CN112826235A

CN112826235A - Intelligent wardrobe suitable for clothes taken by different heights

Info

Publication number: CN112826235A
Application number: CN202110374404.7A
Authority: CN
Inventors: 陆红
Original assignee: Shenzhen Ruihongkang Trading Co ltd
Current assignee: Foshan Weilaijia Smart Home Co ltd
Priority date: 2021-04-07
Filing date: 2021-04-07
Publication date: 2021-05-25
Anticipated expiration: 2041-04-07
Also published as: CN112826235B

Abstract

The embodiment of the invention discloses an intelligent wardrobe suitable for taking clothes of different heights, which comprises a wardrobe, two wardrobe doors, a rotating driving lever, a carrying plate and an indexing and rotating mechanism, wherein the wardrobe doors are arranged in the wardrobe and are arranged in a left mirror image and a right mirror image; according to the invention, the approximate height of a person taking clothes is judged by poking the door handle of the wardrobe by people, and then the distance between the power transmission pin and the end wall of the power pin sliding cavity is adjusted, so that the time from the opening of a door of the user to the driving of the object carrying plate to start descending is adjusted, the object carrying plate is adjusted to descend to the stop position and is approximately flush with the height of the user, the clothes are greatly convenient for the user to take the clothes, and meanwhile, the power for opening and closing the door of the user is utilized to drive the object carrying plate to descend and ascend, so that a built-in.

Description

Intelligent wardrobe suitable for clothes taken by different heights

Technical Field

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

Background

Wardrobe mainly used deposits and accomodates the clothing, along with the influence of modern building floor height, some wardrobes also can make with the floor height the same, this clothing of just making to deposit in the wardrobe upper strata is very inconvenient when taking, generally all needs people to step on the stool to take wardrobe upper strata clothing, if the removal stool that the wardrobe broad then need not stop, this intangible degree of difficulty that has increased the clothing of taking has increased, if people's focus is unstable very easily tumbled from the chair in the in-process of taking simultaneously, there is certain potential safety hazard.

Disclosure of Invention

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

In order to achieve the above object, an embodiment of the present invention provides the following:

an intelligent wardrobe suitable for taking clothes of different heights comprises a wardrobe, two wardrobe doors, a rotating deflector rod, a carrying plate and an indexing and rotating mechanism, wherein the wardrobe doors are arranged in the wardrobe and are arranged in a left mirror image and a right mirror image;

the upper end wall and the lower end wall of the wardrobe door are both fixed with wardrobe door rotating shafts extending into the wardrobe, and a pair of rotating pairs is formed between the wardrobe door rotating shafts and the wardrobe;

the wardrobe is characterized in that fan-shaped cavities which are bilaterally symmetrical are arranged in the wardrobe, a rotating shift lever shaft which extends upwards into the fan-shaped cavities is matched in the lower end wall of each fan-shaped cavity in a rotating mode, the rotating shift lever is fixedly connected with the rotating shift lever shaft, and a pair of sliding pairs is formed between the rotating shift lever and the fan-shaped cavities.

The sector cavity upside intercommunication is equipped with the arc chamber, it is fixed with upwards to extend to rotate the driving lever up end stay cord fixed pin in the arc chamber, sector cavity upside intercommunication is equipped with and is located the initiative turning block chamber of arc chamber front side, be equipped with the ascending driving lever semi-arc chamber of opening in the rotation driving lever.

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 deflector rod semi-arc cavity is a semi-arc taking the rotary deflector rod shaft as a circle center.

Wherein an amplifying deflector rod cavity is arranged in the wardrobe door, an identification rod cavity is communicated with the upper side of the amplifying deflector rod cavity, four handle rotating cavities which are distributed at equal intervals up and down and have forward openings are arranged on the right side of the identification rod cavity, a wardrobe door handle is hinged in the handle rotating cavity, a handle spring is fixed between the rear end surface of the wardrobe door handle and the rear end wall of the handle rotating cavity, a handle identifying rotating rod which extends backwards into the identification rod cavity, extends forwards into the handle rotating cavity and is abutted against the rear end surface of the wardrobe door handle is hinged in the handle rotating cavity, a handle identifying rotating rod which extends upwards into the identification rod cavity and is abutted against the rear end surface of the pushing rod is hinged in the amplifying deflector rod cavity, a reset spring is fixed between the rear end surface of the handle identifying rotating rod and the rear end wall of the identification rod cavity, and an angle amplifying deflector rod which is positioned on the lower side of the handle identifying rotating rod is hinged in the, the upper end of the angle amplification driving lever is connected with the lower end of the handle identification rotating rod through a hinge, and handle friction blocks which are fixedly connected with the wardrobe door and are respectively abutted against the left end wall and the right end wall of the wardrobe door handle are arranged on the left side and the right side of the wardrobe door handle.

