third sliding rod, the sliding baffle and the third fixing rod in the fixing mechanism are symmetrically arranged to fix the hung clothes, and the first ultraviolet lamp plate and the second ultraviolet lamp plate in the disinfecting mechanism uniformly irradiate the outer surface of the clothes with ultraviolet rays with constant intensity, so that the best disinfection and sterilization effect of the clothes is realized, three rotating wheels in the leveling mechanism rotate anticlockwise, the falling clothes are continuously beaten and leveled, and the clothes are prevented from being folded in the falling process.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial structural schematic diagram of the present invention.

Fig. 3 is a schematic view of a first partial structure of the power mechanism according to the present invention.

Fig. 4 is a schematic view of a second partial structure of the power mechanism according to the present invention.

Fig. 5 is a partial cross-sectional view of a power mechanism according to the present invention.

Fig. 6 is a first partial structure diagram of the ascending mechanism according to the present invention.

Fig. 7 is a second partial structural view of the ascending mechanism according to the present invention.

Fig. 8 is a partial structural view of the separator assembly of the present invention.

FIG. 9 is a partial cross-sectional view of a separator assembly according to the present invention.

Fig. 10 is a schematic structural diagram of the supporting mechanism of the present invention.

Fig. 11 is a partial structural schematic view of the supporting mechanism of the present invention.

Fig. 12 is a schematic structural view of the disinfecting mechanism of the present invention.

Fig. 13 is a partial cross-sectional view of the securing mechanism of the present invention.

Fig. 14 is a partial structural view of the fixing mechanism of the present invention.

Fig. 15 is a schematic structural view of the smoothing mechanism of the present invention.

The parts are labeled as follows: 1-wardrobe, 101-cabinet door, 102-control terminal, 103-first pressure sensor, 2-sliding plate, 201-electric push rod, 202-support rod, 203-first fixed frame, 204-second fixed frame, 205-first bracket, 206-servo motor, 207-first transmission shaft, 208-second transmission shaft, 209-first belt wheel, 210-first belt, 211-second belt wheel, 212-third fixed frame, 213-first rotating shaft, 214-second rotating shaft, 215-third belt wheel, 216-second belt, 3-second bracket, 301-driving motor, 302-third rotating shaft, 303-fourth belt wheel, 304-fourth rotating shaft, 305-fifth belt wheel, 306-third belt wheel, 307-sixth belt wheel, 308-a third transmission shaft, 309-a seventh belt wheel, 310-a fourth belt, 311-an eighth belt wheel, 312-a fifth rotating shaft, 313-a ninth belt wheel, 314-a fifth belt, 4-a second pressure sensor, 401-a first fixing plate, 402-a T-shaped sliding chute, 403-an L-shaped bracket, 404-a first spring, 405-an induction rod, 406-a wedge-shaped fixing block, 5-an induction plate, 501-a first fixing rod, 502-a first rotating rod, 503-a sixth rotating shaft, 504-a second rotating rod, 505-a torsion spring, 506-a third rotating rod, 507-a first fixing block, 508-a first n-shaped sliding rod, 509-a first tension spring, 6-a first ultraviolet, 601-a gear lacking, 602-a seventh rotating shaft, 603-a first straight gear, 604-a second fixed block, 605-a first slide bar, 606-a second n-type slide bar, 607-a third fixed block, 608-an eighth rotating shaft, 609-a second ultraviolet lamp panel, 610-a second spur gear, 7-a second fixed bar, 701-a second slide bar, 702-a second fixed plate, 703-a second tension spring, 704-a fourth fixed block, 705-a third slide bar, 706-a second spring, 707-a fifth fixed block, 708-a sliding baffle, 709-a third tension spring, 710-a fixed rack, 711-a ninth rotating shaft, 712-a third spur gear, 713-a first rotating plate, 714-a second rotating plate, 715-a third fixed bar, 8-a tenth pulley, 801-a fourth fixed frame, 802-a fourth transmission shaft, 803-a rotating wheel, 804-fourth spur gear, 805-fifth transmission shaft, 806-fifth spur gear, 807-eleventh pulley, 808-sixth belt.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

An intelligent wardrobe with a disinfection function based on an intelligent home comprises a wardrobe 1, a wardrobe door 101, a control terminal 102, first pressure sensors 103, power mechanisms, a lifting mechanism, a supporting mechanism, a disinfection mechanism and a fixing mechanism, wherein the wardrobe 1 is internally provided with a left cavity and a right cavity, the front part of the wardrobe 1 is rotatably provided with two wardrobe doors 101, the two wardrobe doors 101 are oppositely arranged, the top part of the wardrobe 1 is fixedly connected with the control terminal 102, the control terminal 102 is connected with an Internet of things terminal through an electric signal, the front side of the upper part of the wardrobe 1 is fixedly connected with the two first pressure sensors 103, the two first pressure sensors 103 are electrically connected with the control terminal 102, the two cavities of the wardrobe 1 are internally provided with the power mechanisms respectively, the power mechanisms are used for carrying out layered management and movement on hung clothes, each power mechanism is electrically connected with the control terminal 102, each power mechanism is provided with the lifting mechanism and two groups of supporting mechanisms, every group rises the mechanism and all is connected with control terminal 102 electricity, it is used for exchanging between the two-layer clothing that hangs about to rise the mechanism, make the clothing that hangs rotate in order, two sets of supporting mechanism symmetry that are located same wardrobe 1 cavity set up, supporting mechanism is used for fixing the clothing that hangs after rising, the rear of every group power unit all is equipped with disinfection mechanism, disinfection mechanism is used for disinfecting to the clothing that rises the in-process, every group disinfection mechanism all is connected with control terminal 102 electricity, two sets of disinfection mechanism symmetry sets up, be equipped with a plurality of fixed establishment between the power unit, fixed establishment is used for fixing the clothing that hangs.

The user sets up the work efficiency of this device through the APP on the smart mobile phone, and the APP on the smart mobile phone passes through signal transmission to thing networking terminal with corresponding setting, then thing networking terminal carries out the record to control terminal 102 is passed through signal transmission with the record, and control terminal 102 controls this device afterwards and carries out work with corresponding efficiency.

