CN112826235B - Intelligent wardrobe suitable for taking clothes with different heights - Google Patents

Abstract

The embodiment of the invention discloses an intelligent wardrobe suitable for taking clothes with different heights, which comprises a wardrobe, two wardrobe doors arranged in the wardrobe and arranged in a left-right mirror image manner, a rotating deflector rod arranged in the wardrobe, a carrying plate forming a pair of sliding pairs with the wardrobe, and an indexing rotating mechanism arranged at the lower side of the wardrobe door; according to the clothes taking device, the position of the door handle of the wardrobe is stirred by people, the approximate height of a user taking clothes is judged, and then the distance between the power transmission pin and the end wall of the sliding cavity of the power pin is adjusted, so that the time from the opening of the door of the user to the beginning of the descending of the driving carrying plate is adjusted, the carrying plate is adjusted to be lowered to a stop position, the carrying plate is approximately level with the height of the user, the user can take clothes conveniently, meanwhile, the carrying plate is driven to be lowered and raised by the power of the opening and closing of the door of the user, a built-in power source is replaced, and the energy consumption is saved.

Description

Intelligent wardrobe suitable for taking clothes with different heights

Technical Field

The embodiment of the invention relates to the technical field related to intelligent wardrobes, in particular to an intelligent wardrobes suitable for taking clothes with different heights.

Background

The wardrobe is mainly used for storing and containing clothes, and along with the influence of the modern building layer height, some gargles can be manufactured to be the same as the layer height, so that the clothes stored on the upper layer of the wardrobe are inconvenient when taken, people are generally needed to step on the stool to take the clothes on the upper layer of the wardrobe, if the wardrobe is wider, the stool is required to be continuously moved, the difficulty of taking the clothes is increased intangibly, and meanwhile, if the gravity center of the people is unstable in the taking process, the people can fall down from the chair easily, and certain potential safety hazards exist.

Disclosure of Invention

Therefore, the embodiment of the invention provides an intelligent wardrobe suitable for taking clothes with different heights, and solves the problem that the prior higher wardrobe is inconvenient to take upper clothes.

In order to achieve the above object, the embodiments of the present invention provide the following technical solutions:

the intelligent wardrobe suitable for taking clothes with different heights comprises a wardrobe body, two wardrobe doors which are arranged in the wardrobe body and are arranged in a left-right mirror image mode, a rotating deflector rod which is arranged in the wardrobe body, a carrying plate which forms a pair of sliding pairs with the wardrobe body, and an indexing rotating mechanism which is arranged at the lower side of the wardrobe door;

the upper end wall and the lower end wall of the wardrobe door are fixedly provided with wardrobe door rotating shafts extending in the wardrobe, and a pair of revolute pairs are formed between the wardrobe door rotating shafts and the wardrobe;

the wardrobe is characterized in that a bilaterally symmetrical fan-shaped cavity is arranged in the wardrobe, a rotating deflector rod shaft extending upwards into the fan-shaped cavity is rotationally matched with the lower end wall of the fan-shaped cavity, the rotating deflector rod is fixedly connected with the rotating deflector rod shaft, and a pair of sliding pairs are formed between the rotating deflector rod and the fan-shaped cavity.

The novel rotary driving device comprises a fan-shaped cavity, a rotary driving rod, a pulling rope fixing pin, a driving rotary block cavity and a semi-arc cavity, wherein the arc cavity is communicated with the upper side of the fan-shaped cavity, the pulling rope fixing pin extends upwards into the arc cavity is fixed on the upper end face of the rotary driving rod, the driving rotary block cavity is communicated with the upper side of the fan-shaped cavity and is located at the front side of the arc cavity, and the semi-arc cavity with an upward opening is arranged in the rotary driving rod.

The cross section of the sector cavity is a quarter circle, the cross section of the arc cavity is a quarter arc, and the cross section of the semi-arc cavity of the deflector rod is a semi-arc taking the rotary deflector rod shaft as a circle center.