The two first pressure sensors 103 sense whether the cabinet door 101 in front of the left cavity and the right cavity of the wardrobe 1 is closed or not, if the cabinet door 101 is closed, the corresponding first pressure sensors 103 are extruded, then the first pressure sensors 103 send electric signals to the control terminal 102, then the control terminal 102 transmits recorded Internet of things terminal signals to the power mechanism and the lifting mechanism in the cavity of the corresponding wardrobe 1 through the electric signals, the disinfection mechanism is started simultaneously, then the power mechanism works intermittently at a corresponding frequency, simultaneously the lifting mechanism works continuously at a corresponding speed, the upper part and the lower part of the power mechanism are respectively provided with a plurality of fixing mechanisms, clothes are hung on each fixing mechanism, the clothes hung in the device are arranged in an upper layer and a lower layer, then the lower part of the power mechanism works to enable the fixing mechanisms on the power mechanism to move backwards, and simultaneously the upper part of the power mechanism works to enable the fixing mechanisms on the power mechanism to move forwards, along with the work of the device, the rear part of the lifting mechanism lifts the fixing mechanism at the rearmost part of the lower part of the power mechanism upwards, the fixing mechanism moves upwards to drive the clothes hanger and the clothes to move upwards, the clothes are disinfected and sterilized in all aspects through the disinfecting mechanism, meanwhile, the front part of the lifting mechanism moves downwards the fixing mechanism at the forefront part of the upper part of the power mechanism, the fixing mechanism enters the lower part of the power mechanism again, and when the lifting mechanism completes half of work cycle in the process, the power mechanism performs one work cycle, so that the fixing mechanism performs continuous circular movement.

The fixing mechanism triggers the supporting component to be opened along with the upward movement of the fixing mechanism, when the fixing mechanism moves upwards to the highest point, the supporting component is triggered again to limit the fixing mechanism, the fixing mechanism stays at the upper part of the power mechanism, meanwhile, the lifting mechanism is separated from the contact with the fixing mechanism, the power mechanism rotates once to enable the fixing mechanism at the upper part of the power mechanism to move forwards, the fixing mechanism at the lower part of the power mechanism moves backwards, at the moment, the fixing mechanism at the rearmost part of the lower part of the power mechanism is contacted with the lifting mechanism again to work, the lifting mechanism lifts the fixing mechanism upwards, then works again according to the flow, and then works circularly according to the steps.

When a certain cabinet door 101 is opened, the cabinet door 101 is separated from the contact with the corresponding first pressure sensor 103, then the lifting mechanism finishes a working cycle and sends a stop instruction to the control terminal 102, the work of the power mechanism and the lifting mechanism is stopped, the disinfection mechanism is closed at the same time, the disinfection mechanism is opened to remove the obstruction to the power mechanism and the lifting mechanism, when the cabinet door 101 is closed, the cabinet door 101 is in contact extrusion with the first pressure sensor 103, at the moment, the lifting mechanism finishes a working cycle and does not send a stop instruction to the control terminal 102, then a user controls the power mechanism to work through an APP on the smart phone to enable the power mechanism and the lifting mechanism to extend out of the wardrobe 1 and close the power mechanism after the power mechanism extends out completely, and then the user controls the power mechanism and the lifting mechanism to work through the APP on the smart phone to enable the fixing mechanism to operate and facilitate the selection of clothes hung on the fixing mechanism, select required clothing after, the user will stimulate the clothes hanger that fixed establishment hung the clothing on it and take off, select APP control power unit and the ascending mechanism stop work that finishes the back user on through the smart mobile phone, the user passes through APP control power unit work on the smart mobile phone afterwards, make power mechanism and ascending mechanism withdraw in to wardrobe 1, close power unit after withdrawing completely, close corresponding cabinet door 101 simultaneously, along with closing of cabinet door 101, the closed initial position that resumes of disinfection mechanism, make disinfection mechanism disinfect to the clothing on the fixed establishment that rises again.

Example 2

On the basis of embodiment 1, as shown in fig. 2-5, the power mechanism includes a sliding plate 2, electric push rods 201, support rods 202, a first fixed frame 203, a second fixed frame 204, a first bracket 205, a servo motor 206, a first transmission shaft 207, a second transmission shaft 208, a first pulley 209, a first belt 210, a second pulley 211, a third fixed frame 212, a first rotating shaft 213, a second rotating shaft 214, a third pulley 215, and a second belt 216, the inner bottom of the wardrobe 1 is slidably provided with the sliding plate 2, the inner surface of the rear portion of the wardrobe 1 is fixedly connected with two electric push rods 201, the two electric push rods 201 work to extend the hung clothes from the cavity of the wardrobe 1, so as to facilitate the user to take and place the clothes, the front end of each electric push rod 201 is fixedly connected with the front portion of the sliding plate 2, the sliding plate 2 is uniformly and fixedly connected with four support rods 202, the upper ends of the front and rear adjacent support rods 202 are fixedly connected with the first fixed frame 203, each first fixing frame 203 is fixedly connected with a second fixing frame 204, the two second fixing frames 204 are oppositely arranged, the upper part and the lower part of each second fixing frame 204 are arranged in a groove, the lower surface of the groove of each second fixing frame 204 is provided with a plurality of balls for the movement of a fixing mechanism, the first fixing frame 203 and the second fixing frame 204 on the same side form a sliding groove, the fixing mechanism moves in a square shape in the sliding grooves of the first fixing frame 203 and the second fixing frame 204, the upper end of the second fixing frame 204 on the right part is fixedly connected with a first bracket 205, the front part of the first bracket 205 is embedded with a servo motor 206, a first transmission shaft 207 is rotatably arranged between the upper parts of the two first fixing frames 203, the right end of the first transmission shaft 207 is fixedly connected with the output shaft end of the servo motor 206, a second transmission shaft 208 is rotatably arranged between the upper parts of the two first fixing frames 203, the second transmission shaft 208 is positioned behind the first transmission shaft 207, two first belt wheels 209 are fixedly connected to the first transmission shaft 207 and the second transmission shaft 208 respectively, the front and the back adjacent first belt wheels 209 are connected through a first belt 210, a plurality of convex blocks are arranged on the first belt 210 and used for intermittently and orderly moving clothes on the fixing mechanism, the two parts of the first transmission shaft 207 are fixedly connected with second belt wheels 211, the inner sides of the lower parts of the two first fixing frames 203 are fixedly connected with a third fixing frame 212, a first rotating shaft 213 and a second rotating shaft 214 are rotatably arranged between the adjacent third fixing frame 212 and the first fixing frame 203, the two first rotating shafts 213 are respectively positioned behind the two second rotating shafts 214, the first belt wheels 209 are fixedly connected to each first rotating shaft 213 and each second rotating shaft 214, the front and the back adjacent first belt wheels 209 are connected through the first belt 210, the four first belts 210 are positioned at the inner sides of the two first fixing frames 203, the outer ends of the two second rotating shafts 214 are fixedly connected with third belt wheels 215, the adjacent third belt wheel 215 and the second belt wheel 211 are connected through a second belt 216, and the power mechanism prevents the clothes from being excessively stacked together, is used for performing layered management on the clothes, enables the hung clothes to transversely move, and facilitates the sterilization of a subsequent sterilization mechanism.

As shown in fig. 7-9, the ascending mechanism includes a second bracket 3, a driving motor 301, a third rotating shaft 302, a fourth pulley 303, a fourth rotating shaft 304, a fifth pulley 305, a third belt 306, a sixth pulley 307, a third transmission shaft 308, a seventh pulley 309, a fourth belt 310, an eighth pulley 311, a fifth rotating shaft 312, a ninth pulley 313, a fifth belt 314, and a separating assembly, wherein the upper portion of each second fixing frame 204 is fixedly connected with the second bracket 3, the two second brackets 3 are symmetrically arranged, each second bracket 3 is embedded with the driving motor 301, the upper portion of each first fixing frame 203 is rotatably provided with the third rotating shaft 302, the two third rotating shafts 302 are oppositely arranged, the outer ends of the two third rotating shafts 302 are respectively fixedly connected with the output of the adjacent driving motor 301, each third rotating shaft 302 is fixedly connected with the fourth pulley 303, the lower portion of each second bracket 3 is rotatably provided with the fourth rotating shaft 304, two fourth rotating shafts 304 are oppositely arranged, the outer ends of the two fourth rotating shafts 304 are fixedly connected with fifth pulleys 305, the upper and lower adjacent fourth pulleys 303 and the fifth pulleys 305 are connected through third belts 306, each third belt 306 is provided with a separating component, the two groups of separating components are symmetrically arranged, the left end of the left third rotating shaft 302 is fixedly connected with a sixth pulley 307, a third transmission shaft 308 is rotatably arranged between the upper parts of the two first fixing frames 203, the third transmission shaft 308 is positioned at the oblique lower part of the first transmission shaft 207, the left end of the third transmission shaft 308 is fixedly connected with a seventh pulley 309, the seventh pulley 309 and the sixth pulley 307 are connected through a fourth belt 310, the third transmission shaft 308 is fixedly connected with two eighth pulleys 311, the two eighth pulleys 311 are respectively positioned at the outer sides of the two first fixing frames 203, the lower part of each first fixing frame 203 is rotatably provided with a fifth rotating shaft 312, and the two fifth rotating shafts 312 are oppositely arranged, the two fifth rotating shafts 312 are fixedly connected with ninth belt wheels 313, the vertically adjacent ninth belt wheels 313 and eighth belt wheels 311 are connected through fifth belts 314, each fifth belt 314 is provided with two convex blocks, the third belt 306 is used for lifting the clothes hung on the lower layer to the upper layer, and the fifth belts 314 are used for dropping the clothes hung on the upper layer to the lower layer, so that the clothes rotate orderly, and the single disinfection and sterilization of the hung clothes are facilitated.

As shown in fig. 8 and 9, the separating assembly includes a second pressure sensor 4, first fixing plates 401, L-shaped brackets 403, first springs 404, sensing rods 405 and wedge-shaped fixing blocks 406, the second pressure sensor 4 is fixedly connected to the outer side walls of the upper portions of the two first fixing frames 203, the two second pressure sensors 4 are electrically connected to the control terminal 102, the second pressure sensor 4 is located behind the second fixing frame 204, two first fixing plates 401 are fixedly connected to a third belt 306, a T-shaped chute 402 is formed in each first fixing plate 401, an L-shaped bracket 403 is slidably arranged in each T-shaped chute 402, a first spring 404 is fixedly connected between each adjacent L-shaped bracket 403 and the first fixing plate 401, one end of each L-shaped bracket 403 is fixedly connected to the sensing rod 405, the right portions of the two sensing rods 405 are arranged in a wedge-shaped manner, the wedge-shaped fixing blocks 406 are fixedly connected to the upper rear portions of the two second fixing frames 204, the wedge-shaped fixing blocks 406 on the same side and the wedge-shaped blocks of the two induction rods 405 work in a matched mode, so that the L-shaped support 403 releases the lifting action on clothes on the fixing mechanism, and then the L-shaped support 403 is restored to the initial state under the action of the first spring 404, and the subsequent fixing mechanism is conveniently lifted by the L-shaped support 403.

As shown in fig. 10 and 11, the supporting mechanism includes an induction plate 5, a first fixing rod 501, a first rotating rod 502, a sixth rotating shaft 503, a second rotating rod 504, a torsion spring 505, a third rotating rod 506, a first fixing block 507, a first n-type sliding rod 508 and a first tension spring 509, two chambers are opened on the first fixing frame 203 of the left portion, an arc-shaped groove is opened on the right side wall of the first fixing frame 203 of the left portion, the arc-shaped groove on the first fixing frame 203 is communicated with one chamber, the induction plate 5 is slidably arranged in one chamber of the first fixing frame 203, the first fixing rod 501 is fixedly connected to the upper end of the induction plate 5, the first fixing rod 501 is located on the right side of the first fixing frame 203 of the left portion, the first rotating rod 502 is rotatably arranged on the lower portion of the first fixing frame 501, the sixth rotating shaft 503 is rotatably arranged on the upper portion in the first fixing frame 203 of the left portion, the sixth rotating shaft 503 is located below the first fixing rod 501, a second rotating rod 504 is fixedly connected to the right end of a sixth rotating shaft 503, the lower portion of the second rotating rod 504 is provided with a convex column, the convex column of the second rotating rod 504 is rotatably connected with the lower portion of the first rotating rod 502, a torsion spring 505 is fixedly connected between the second rotating rod 504 and the first fixing frame 203 at the left portion, the torsion spring 505 is sleeved on the sixth rotating shaft 503, a third rotating rod 506 is fixedly connected to the middle portion of the sixth rotating shaft 503, the third rotating rod 506 rotates to fix the position of the ascending fixing mechanism, the third rotating rod 506 rotates in the other cavity of the first fixing frame 203, the upper portion of the third rotating rod 506 is provided with a convex column, the convex column of the third rotating rod 506 is positioned in an arc-shaped groove of the first fixing frame 203, the convex column of the third rotating rod 506 is rotatably connected with the upper portion of the second rotating rod 504, a first fixing block 507 is fixedly connected to the right side wall of the upper portion of the first fixing frame 203 at the left portion, a first n-type sliding rod 508 is slidably arranged in the first fixing block 507, the rear end of the lower part of the first n-type slide bar 508 is an inclined plane, and is used for the contact extrusion of the fixing mechanism and the first n-type slide bar 508, so that the third rotating rod 506 is switched between a vertical state and a horizontal state, the upper part of the first n-type slide bar 508 is matched with the first fixing rod 501 to work, and a first tension spring 509 is fixedly connected between the first fixing block 507 and the first n-type slide bar 508.