The wardrobe door is characterized in that an amplifying deflector rod cavity is arranged in the wardrobe door, an identification rod cavity is arranged on the upper side of the amplifying deflector rod cavity in a communicating mode, four handle rotating cavities which are distributed at equal intervals up and down and are forward in opening are arranged on the right side of the identification rod cavity, a wardrobe door handle is hinged in the handle rotating cavities, a handle spring is fixed between the rear end face of the wardrobe door handle and the rear end wall of the handle rotating cavity, a push rod which extends backwards to the inner side of the identification rod cavity and extends forwards to the handle rotating cavity and is in butt joint with the rear end face of the wardrobe door handle is arranged in the rear end wall of the handle rotating cavity in a sliding mode, a handle identification rotating rod which extends upwards to the inner side of the identification rod cavity and is in butt joint with the rear end face of the push rod is hinged in the handle rotating cavity, a reset spring is fixed between the rear end face of the handle identification rotating rod and the rear end wall of the handle rotating rod, the upper end of the angle amplifying deflector rod is connected with the rear end of the handle rotating rod through a hinge, and the left handle is provided with a left handle and right handle and a left handle and a right handle and a right handle and are respectively connected in a friction piece and a friction piece.

The wardrobe is characterized in that two slide block cavities which are bilaterally symmetrical and are inward in opening are arranged in the wardrobe, two slide blocks which extend to the slide block cavities in the direction of the slide block cavities and form a pair of sliding pairs with the slide block cavities are fixed on the left end face and the right end face of the object carrying plate, a transmission belt cavity is arranged on the lower side of the slide block cavity, a driving wire wheel cavity is arranged on the lower side of the transmission belt cavity, a wire rod shaft which extends downwards to penetrate through the slide block cavity to the transmission belt cavity is rotationally matched with the upper end wall of the slide block cavity, a pair of sliding pairs is formed between the wire rod shaft and the slide block, the driving wire wheel shaft which extends upwards to the inside of the transmission belt cavity is rotationally matched with the lower end wall of the transmission belt cavity, a driving wire wheel is connected with the transmission belt in a power fit mode between the driving wire wheel shaft and the left side and the right side of the transmission belt cavity, and a reset torsion spring is fixed between the lower end face of the driving wire wheel shaft and the lower end wall of the driving wire shaft.

The left power stay rope is fixed on the right side face of the stay rope fixing pin, the right power stay rope is fixed on the left side face of the stay rope fixing pin, and the other ends of the left power stay rope and the right power stay rope are fixedly connected with the outer circular face of the driving wire wheel.

The indexing rotating mechanism comprises a driving rotating block arranged in a cavity of the driving rotating block, the driving rotating block is fixedly connected with the lower end face of the rotating shaft of the wardrobe door, a worm gear cavity is formed in the upper side of the rotating shaft of the wardrobe door, a power pin sliding cavity which is downward in opening and corresponds to the semi-arc cavity of the deflector rod is arranged in the driving rotating block, a worm shaft is arranged on the front side of the power pin sliding cavity in a communicating mode, the worm shaft and the worm shaft are in upward extending fit with a worm shaft in the worm gear cavity in a rotating mode, a connecting rod sliding cavity which is in sliding fit with the worm shaft and is outwards extended into the power pin sliding cavity is arranged on the worm shaft in the lower side of the worm gear, a power transmission pin which is downward extended into the semi-arc cavity of the deflector rod and is in sliding fit with the power pin cavity is arranged at the tail end of the upper side of the worm shaft, a worm wire cavity is arranged on the rear side of the worm shaft, a worm wheel shaft is in front end wall of the worm wheel cavity in a rotating mode, the worm wheel is in front of the worm shaft is in sliding fit with a worm shaft, and is in front of a worm shaft and a torsion spring, and is in front of a worm and a worm shaft and a worm shaft.

The cross section of the power pin sliding cavity is a semicircular arc which is equal to the semicircular arc cavity of the deflector rod and takes the worm wheel shaft as a circle center, and the cross section of the worm wheel shaft is a semicircular shape taking the worm wheel shaft as a circle center.

The front end face of the angle amplification deflector rod is fixedly provided with a deflector rod pull rope positioned at the tail end of the lower side of the angle amplification deflector rod, and the other end of the deflector rod pull rope is fixedly connected with the outer circular face of the worm transmission line wheel.