As shown in fig. 2 and fig. 12, the disinfecting mechanism includes a first ultraviolet lamp panel 6, a gear 601, a seventh rotating shaft 602, a first straight gear 603, a second fixed block 604, a first sliding rod 605, a second n-type sliding rod 606, a third fixed block 607, an eighth rotating shaft 608, a second ultraviolet lamp panel 609 and a second straight gear 610, the first ultraviolet lamp panel 6 is fixedly connected to the rear wall of the left portion of the wardrobe 1, the gear 601 is fixedly connected to the middle portion of the cabinet door 101 of the left portion, the left wall of the wardrobe 1 is provided with a groove, the seventh rotating shaft 602 is fixedly connected to the groove of the wardrobe 1, the first straight gear 603 is rotatably arranged on the seventh rotating shaft 602, the first straight gear 603 is engaged with the teeth of the gear 601, the second fixed block 604 is fixedly connected to the inner side wall of the left portion of the wardrobe 1, the first sliding rod 605 is slidably arranged in the second fixed block, the front rack of the first sliding rod 605 is arranged, the rack 604 of the first sliding rod 605 is engaged with the first straight gear 603, a second n-type slide bar 606 is fixedly connected to the rear part of the first slide bar 605, the second n-type slide bar 606 penetrates through the rear wall of the wardrobe 1, a rack is arranged at the front part of the second n-type slide bar 606, four third fixed blocks 607 are uniformly and fixedly connected in a left cavity of the wardrobe 1, an eighth rotating shaft 608 is rotatably arranged between the two vertically adjacent third fixed blocks 607, a second ultraviolet lamp panel 609 is fixedly connected to the middle part of each eighth rotating shaft 608, the two second ultraviolet lamp panels 609 are symmetrically arranged to enable the two second ultraviolet lamp panels 609 to rotate relatively and open, so that after the wardrobe door 101 is opened, a power mechanism works to stretch clothes out of the cavity of the wardrobe 1, a second spur gear 610 is fixedly connected to the upper part of each eighth rotating shaft 608, the two second spur gears 610 are positioned above the two second ultraviolet lamp panels 609, the two second spur gears 610 are respectively meshed with the racks of the adjacent second n-type slide bars 606, and the first ultraviolet 6 and the second ultraviolet 609 are arranged in front and back directions, is used for carrying out comprehensive disinfection and sterilization on the clothes.

As shown in fig. 2, 13 and 14, the fixing mechanism includes a second fixing rod 7, a second sliding rod 701, a second fixing plate 702, a second tension spring 703, a fourth fixing block 704, a third sliding rod 705, a second spring 706, a fifth fixing block 707, a sliding baffle 708, a third tension spring 709, a fixing rack 710, a ninth rotating shaft 711, a third spur gear 712, a first rotating plate 713, a second rotating plate 714 and a third fixing rod 715, wherein a plurality of second fixing rods 7 are slidably disposed in a sliding slot formed by the first fixing frame 203 and the second fixing frame 204, the plurality of second fixing rods 7 are uniformly divided into an upper layer and a lower layer, the upper layer of second fixing rods 7 is located below the upper layer of first belts 210, the lower layer of second fixing rods 7 is located above the lower layer of first belts 210, a groove is formed in the middle of the second fixing rod 7, a convex column is disposed in the groove of the second fixing rod 7, two second sliding rods 701 are slidably disposed in the second fixing rod 7, the lower ends of two second sliding rods 701 are both provided with a wedge-shaped block, the upper ends of the two second sliding rods 701 are fixedly connected with a second fixing plate 702, the two ends of the second fixing plate 702 are provided with wedge-shaped blocks, two second tension springs 703 are fixedly connected between the second fixing plate 702 and a second fixing rod 7, the lower surface of the second fixing rod 7 is fixedly connected with two fourth fixing blocks 704, a third sliding rod 705 is arranged in each fourth fixing block 704 in a sliding manner, the two third sliding rods 705 are oppositely arranged and used for fixing the upper part of the clothes hanger to avoid the phenomenon that the clothes hanger excessively shakes and inclines in the moving process to influence the disinfection and sterilization of the disinfection mechanism on clothes, the outer ends of the two third sliding rods 705 are provided with wedge-shaped blocks, the inner ends of the two third sliding rods 705 are provided with arc-shaped rods, the wedge-shaped blocks of the adjacent third sliding rods 705 are matched with the wedge-shaped blocks of the second sliding rods 701, and a second spring 706 is fixedly connected between the adjacent third sliding rods 705 and the fourth fixing blocks 704, two second springs 706 are respectively sleeved on the two third sliding rods 705, two fifth fixing blocks 707 are fixedly connected to the front surface of the second fixing rod 7, sliding baffle plates 708 are slidably arranged in the two fifth fixing blocks 707, the two sliding baffle plates 708 are oppositely arranged, the two sliding baffle plates 708 fix the clothes rack to prevent the clothes rack from dropping off together with the clothes during the moving process of the device, a convex block is arranged at the front part of each sliding baffle plate 708, wedge blocks are arranged at the upper parts of the outer sides of the two sliding baffle plates 708, the wedge blocks of the two sliding baffle plates 708 are respectively matched with the wedge blocks at the two ends of the second fixing plate 702, a third tension spring 709 is fixedly connected between the convex block on the adjacent sliding baffle plate 708 and the fifth fixing block 707, a fixing rack 710 is fixedly connected to the lower end of each sliding baffle plate 708, two ninth rotating shafts 711 are rotatably arranged on the second fixing rod 7, and the two ninth rotating shafts 711 are symmetrically arranged, and are located outside the two fifth fixed blocks 707, a third spur gear 712 is fixedly connected to the front portion of each ninth rotating shaft 711, the adjacent third spur gear 712 is engaged with the fixed rack 710, a first rotating plate 713 is fixedly connected to the rear end of each ninth rotating shaft 711, a second rotating plate 714 is fixedly connected to the front end of each ninth rotating shaft 711, a third fixed rod 715 is fixedly connected between the lower portions of the first rotating plate 713 and the second rotating plate 714, and the rotated third fixed rod 715 fixes the clothes on the clothes hanger to prevent the clothes from falling off the clothes hanger.

The control terminal 102 starts the driving motors 301 to work through electric signals, two driving motors 301 synchronously work to respectively drive the adjacent third belts 306 to rotate clockwise through the adjacent third rotating shafts 302 and the adjacent fourth belt pulleys 303, the two third belts 306 rotate clockwise to enable one first fixing plate 401 and the L-shaped brackets 403 on the two third belts to move upwards, at the moment, the other first fixing plate 401 on the third belt 306 moves downwards, the two L-shaped brackets 403 move upwards, the second fixing rod 7 positioned at the rearmost part of the lower parts of the two first fixing frames 203 is lifted upwards, clothes hung on the second fixing rod 7 pass through the space between the first ultraviolet lamp plate 6 and the second ultraviolet lamp plate 609, disinfection and sterilization of the hung clothes are completed, meanwhile, the driving motor 301 at the left part rotates clockwise through the adjacent third rotating shafts 302 to drive the sixth belt pulley 307 to rotate clockwise, the sixth belt pulley 307 drives the third transmission shaft 308 to rotate clockwise through the fourth belt 310 and the seventh belt pulley 309, the clockwise rotation of the third transmission shaft 308 drives the two fifth belts 314 to rotate clockwise through the two eighth belt wheels 311, and the two fifth belts 314 rotate clockwise, so that the second fixing rods 7 of the lugs on the two fifth belts 314 are released downwards, and at this time, the other pair of lugs of the two fifth belts 314 moves upwards.