Embodiments of the present invention have the following advantages:

according to the clothes taking device, the position of the door handle of the wardrobe is stirred by people, the approximate height of a user taking clothes is judged, and then the distance between the power transmission pin and the end wall of the sliding cavity of the power pin is adjusted, so that the time from the opening of the door of the user to the beginning of the descending of the driving carrying plate is adjusted, the carrying plate is adjusted to be lowered to a stop position, the carrying plate is approximately level with the height of the user, the user can take clothes conveniently, meanwhile, the carrying plate is driven to be lowered and raised by the power of the opening and closing of the door of the user, a built-in power source is replaced, and the energy consumption is saved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the invention or of the prior art, the drawings used in the description of the embodiments or of the prior art will be briefly described below. It will be apparent to those of ordinary skill in the art that the drawings in the following description are exemplary only and that other implementations can be obtained from the extensions of the drawings provided without inventive effort.

The structures, proportions, sizes, etc. shown in the present specification are shown only for the purposes of illustration and description, and are not intended to limit the scope of the invention, which is defined by the claims, so that any structural modifications, changes in proportions, or adjustments of sizes, which do not affect the efficacy or the objects of the invention, are deemed to fall within the ambit of the technical disclosure.

Fig. 1 is a schematic diagram of the whole structure of an intelligent wardrobe suitable for taking clothes with different heights in an embodiment of the invention.

FIG. 2 is a schematic cross-sectional view of the structure in the direction A-A in FIG. 1.

FIG. 3 is a schematic cross-sectional view of the structure in the direction B-B in FIG. 2.

Fig. 4 is an enlarged schematic view of the structure at C in fig. 3.

FIG. 5 is a schematic cross-sectional view of the structure in the direction D-D in FIG. 4.

FIG. 6 is a schematic cross-sectional view of the structure in the direction E-E in FIG. 5.

FIG. 7 is a schematic cross-sectional view of the F-F structure of FIG. 1.

Fig. 8 is an enlarged schematic view of the structure at G in fig. 1.

Fig. 9 is an enlarged schematic view of the structure at H in fig. 6.

Fig. 10 is an enlarged schematic view of the structure at I in fig. 7.

FIG. 11 is a schematic sectional view of the J-J direction structure of FIG. 8.

FIG. 12 is a schematic cross-sectional view of the structure in the direction K-K of FIG. 8.

FIG. 13 is an overall three-dimensional schematic view of an intelligent wardrobe suitable for taking clothes with different heights in an embodiment of the invention.

Fig. 14 is a schematic view showing the power transmission pin 66 positioned in the power pin sliding cavity 67 and the semi-arc-shaped cavity 32 of the shift lever in different positions in the working state of an intelligent wardrobe suitable for taking clothes with different heights in an embodiment of the invention.

Detailed Description

Other advantages and advantages of the present invention will become apparent to those skilled in the art from the following description, which is to be read in connection with the accompanying drawings, wherein like reference numerals indicate like elements throughout the several views. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1-14, the present invention provides an intelligent clothes cabinet suitable for taking clothes with different heights, comprising a clothes cabinet 10, two cabinet doors 20 arranged in the clothes cabinet 10 and arranged in a left-right mirror image, a rotary deflector rod 30 arranged in the clothes cabinet 10, a carrying plate 40 forming a pair of sliding pairs with the clothes cabinet 10, and an indexing rotary mechanism arranged at the lower side of the cabinet doors 20;

the upper and lower end walls of the wardrobe door 20 are fixed to a wardrobe door rotating shaft 61 extending in the wardrobe 10, and a pair of revolute pairs are formed between the wardrobe door rotating shaft 61 and the wardrobe 10;

the wardrobe 10 is internally provided with a bilaterally symmetrical fan-shaped cavity 11, a rotary poking rod shaft 31 extending upwards into the fan-shaped cavity 11 is rotationally matched with the lower end wall of the fan-shaped cavity 11, the rotary poking rod 30 is fixedly connected with the rotary poking rod shaft 31, and a pair of sliding pairs are formed between the rotary poking rod 30 and the fan-shaped cavity 11.

The upper side of the fan-shaped cavity 11 is communicated with an arc-shaped cavity 34, a stay cord fixing pin 33 extending upwards into the arc-shaped cavity 34 is fixed on the upper end face of the rotary deflector rod 30, an active rotating block cavity 35 positioned at the front side of the arc-shaped cavity 34 is communicated with the upper side of the fan-shaped cavity 11, and a deflector rod semi-arc-shaped cavity 32 with an upward opening is arranged in the rotary deflector rod 30.

The cross section of the fan-shaped cavity 11 is a quarter circle, the cross section of the arc-shaped cavity 34 is a quarter arc, and the cross section of the deflector rod semi-arc-shaped cavity 32 is a semi-arc taking the rotary deflector rod shaft 31 as a circle center.

The wardrobe door 20 is internally provided with an amplifying deflector rod cavity 23, the upper side of the amplifying deflector rod cavity 23 is communicated with an identifying rod cavity 24, the right side of the identifying rod cavity 24 is provided with four handle rotating cavities 28 which are distributed at equal intervals up and down and are provided with forward openings, a wardrobe door handle 210 is hinged in the handle rotating cavities 28, a handle spring 29 is fixed between the rear end face of the wardrobe door handle 210 and the rear end wall of the handle rotating cavities 28, a push rod 27 which extends backwards into the identifying rod cavity 24 and forwards extends into the handle rotating cavities 28 and is in butt joint with the rear end face of the wardrobe door handle 210 is arranged in the amplifying deflector rod cavity 23 in a sliding mode, a handle identifying deflector rod 25 which extends upwards into the identifying rod cavity 24 and is in butt joint with the rear end face of the push rod 27 is hinged in the amplifying deflector rod cavity 23, a reset spring 26 is fixed between the rear end face of the handle identifying deflector rod 25 and the rear end wall of the identifying rod 24, an angle deflector rod 21 positioned at the lower side of the handle identifying deflector rod 25 is hinged in the amplifying deflector rod cavity 23, and the upper end of the angle deflector rod 21 is connected with the right end wall 210 and the right end wall of the wardrobe door handle 20 in butt joint with the left end wall 20 respectively.

The wardrobe 10 is internally provided with two slide block cavities 42 which are bilaterally symmetrical and are internally provided with an opening, the left end face and the right end face of the object carrying plate 40 are respectively fixedly provided with two slide blocks 48 which extend into the slide block cavities 42 and form a pair of slide pairs with the slide block cavities 42, the lower side of the slide block cavities 42 is provided with a transmission belt cavity 46, the lower side of the transmission belt cavity 46 is provided with a driving wire wheel cavity 43, the upper end wall of the slide block cavity 42 is rotationally matched with a screw rod shaft 41 which extends downwards to penetrate through the slide block cavity 42 into the transmission belt cavity 46, a pair of slide pairs are formed between the screw rod shaft 41 and the slide blocks 48, the lower end wall of the transmission belt cavity 46 is rotationally matched with a driving wire wheel shaft 49 which extends downwards into the driving wire wheel cavity 43 and extends upwards into the transmission belt cavity 46, a transmission belt 47 is connected between the driving wire wheel shaft 49 and the left side and the right side of the screw rod shaft 41 in a power fit mode, the lower end of the driving wire wheel shaft 49 is fixedly provided with a driving wire wheel 44, and the lower end face of the driving wire wheel shaft 49 is fixedly provided with a torsion spring 45 between the lower end wall of the driving wire shaft 49 and the lower end wall of the driving wire cavity 45.

A left power pull rope 53 is fixed on the right side surface of the pull rope fixing pin 33 on the left side, a right power pull rope 56 is fixed on the left side surface of the pull rope fixing pin 33 on the right side, and the other ends of the left power pull rope 53 and the right power pull rope 56 are fixedly connected with the outer circular surface of the driving wire wheel 44.