As the two L-shaped brackets 403 drive the corresponding second fixing rod 7 to move upwards, the second fixing rod 7 will press the first n-shaped sliding rod 508, so that the first n-shaped sliding rod 508 slides backwards, the restriction on the first fixing rod 501 is removed, and under the action of the torsion spring 505, the third rotating rod 506 is in a vertical state, at this time, the supporting mechanism is in an initial state, and then the second fixing rod 7 continues to move upwards through the lower end slope of the first n-shaped sliding rod 508, so that the second fixing rod 7 presses the sensing plate 5 to move upwards, the sensing plate 5 moves upwards through the first fixing rod 501 and the first rotating rod 502, so as to drive the second rotating rod 504 to rotate anticlockwise, the second rotating rod 504 drives the third rotating rod 506 to rotate anticlockwise through the sixth rotating shaft 503, at this time, the torsion spring 505 is twisted, after the third rotating rod 506 rotates anticlockwise by 90 degrees, under the action of the first tension spring 509, the first n-shaped sliding rod 508 moves forwards to restrict the first fixing rod 501, the third rotating lever 506 is kept in a rotated state, and then the above operation is performed every time one second fixing lever 7 is moved upward.

When the second fixing rod 7 moves upwards to the uppermost side of the sliding grooves of the first fixing frame 203 and the second fixing frame 204, the wedge blocks on the two sensing rods 405 contact and extrude the adjacent wedge fixing blocks 406 to enable the two sensing rods 405 to move outwards, the two sensing rods 405 move outwards to drive the two L-shaped brackets 403 to move outwards, the two L-shaped brackets 403 move outwards to compress the adjacent first springs 404, the two L-shaped brackets 403 are separated from the contact with the second fixing rod 7 along with the upward movement of the second fixing rod 7, then under the action of the first springs 404, the two L-shaped brackets 403 drive the adjacent sensing rods 405 to move inwards to enable the adjacent sensing rods 405 to return to the initial state, and the second fixing rod 7 at the moment moves into the rear of the upper sides of the sliding grooves of the first fixing frame 203 and the second fixing frame 204.

Meanwhile, the control terminal 102 starts the servo motor 206 to work through an electric signal, the servo motor 206 rotates clockwise at a designated angle, the servo motor 206 drives two adjacent first belts 210 to rotate clockwise through the first transmission shaft 207 and the first belt pulleys 209 thereon, the first belts 210 rotate clockwise to shift the second fixing rod 7 between the upper parts of the two first fixing frames 203 forward, the servo motor 206 drives the second rotating shaft 214 to rotate clockwise through the second belt pulleys 211, the second belt 216 and the third belt pulleys 215 while rotating clockwise, the second rotating shaft 214 rotates clockwise through the first belt pulleys 209 thereon to drive the first belts 210 to rotate clockwise, the first belts 210 rotate clockwise to shift the second fixing rod 7 between the lower parts of the two first fixing frames 203 backward, at the moment, the third belts 306 and the fifth belts 314 rotate half a circle, and then the first belts 210 shift the second fixing rod 7 for one time, the second fixing lever 7 is driven by the parts thereon to circularly move in a square shape between the first fixing frame 203 and the second fixing frame 204, thereby completing the setting of the control terminal 102.

When the left cabinet door 101 is opened, the third belt 306 continuously rotates for half a turn, so that the second fixing rod 7 extrudes the two second pressure sensors 4, then the two second pressure sensors 4 send electric signals to the control terminal 102, the control terminal 102 closes the driving motor 301 and the servo motor 206 through the electric signals, then the cabinet door 101 rotates clockwise to drive the first straight gear 603 to rotate anticlockwise through the missing gear 601, when the teeth of the missing gear 601 are disengaged from the first straight gear 603, the circumferential outer surface of the missing gear 601 is in contact with the two teeth of the first straight gear 603, so that the first straight gear 603 stops rotating, the first straight gear 603 rotates anticlockwise to drive the first sliding rod 606 and the second n-type sliding rod to move forwards, the second n-type sliding rod 606 moves forwards to drive the two second straight gears 610 to rotate oppositely, the two second straight gears 610 rotate to drive the second ultraviolet lamp panel 609 which falls through the adjacent eighth rotating shaft 608 to rotate oppositely, two second ultraviolet lamp plates 609 rotate relatively, make two second ultraviolet lamp plates 609 remove the restriction to the fixed frame of first 203 and second 204, the user passes through APP on the smart mobile phone and starts two electric putter 201 afterwards, make electric putter 201 pass through slide 2 and four bracing pieces 202, it stretches out in wardrobe 1's the left part cavity to drive power unit and rising mechanism, two electric putter 201 closes afterwards, APP on the smart mobile phone after the user chooses to finish the clothing starts two electric putter 201 to retrieving, make electric putter 201 pass through slide 2 and four bracing pieces 202, it retrieves from wardrobe 1's left part cavity to drive power unit and rising mechanism, resume initial condition, the user closes cabinet door 101 of left part afterwards.

When taking clothes, a user starts the power mechanism and the lifting mechanism through the APP on the smart phone to rotate the clothes to the forefront of the device, then the user pulls the second fixing plate 702, the second fixing plate 702 moves upwards to remove the restriction on the two sliding baffle plates 708, the two sliding baffle plates 708 slide outwards under the action of the two third tension springs 709 to remove the restriction on the upper part of the clothes hanger, the two sliding baffle plates 708 slide outwards to drive the two third straight gears 712 to rotate relatively through the fixed gear 710 on the two sliding baffle plates, the two third straight gears 712 drive the adjacent first rotating plate 713, the second rotating plate 714 and the third fixing rod 715 to rotate relatively through the adjacent ninth rotating shaft 711, the extrusion of the two third fixing rods 715 on the clothes is removed, the clothes are prevented from being separated in the moving process, the second fixing plate 702 moves upwards while driving the two second sliding rods 701 to move upwards, the two second sliding bars 701 are released from the limitation of the adjacent third sliding bars 705, under the action of the two second springs 706, the two third sliding bars 705 slide outwards to release the fixation of the upper part of the clothes hanger, then the user loosens the second fixed plate 702, under the action of the second tension spring 703, the second fixed plate 702 moves downwards to press the two sliding baffles 708, meanwhile, the second fixed plate 702 presses the adjacent third sliding bars 705 through the two second sliding bars 701 to restore the original state, the clothes are placed, the fixing mechanism is opened according to the operation, the clothes hanger with the clothes is hung on the convex column in the middle of the second fixed rod 7, and then the second fixed plate 702 is loosened.