The indexing rotating mechanism comprises an active rotating block 60 arranged in the active rotating block cavity 35, the active rotating block 60 is fixedly connected with the lower end face of the wardrobe door rotating shaft 61 at the lower side, a worm gear cavity 63 is arranged at the upper side of the wardrobe door rotating shaft 61 at the lower side, a power pin sliding cavity 67 which is downward opened and corresponds to the deflector rod semi-arc cavity 32 is arranged in the active rotating block 60, a worm shaft 68 is communicated with the front side of the power pin sliding cavity 67, a worm shaft 65 which extends upwards to penetrate through the worm shaft 68 and is in rotary fit with the lower end wall of the worm shaft 68 at the lower side, a connecting rod sliding cavity 611 which is in sliding fit with the worm shaft 68 and extends outwards to the power pin sliding cavity 67 is arranged on the worm shaft 65, the outer end of the connecting rod sliding cavity 611 is fixedly provided with a power transmission pin 66 which extends downwards into the deflector rod semi-arc cavity 32 and is in sliding fit with the power pin sliding cavity 67, the upper end of the worm wheel shaft 65 is fixedly provided with a worm wheel 62, the rear side of the worm wheel shaft 63 is provided with a worm wire wheel cavity 69, the front end wall of the worm wire wheel cavity 69 is rotatably matched with a worm shaft 68 which extends backwards into the worm wire wheel cavity 69 and extends forwards into the worm wheel 62, the front end of the worm shaft 68 is fixedly provided with a worm 64 which is meshed with the worm wheel cavity 63, the rear end of the worm shaft 68 is fixedly provided with a worm transmission wire wheel 610, and a wire wheel reset torsion spring 612 is fixedly arranged between the rear end face of the worm shaft 68 and the rear end wall of the worm wire wheel cavity 69.

The cross section of the power pin sliding cavity 67 is a semicircular arc which is equal to the semi-arc cavity 32 of the shift lever and takes the worm wheel shaft 65 as a center, and the cross section of the worm shaft 68 is a semicircular shape taking the worm wheel shaft 65 as a center.

The front end surface of the angle amplification deflector rod 21 is fixed with a deflector rod pull rope 22 positioned at the tail end of the lower side of the angle amplification deflector rod 21, and the other end of the deflector rod pull rope 22 is fixedly connected with the outer circular surface of the worm transmission line wheel 610.

When the invention is used, in an initial state, the wardrobe door 20 is in a closed state, the left rotary deflector rod 30 is attached to the left end wall of the fan-shaped cavity 11, the right rotary deflector rod 30 is attached to the right end wall of the fan-shaped cavity 11, the upper end surface of the sliding block 48 is attached to the upper end wall of the sliding block cavity 42, the reset torsion spring 45 is in a loosening state, the left power pull rope 53 and the right power pull rope 56 are in a tightening state, the left pull rope fixing pin 33 is attached to the left end wall of the left arc-shaped cavity 34, the right pull rope fixing pin 33 is attached to the right end wall of the right arc-shaped cavity 34, the reset spring 26 is in a loosening state, the handle identification rotating rod 25 and the angle amplification deflector rod 21 are in a vertical state, the deflector rod pull rope 22 is in a tightening state, the wardrobe door handle 210 is in a vertical state, the handle spring 29 is in a loosening state, and the front end surfaces of the power transmission pins 66 are in abutting connection with the power pin sliding cavity 67 and the left front end wall of the deflector rod semi-arc-shaped cavity 32 (as shown by K1-1 and K1-2 in FIG. 14).

When a user takes clothes, the thumb presses the upper end of the door handle 210, so that the upper end of the door handle 210 rotates backward, the lower end of the door handle 210 rotates forward, the handle spring 29 compresses, the upper end of the door handle 210 drives the push rod 27 to move backward, the handle recognition rotating rod 25 rotates backward around the hinge point, the return spring 26 compresses, the lower end of the handle recognition rotating rod 25 rotates forward, the upper end of the angle amplifying deflector 21 rotates forward, the lower end of the angle amplifying deflector 21 rotates backward, the deflector pull rope 22 is pulled, the worm transmission wire wheel 610 rotates, the worm shaft 68 rotates, the wire wheel return torsion spring 612 rotates to store force, the worm shaft 68 rotates to drive the worm 64, the worm wheel 62 rotates, the worm shaft 65 rotates, the connecting rod sliding cavity 611 rotates around the worm shaft 65, the power transmission pin 66 rotates around the worm shaft 65, and the power transmission pin 66 moves away from the power transmission pin sliding cavity 67 and the left end wall 32 (as shown in fig. 14-2K 2-2).