Example 3

On the basis of embodiment 2, as shown in fig. 6 and 15, the present invention further includes a smoothing mechanism, the lower portions of the two second fixing frames 204 are provided with the smoothing mechanism, the smoothing mechanism includes a tenth belt pulley 8, a fourth fixing frame 801, a fourth transmission shaft 802, a rotating wheel 803, a fourth spur gear 804, a fifth transmission shaft 805, a fifth spur gear 806, an eleventh belt pulley 807 and a sixth belt 808, the right end of the fifth rotating shaft 312 at the right portion is fixedly connected with the tenth belt pulley 8, the rear side walls at the lower portions of the two second fixing frames 204 are fixedly connected with the fourth fixing frame 801, the fourth fixing frame 801 is rotatably provided with three fourth transmission shafts 802, the middle portion of each fourth transmission shaft 802 is fixedly connected with the rotating wheel 803, the side walls of each rotating wheel 803 are uniformly provided with four long plates, when the rotating wheel 803 rotates, the long plates on the rotating wheel 803 hit the clothes during the falling process to avoid folding deformation of the clothes, the right end of each fourth transmission shaft 802 is fixedly connected with the fourth spur gear 804, the lower part of each fourth transmission shaft 802 is provided with a fifth transmission shaft 805, each fifth transmission shaft 805 is rotatably arranged in the right side wall of the fourth fixed frame 801, the right end of each fifth transmission shaft 805 is fixedly connected with a fifth spur gear 806, the adjacent fifth spur gears 806 are meshed with the fourth spur gears 804 to realize synchronous rotation in the same direction of the three rotating wheels 803, the right end of the fifth transmission shaft 805 at the lowest part is fixedly connected with an eleventh belt pulley 807, and the eleventh belt pulley 807 and the tenth belt pulley 8 are connected through a sixth belt 808.

The fifth rotating shaft 312 rotates clockwise and simultaneously drives the tenth belt pulley 8 to rotate clockwise, the tenth belt pulley 8 rotates clockwise and drives the eleventh belt pulley 807 to rotate clockwise through the sixth belt 808, because the adjacent fifth spur gear 806 and the fourth spur gear 804 are meshed, the eleventh belt pulley 807 drives the whole fourth transmission shaft 802 to rotate anticlockwise, the fourth transmission shaft 802 rotates anticlockwise and drives the rotating wheel 803 to rotate and hit clothes, the clothes are prevented from being folded in the falling process, the clothes are sterilized more thoroughly in the subsequent sterilizing process.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (5)

1. The utility model provides an intelligence wardrobe based on intelligence house has disinfection function, including wardrobe (1), cabinet door (101), control terminal (102) and first pressure sensor (103), characterized by: the wardrobe comprises a wardrobe body (1), and is characterized by further comprising a power mechanism, a lifting mechanism, supporting mechanisms, a disinfecting mechanism and a fixing mechanism, wherein the wardrobe body (1) is internally provided with a left cavity and a right cavity, the front part of the wardrobe body (1) is rotatably provided with two wardrobe doors (101), the two wardrobe doors (101) are oppositely arranged, the top of the wardrobe body (1) is fixedly connected with a control terminal (102), the control terminal (102) is connected with a terminal of the Internet of things through an electric signal, the front side of the upper part of the wardrobe body (1) is fixedly connected with two first pressure sensors (103), the two first pressure sensors (103) are electrically connected with the control terminal (102), the two cavities of the wardrobe body (1) are respectively internally provided with power mechanisms, each power mechanism is electrically connected with the control terminal (102), each lifting mechanism and two groups of supporting mechanisms are arranged on each power mechanism, each lifting mechanism is electrically connected with the control terminal (102), and the two groups of supporting mechanisms in the cavities of the same wardrobe body (1) are symmetrically arranged, a disinfection mechanism is arranged behind each group of power mechanisms, each group of disinfection mechanisms is electrically connected with the control terminal (102), the two groups of disinfection mechanisms are symmetrically arranged, and a plurality of fixing mechanisms are arranged between the power mechanisms;

the power mechanism comprises a sliding plate (2), electric push rods (201), support rods (202), a first fixed frame (203), a second fixed frame (204), a first support (205), a servo motor (206), a first transmission shaft (207), a second transmission shaft (208), a first belt wheel (209), a first belt (210), a second belt wheel (211), a third fixed frame (212), a first rotating shaft (213), a second rotating shaft (214), a third belt wheel (215) and a second belt (216), the inner bottom of the wardrobe (1) is provided with the sliding plate (2) in a sliding manner, the inner surface of the rear part of the wardrobe (1) is fixedly connected with the two electric push rods (201), the front end of each electric push rod (201) is fixedly connected with the front part of the sliding plate (2), the four support rods (202) are uniformly and fixedly connected to the sliding plate (2), the first fixed frame (203) is fixedly connected to the upper ends of the front and rear adjacent support rods (202), each first fixed frame (203) is fixedly connected with a second fixed frame (204), the two second fixed frames (204) are arranged oppositely, the first fixed frame (203) and the second fixed frame (204) at the same side form a sliding chute, the upper end of the second fixed frame (204) at the right part is fixedly connected with a first bracket (205), a servo motor (206) is embedded at the front part of the first bracket (205), a first transmission shaft (207) is rotatably arranged between the upper parts of the two first fixed frames (203), the right end of the first transmission shaft (207) is fixedly connected with the output shaft end of the servo motor (206), a second transmission shaft (208) is rotatably arranged between the upper parts of the two first fixed frames (203), the second transmission shaft (208) is positioned at the rear part of the first transmission shaft (207), the first transmission shaft (207) and the second transmission shaft (208) are respectively fixedly connected with two first belt pulleys (209), and the front and rear adjacent first belt pulleys (209) are connected through a first belt (210), the first belt (210) is provided with a plurality of convex blocks, two parts of the first transmission shaft (207) are fixedly connected with second belt pulleys (211), the inner sides of the lower parts of the two first fixing frames (203) are fixedly connected with third fixing frames (212), a first rotating shaft (213) and a second rotating shaft (214) are rotatably arranged between the adjacent third fixing frames (212) and the first fixing frames (203), the two first rotating shafts (213) are respectively positioned behind the two second rotating shafts (214), each first rotating shaft (213) and each second rotating shaft (214) are fixedly connected with first belt pulleys (209), the front and back adjacent first belt pulleys (209) are connected through a first belt (210), the four first belts (210) are positioned on the inner sides of the two first fixing frames (203), the outer ends of the two second rotating shafts (214) are fixedly connected with third belt pulleys (215), and the adjacent third belt pulleys (215) and the second belt pulleys (211) are connected through second belts (216);

the lifting mechanism comprises second supports (3), driving motors (301), third rotating shafts (302), fourth belt wheels (303), fourth rotating shafts (304), fifth belt wheels (305), third belts (306), sixth belt wheels (307), third transmission shafts (308), seventh belt wheels (309), fourth belts (310), eighth belt wheels (311), fifth rotating shafts (312), ninth belt wheels (313), fifth belts (314) and separating components, wherein the upper part of each second fixing frame (204) is fixedly connected with the second supports (3), the two second supports (3) are symmetrically arranged, each second support (3) is embedded with a driving motor (301), the upper part of each first fixing frame (203) is rotatably provided with a third rotating shaft (302), the two third rotating shafts (302) are oppositely arranged, the outer ends of the two third rotating shafts (302) are respectively and fixedly connected with the output shaft ends of the adjacent driving motors (301), each third rotating shaft (302) is fixedly connected with a fourth belt wheel (303), the lower part of each second support (3) is rotatably provided with a fourth rotating shaft (304), the two fourth rotating shafts (304) are oppositely arranged, the outer ends of the two fourth rotating shafts (304) are fixedly connected with fifth belt wheels (305), the fourth belt wheels (303) and the fifth belt wheels (305) on the same side are connected through third belts (306), each third belt (306) is provided with a separating component, the two separating components are symmetrically arranged, the left end of the third rotating shaft (302) on the left part is fixedly connected with a sixth belt wheel (307), a third transmission shaft (308) is rotatably arranged between the upper parts of the two first fixing frames (203), the third transmission shaft (308) is positioned below the first transmission shaft (207) in an inclined manner, the left end of the third transmission shaft (308) is fixedly connected with a seventh belt wheel (309), and the seventh belt wheel (309) and the sixth belt wheel (307) are connected through a fourth belt (310), two eighth belt wheels (311) are fixedly connected to the third transmission shaft (308), the two eighth belt wheels (311) are respectively located on the outer sides of the two first fixing frames (203), a fifth rotating shaft (312) is rotatably arranged on the lower portion of each first fixing frame (203), the two fifth rotating shafts (312) are oppositely arranged, a ninth belt wheel (313) is fixedly connected to each of the two fifth rotating shafts (312), the ninth belt wheel (313) and the eighth belt wheel (311) on the same side are connected through a fifth belt (314), and two convex blocks are arranged on each fifth belt (314);

the separating component comprises second pressure sensors (4), first fixing plates (401), L-shaped supports (403), first springs (404), sensing rods (405) and wedge-shaped fixing blocks (406), the second pressure sensors (4) are fixedly connected to the outer side walls of the upper portions of the two first fixing frames (203), the two second pressure sensors (4) are electrically connected with the control terminal (102), the second pressure sensors (4) are located behind the second fixing frames (204), two first fixing plates (401) are fixedly connected to a third belt (306), a T-shaped sliding groove (402) is formed in each first fixing plate (401), the L-shaped supports (403) are slidably arranged in each T-shaped sliding groove (402), the first springs (404) are fixedly connected between the adjacent L-shaped supports (403) and the first fixing plates (401), the sensing rods (405) are fixedly connected to one end of each L-shaped support (403), the right parts of the two induction rods (405) are arranged in a wedge-shaped block mode, the rear upper parts of the two second fixing frames (204) are fixedly connected with wedge-shaped fixing blocks (406), and the wedge-shaped fixing blocks (406) on the same side are matched with the wedge-shaped blocks of the two induction rods (405) to work;

the supporting mechanism comprises an induction plate (5), a first fixed rod (501), a first rotating rod (502), a sixth rotating shaft (503), a second rotating rod (504), a torsion spring (505), a third rotating rod (506), a first fixed block (507), a first n-type sliding rod (508) and a first tension spring (509), wherein two chambers are formed in the first fixed frame (203) at the left part, an arc-shaped groove is formed in the right side wall of the first fixed frame (203) at the left part, the arc-shaped groove in the first fixed frame (203) is communicated with one chamber, the induction plate (5) is arranged in one chamber of the first fixed frame (203) in a sliding manner, the first fixed rod (501) is fixedly connected to the upper end of the induction plate (5), the first fixed rod (501) is positioned at the right side of the first fixed frame (203) at the left part, the first rotating rod (502) is rotatably arranged at the lower part of the first fixed rod (501), the sixth rotating shaft (503) is rotatably arranged at the upper part in the first fixed frame (203) at the left part, the sixth rotating shaft (503) is positioned below the first fixing rod (501), the right end of the sixth rotating shaft (503) is fixedly connected with a second rotating rod (504), the lower part of the second rotating rod (504) is provided with a convex column, the convex column of the second rotating rod (504) is rotatably connected with the lower part of the first rotating rod (502), a torsion spring (505) is fixedly connected between the second rotating rod (504) and the first fixing frame (203) at the left part, the torsion spring (505) is sleeved on the sixth rotating shaft (503), the middle part of the sixth rotating shaft (503) is fixedly connected with a third rotating rod (506), the third rotating rod (506) is positioned in another cavity of the first fixing frame (203) to rotate, the upper part of the third rotating rod (506) is provided with a convex column, the convex column of the third rotating rod (506) is positioned in an arc-shaped groove of the first fixing frame (203), the convex column of the third rotating rod (506) is rotatably connected with the upper part of the second rotating rod (504), a first fixed block (507) is fixedly connected to the right side wall of the upper portion of the first fixed frame (203) at the left portion, a first n-type slide rod (508) is arranged in the first fixed block (507) in a sliding mode, the rear end of the lower portion of the first n-type slide rod (508) is arranged in an inclined plane mode, the upper portion of the first n-type slide rod (508) is matched with the first fixed rod (501) to work, and a first tension spring (509) is fixedly connected between the first fixed block (507) and the first n-type slide rod (508);