At this time, the user just starts to open the wardrobe door 20, so that the wardrobe door 20 rotates around the wardrobe door rotating shaft 61, and drives the active rotating block 60 to rotate, and because the worm 64 stops rotating, the worm wheel 62 cannot rotate reversely under the self-locking effect between the worm wheel 62 and the worm 64, the power transmission pin 66 cannot rotate freely around the worm wheel shaft 65, and thus the power transmission pin 66 rotates together with the active rotating block 60.

When the power transmission pin 66 contacts the front end wall on the right side of the semi-arc cavity 32 of the shift lever (as shown in K3-1 and K3-2 in fig. 14), the power transmission pin 66 drives the rotation shift lever 30 to rotate around the rotation shift lever shaft 31, so that the left and right pull rope fixing pins 33 rotate around the rotation shift lever shaft 31 to face each other, and the right power pull rope 56 and the left power pull rope 53 are pulled at the same time, so that the main wire wheel 44 rotates, the main wire wheel shaft 49 rotates, and the reset torsion spring 45 is twisted tightly, and at the moment, the main wire wheel shaft 49 rotates to drive the left and right screw shafts 41 to rotate through the transmission belt 47, so that the left and right side sliding blocks 48 simultaneously move downwards, so that the carrier plate 40 is driven to move downwards to the front of a user, and the user can take clothes conveniently.

Due to the friction between the handle friction blocks 211 and the door handle 210, the door handle 210 remains in a forward extended position when the user's hands are moved away from the door handle 210, so that the power transmission pin 66 remains in the current position within the power pin sliding cavity 67, and so that the power transmission pin 66 remains in a position abutting the right front wall of the lever semi-arc cavity 32 (as shown by K3-1, K3-2 in fig. 14).

Because the friction force between the upper wardrobe door rotating shaft 61 and the wardrobe 10 is greater than the torsion force of the reset torsion spring 45, the reset torsion spring 45 can be used for taking out the clothesTwisting deviceThe force is insufficient to reverse the closing of the chest door 20 so that the chest door 20 is secured in the open position while the carrier plate 40 remains in the current position when the user's hands are clear of the chest door 20.

When the user takes out the clothes, the wardrobe door 20 is closed, so that the wardrobe door 20 drives the active rotating block 60 to rotate reversely, the power transmission pin 66 rotates reversely to be far away from the front end face of the left side of the semi-arc cavity 32 of the deflector rod (shown as K4-1 and K4-2 in fig. 14), the rotating deflector rod 30 can move freely, the main wire wheel shaft 49 rotates reversely under the torsion action of the reset torsion spring 45, and the object carrying plate 40 is driven to be lifted to the initial position.

At the same time, the main line wheel shaft 49 rotates reversely to drive the main line wheel 44 to rotate reversely, so that the left power stay 53 and the right power stay 56 are pulled, and the stay fixing pin 33 rotates reversely to the initial position.

When the wardrobe door 20 is closed, the lower end of the wardrobe door handle 210 is pressed to restore the initial state, the push force of the push rod 27 is lost by the handle recognition rotating rod 25, the handle recognition rotating rod 25 is reversed to the initial state under the elastic force of the reset spring 26, the angle amplification driving rod 21 is reversed to the initial state, the driving rod pulling rope 22 is loosened, the worm shaft 68 is reversed under the torsion force of the wire wheel reset torsion spring 612, the worm 64 is reversed, and the power transmission pin 66 is driven to be reversed to the initial position.

When a user with different heights opens the chest door 20, the chest door handle 210 at different positions is stirred, as the distance of backward movement of the push rod 27 when the chest door handle 210 is stirred is the same, when the push rod 27 at different positions pushes the handle recognition rotary rod 25 to rotate backward, the rotation angle of the handle recognition rotary rod 25 is different, the forward rotation angle of the angle amplification deflector 21 is different, the rotating radian of the tail end of the lower side of the angle amplification deflector 21 is different, the rotation number of turns of the worm transmission line wheel 610 is different by pulling the deflector pull rope 22, the rotation angle of the power transmission pin 66 by taking the worm shaft 65 as the center is different, the time from the start of the rotation of the power transmission pin 66 to the touch of the rotary deflector 30 is different, and when the chest door 20 is used under the condition of starting to completely open the rotation angle, the rotation angle of the rotary deflector 30 is different, the object carrying plate 40 is different from the start to the stop of the fall, the object carrying plate 40 is convenient to stop the position of the user with different heights according to the fact that the different positions of the chest door handle 40 is stopped, and the user has different heights can take the object carrying plate 40 is convenient to take different positions.