the disinfection mechanism comprises a first ultraviolet lamp plate (6), a missing gear (601), a seventh rotating shaft (602), a first straight gear (603), a second fixed block (604), a first sliding rod (605), a second n-shaped sliding rod (606), a third fixed block (607), an eighth rotating shaft (608), a second ultraviolet lamp plate (609) and a second straight gear (610), wherein the first ultraviolet lamp plate (6) is fixedly connected to the inner rear wall of the left part of the wardrobe (1), the missing gear (601) is fixedly connected to the middle part of the cabinet door (101) of the left part, a groove is formed in the left wall of the wardrobe (1), the seventh rotating shaft (602) is fixedly connected to the groove of the wardrobe (1), the first straight gear (603) is rotatably arranged on the seventh rotating shaft (602), the first straight gear (603) is meshed with the teeth of the missing gear (601), the second fixed block (604) is fixedly connected to the inner side wall of the left part of the wardrobe (1), and the first sliding rod (605) is slidably arranged in the second fixed block (604), the front rack of a first sliding rod (605) is arranged, the rack of the first sliding rod (605) is meshed with a first straight gear (603), a second n-type sliding rod (606) is fixedly connected to the rear portion of the first sliding rod (605), the second n-type sliding rod (606) penetrates through the rear wall of the wardrobe (1), the front portion of the second n-type sliding rod (606) is arranged in a rack mode, four third fixing blocks (607) are uniformly and fixedly connected into a left cavity of the wardrobe (1), an eighth rotating shaft (608) is rotatably arranged between every two vertically adjacent third fixing blocks (607), the middle of each eighth rotating shaft (608) is fixedly connected with a second ultraviolet lamp panel (609), the two second ultraviolet lamp panels (609) are symmetrically arranged, the upper portion of each eighth rotating shaft (608) is fixedly connected with a second straight gear (610), the two second straight gears (610) are located above the two second ultraviolet lamp panels (609), and the two second straight gears (610) are respectively meshed with the racks of the adjacent second n-type sliding rods (606).

2. The intelligent wardrobe with disinfection function based on intelligent home as claimed in claim 1, wherein: the upper part and the lower part of the two second fixing frames (204) are arranged in grooves, and the lower surface of each groove of each second fixing frame (204) is provided with a plurality of balls for fixing the movement of the mechanism.

3. The intelligent wardrobe with disinfection function based on intelligent home as claimed in claim 1, wherein: the fixing mechanism comprises a second fixing rod (7), a second sliding rod (701), a second fixing plate (702), a second tension spring (703), a fourth fixing block (704), a third sliding rod (705), a second spring (706), a fifth fixing block (707), a sliding baffle plate (708), a third tension spring (709), a fixing rack (710), a ninth rotating shaft (711), a third spur gear (712), a first rotating plate (713), a second rotating plate (714) and a third fixing rod (715), wherein a plurality of second fixing rods (7) are arranged in a sliding groove formed by the first fixing frame (203) and the second fixing frame (204) in a sliding mode, the plurality of second fixing rods (7) are uniformly divided into an upper layer and a lower layer, the second fixing rod (7) on the upper layer is positioned below the first belt (210) on the upper layer, the second fixing rod (7) on the lower layer is positioned above the first belt (210) on the lower layer, and the middle of each second fixing rod (7) is arranged in a groove, a convex column is arranged in a groove of the second fixed rod (7), two second sliding rods (701) are arranged in the second fixed rod (7) in a sliding manner, the lower ends of the two second sliding rods (701) are both arranged in a wedge-shaped block manner, a second fixed plate (702) is fixedly connected to the upper ends of the two second sliding rods (701), the two ends of the second fixed plate (702) are arranged in a wedge-shaped block manner, two second tension springs (703) are fixedly connected between the second fixed plate (702) and the second fixed rod (7), two fourth fixed blocks (704) are fixedly connected to the lower surface of the second fixed rod (7), a third sliding rod (705) is arranged in each fourth fixed block (704) in a sliding manner, the two third sliding rods (705) are arranged oppositely, the outer ends of the two third sliding rods (705) are arranged in a wedge-shaped block manner, the inner ends of the two third sliding rods (705) are arranged in an arc-shaped rod manner, and the adjacent wedge-shaped blocks of the third sliding rods (705) are matched with the wedge-shaped block of the second sliding rods (701), a second spring (706) is fixedly connected between the adjacent third sliding rod (705) and the fourth fixed block (704), the two second springs (706) are respectively sleeved on the two third sliding rods (705), the front surface of the second fixed rod (7) is fixedly connected with two fifth fixed blocks (707), sliding baffle plates (708) are arranged in the two fifth fixed blocks (707) in a sliding manner, the two sliding baffle plates (708) are arranged oppositely, a convex block is arranged at the front part of each sliding baffle plate (708), the upper parts of the outer sides of the two sliding baffle plates (708) are provided with wedge blocks, the wedge blocks of the two sliding baffle plates (708) are respectively matched with the wedge blocks at the two ends of the second fixed plate (702), a third tension spring (709) is fixedly connected between the convex block on the adjacent sliding baffle plate (708) and the fifth fixed block (707), the lower end of each sliding baffle plate (708) is fixedly connected with a fixed rack (710), and two ninth rotating shafts (711) are rotatably arranged on the second fixed rod (7), two ninth rotating shafts (711) are symmetrically arranged and are positioned at the outer sides of two fifth fixed blocks (707), a third straight gear (712) is fixedly connected to the front part of each ninth rotating shaft (711), the adjacent third straight gears (712) are meshed with the fixed rack (710), a first rotating plate (713) is fixedly connected to the rear end of each ninth rotating shaft (711), a second rotating plate (714) is fixedly connected to the front end of each ninth rotating shaft (711), and a third fixed rod (715) is fixedly connected between the lower parts of the first rotating plate (713) and the second rotating plate (714).

4. The intelligent wardrobe with disinfection function based on intelligent home as claimed in claim 1, wherein: the multifunctional horizontal type mechanical transmission device is characterized by further comprising a flattening mechanism, the lower parts of the two second fixing frames (204) are provided with the flattening mechanism, the flattening mechanism comprises a tenth belt pulley (8), a fourth fixing frame (801), fourth transmission shafts (802), a rotating wheel (803), a fourth straight gear (804), a fifth transmission shaft (805), a fifth straight gear (806), an eleventh belt pulley (807) and a sixth belt (808), the tenth belt pulley (8) is fixedly connected to the right end of a fifth rotating shaft (312) at the right part, the fourth fixing frame (801) is fixedly connected to the rear side walls at the lower parts of the two second fixing frames (204), a plurality of fourth transmission shafts (802) are rotatably arranged in the fourth fixing frame (801), the rotating wheel (803) is fixedly connected to the middle part of each fourth transmission shaft (802), the fourth straight gear (804) is fixedly connected to the right end of each fourth transmission shaft (802), and a fifth transmission shaft (805) is arranged at the lower part of each fourth transmission shaft (802), each fifth transmission shaft (805) is rotatably arranged in the right side wall of the fourth fixed frame (801), a fifth spur gear (806) is fixedly connected to the right end of each fifth transmission shaft (805), the adjacent fifth spur gears (806) are meshed with the fourth spur gear (804), an eleventh belt wheel (807) is fixedly connected to the right end of the fifth transmission shaft (805) at the lowest part, and the eleventh belt wheel (807) is connected with the tenth belt wheel (8) through a sixth belt (808).

5. The intelligent wardrobe with disinfection function based on intelligent home as claimed in claim 4, wherein: four long plates are uniformly arranged on the side wall of each rotating wheel (803) and are used for beating clothes falling down when the rotating wheels (803) rotate, so that the clothes are prevented from being folded and deformed.

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