When the user is inconvenient to access clothes with both hands, if the user opens the left wardrobe door 20 first, the left wardrobe door 20 drives the left pull rope fixing pin 33 to rotate forward with the left rotation poking rod shaft 31 as the center, so that the left power pull rope 53 is pulled to rotate the main wire wheel 44, the reset torsion spring 45 is twisted, the main wire wheel 44 rotates to drive the carrying plate 40 to descend, meanwhile, the right power pull rope 56 is loosened when the main wire wheel 44 rotates, at the same time, the right wardrobe door 20 is opened again, so that the right pull rope fixing pin 33 rotates forward with the right rotation poking rod shaft 31 as the center, the right power pull rope 56 is pulled, the right power pull rope 56 is tightened, and the rest movement process is the same as the movement process.

If the user opens the right chest door 20 first, the movement process is opposite to the movement process of opening the left chest door 20 first, and the rest movement processes are the same as the movement processes.

While the invention has been described in detail in the foregoing general description and specific examples, it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, such modifications or improvements may be made without departing from the spirit of the invention and are intended to be within the scope of the invention as claimed.

Claims (1)

1. An intelligent wardrobe suitable for different heights clothing of taking, its characterized in that: the clothes rack comprises a clothes rack (10), two clothes rack doors (20) which are arranged in the clothes rack (10) and are arranged in a left-right mirror image mode, a rotary deflector rod (30) which is arranged in the clothes rack (10), a carrying plate (40) which forms a pair of sliding pairs with the clothes rack (10), and an indexing rotating mechanism which is arranged at the lower side of the clothes rack door (20); the upper end wall and the lower end wall of the wardrobe door (20) are fixed on a wardrobe door rotating shaft (61) extending in the wardrobe (10), and a pair of revolute pairs are formed between the wardrobe door rotating shaft (61) and the wardrobe (10); a bilaterally symmetrical fan-shaped cavity (11) is arranged in the wardrobe (10), a rotary poking rod shaft (31) extending upwards into the fan-shaped cavity (11) is rotationally matched with the lower end wall of the fan-shaped cavity (11), the rotary poking rod (30) is fixedly connected with the rotary poking rod shaft (31), and a pair of sliding pairs are formed between the rotary poking rod (30) and the fan-shaped cavity (11); an arc-shaped cavity (34) is communicated with the upper side of the fan-shaped cavity (11), a stay rope fixing pin (33) extending upwards into the arc-shaped cavity (34) is fixed on the upper end face of the rotary deflector rod (30), an active rotary block cavity (35) positioned at the front side of the arc-shaped cavity (34) is communicated with the upper side of the fan-shaped cavity (11), and a deflector rod semi-arc-shaped cavity (32) with an upward opening is arranged in the rotary deflector rod (30); the cross section of the sector cavity (11) is a quarter circle, the cross section of the arc cavity (34) is a quarter circular arc, and the cross section of the deflector rod semi-arc cavity (32) is a semi-circular arc taking the rotary deflector rod shaft (31) as a circle center; an amplifying deflector rod cavity (23) is arranged in the wardrobe door (20), an identifying rod cavity (24) is communicated with the upper side of the amplifying deflector rod cavity (23), four handle rotating cavities (28) which are distributed at equal intervals up and down and are open forward are arranged on the right side of the identifying rod cavity (24), a wardrobe door handle (210) is hinged in the handle rotating cavities (28), a handle spring (29) is fixed between the rear end face of the wardrobe door handle (210) and the rear end wall of the handle rotating cavity (28), a push rod (27) which extends backwards into the identifying rod cavity (24) and forwards extends into the handle rotating cavity (28) and is in butt joint with the rear end face of the wardrobe door handle (210) is arranged in the amplifying deflector rod cavity (23), a handle identifying rotating rod (25) which extends upwards into the identifying rod cavity (24) and is in butt joint with the rear end face of the push rod (27) is hinged in the amplifying deflector rod cavity (23), a reset spring (29) is fixed between the rear end face of the handle identifying rotating rod (25) and the rear end wall (24), the amplifying deflector rod (21) is connected with the amplifying deflector rod at an angle through the lower side hinge, handle friction blocks (211) fixedly connected with the wardrobe door (20) and respectively abutted against the left end wall and the right end wall of the wardrobe door handle (210) are arranged on the left side and the right side of the wardrobe door handle (210); two slide blocks (48) which extend into the slide block cavity (42) in the direction of the slide block cavity (42) and form a pair of sliding pairs with the slide block cavity (42) are fixed on the left end face and the right end face of the object carrying plate (40), a driving belt cavity (46) is arranged on the lower side of the slide block cavity (42), a driving wire wheel cavity (43) is arranged on the lower side of the driving belt cavity (46), a wire rod (41) which extends downwards to penetrate through the slide block cavity (42) to the inside of the driving belt cavity (46) is rotationally matched with the upper end wall of the slide block cavity (42), a pair of sliding pairs are formed between the wire rod shaft (41) and the slide block (48), a driving wire (49) which extends downwards to the inside of the driving wire wheel cavity (43) and extends upwards to the inside of the driving belt cavity (46) is rotationally matched with the lower end wall of the driving wire cavity, a driving wire shaft (49) is rotationally matched with the driving wire shaft (49), and the driving wire shaft (45) is fixedly connected with the end face of the driving wire shaft (45) between the driving wire shaft (49) and the lower end face of the driving wire shaft (45); a left power stay rope (53) is fixed on the right side surface of the stay rope fixing pin (33), a right power stay rope (56) is fixed on the left side surface of the stay rope fixing pin (33) on the right side, and the other ends of the left power stay rope (53) and the right power stay rope (56) are fixedly connected with the outer circular surface of the driving wire wheel (44); the indexing rotating mechanism comprises an active rotating block (60) arranged in an active rotating block cavity (35), the active rotating block (60) is fixedly connected with the lower end face of a wardrobe door rotating shaft (61) at the lower side, a worm gear cavity (63) is arranged on the upper side of the wardrobe door rotating shaft (61), a power pin sliding cavity (67) which is downward opened and corresponds to the semi-arc-shaped cavity (32) of the deflector rod is arranged in the active rotating block (60), a worm shaft (68) is communicated with the front side of the power pin sliding cavity (67), a worm wheel shaft (68) is rotationally matched with the lower end wall of the worm shaft (68) and extends upwards to penetrate through the worm shaft (68) and a worm wheel shaft (65) which is arranged in the worm gear cavity (63) at the lower side, a connecting rod sliding cavity (611) which is in sliding fit with the worm shaft (68) and extends outwards into the power pin sliding cavity (67) is arranged on the worm wheel shaft (65), the tail end of the connecting rod sliding cavity (611) is fixedly provided with a worm gear shaft (68) which extends downwards to the tail end of the power pin sliding cavity (67) and is fixedly arranged on the tail end of the power pin (65) of the power pin sliding cavity (67), a worm shaft (68) extending backwards into the worm wheel cavity (69) and extending forwards into the worm wheel (62) is rotationally matched with the front end wall of the worm wheel cavity (69), a worm (64) meshed with the worm wheel cavity (63) is fixed at the tail end of the front side of the worm shaft (68), a worm transmission wire wheel (610) is fixed at the tail end of the rear side of the worm shaft (68), and a wire wheel reset torsion spring (612) is fixed between the rear end surface of the worm shaft (68) and the rear end wall of the worm wire wheel cavity (69); the cross section of the power pin sliding cavity (67) is a semicircular arc which is equal to the semicircular cavity (32) of the deflector rod and takes the worm wheel shaft (65) as a circle center, and the cross section of the worm shaft (68) is a semicircle which takes the worm wheel shaft (65) as a circle center; the front end face of the angle amplification deflector rod (21) is fixedly provided with a deflector rod pull rope (22) positioned at the tail end of the lower side of the angle amplification deflector rod (21), and the other end of the deflector rod pull rope (22) is fixedly connected with the outer circular face of the worm transmission line wheel (610).

Images