Wherein, two bilaterally symmetrical slider cavities with inward openings are arranged in the wardrobe, two sliders which extend into the slider cavities towards the direction of the slider cavities and form a pair of sliding pairs with the slider cavities are fixed on the left and right end faces of the object carrying plate, a transmission belt cavity is arranged on the lower side of the slider cavity, an active reel cavity is arranged on the lower side of the transmission belt cavity, a lead screw shaft which extends downwards to penetrate through the slider cavity into the transmission belt cavity is rotationally matched on the upper end wall of the slider cavity, a pair of sliding pairs are formed between the lead screw shaft and the slider, an active reel shaft which extends downwards to the active reel cavity and extends upwards into the transmission belt cavity is rotationally matched on the lower end wall of the transmission belt cavity, a transmission belt is connected between the active reel shaft and the lead screw shafts on the left and right sides in a power matching manner, and an active reel is fixed on the lower, and a reset torsion spring is fixed between the lower end surface of the driving reel shaft and the lower end wall of the driving reel cavity.

The left side is fixed with left power stay cord on the stay cord fixed pin right flank, the right side be fixed with right power stay cord on the stay cord fixed pin left surface, left power stay cord, right power stay cord other end all with the outer disc fixed connection of initiative line wheel.

Wherein the indexing rotation mechanism comprises a driving rotation block arranged in the driving rotation block cavity, the driving rotation block is fixedly connected with the lower side of the lower end face of the rotating shaft of the wardrobe door, a worm gear cavity is arranged at the upper side of the rotating shaft of the wardrobe door at the lower side, a power pin sliding cavity with a downward opening and corresponding to the semi-arc cavity of the shift lever is arranged in the driving rotation block, the front side of the power pin sliding cavity is communicated with a worm shaft, a worm shaft is rotatably matched with the lower end wall of the worm shaft and extends upwards to penetrate through the worm shaft and the lower side of the rotating shaft of the wardrobe door to the worm gear cavity, a connecting rod sliding cavity which is in sliding fit with the worm shaft and extends outwards to the power pin sliding cavity is arranged on the worm gear shaft, and a power transmission pin which extends downwards to the semi-arc cavity of the shift lever and is in sliding fit with the power pin sliding cavity is fixed, the worm gear is fixed at the tail end of the upper side of the worm gear shaft, a worm gear line wheel cavity is arranged at the rear side of the worm gear line wheel cavity, a worm shaft which extends backwards into the worm gear line wheel cavity and extends forwards into the worm gear is matched in the front end wall of the worm gear line wheel cavity in a rotating mode, a worm which is meshed with the worm gear line wheel cavity is fixed at the tail end of the front side of the worm shaft, a worm transmission line wheel is fixed at the tail end of the rear side of the worm shaft, and a worm gear reset torsion spring is fixed between the rear end face of the worm shaft and the rear end wall of the worm gear line wheel cavity.

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

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 surface of the worm transmission line wheel.

The embodiment of the invention has the following advantages:

according to the invention, the approximate height of a person taking clothes is judged by poking the door handle of the wardrobe by people, and then the distance between the power transmission pin and the end wall of the power pin sliding cavity is adjusted, so that the time from the opening of a door of the user to the driving of the object carrying plate to start descending is adjusted, the object carrying plate is adjusted to descend to the stop position and is approximately flush with the height of the user, the clothes are greatly convenient for the user to take the clothes, and meanwhile, the power for opening and closing the door of the user is utilized to drive the object carrying plate to descend and ascend, so that a built-in.

Drawings

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

The structures, ratios, sizes, and the like shown in the specification are only used for matching with the contents disclosed in the specification, so that those skilled in the art can understand and read the invention, and do not limit the limit conditions of the invention, so that the invention has no technical essence, and any structural modification, ratio relationship change or size adjustment should still fall within the scope of the technical contents disclosed in the invention without affecting the efficacy and the achievable purpose of the invention.

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

Fig. 2 is a schematic sectional view of the structure in the direction of a-a in fig. 1.

Fig. 3 is a schematic 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 sectional view of the structure in the direction of D-D in fig. 4.

Fig. 6 is a schematic sectional view of the structure in the direction of E-E in fig. 5.

Fig. 7 is a schematic sectional view of the structure in the direction F-F in 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 structure in the direction J-J in FIG. 8.

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

FIG. 13 is an overall three-dimensional schematic diagram of an intelligent wardrobe suitable for taking clothes of different heights according to an embodiment of the present invention.

FIG. 14 is a schematic diagram of the power pin 66 in the power pin sliding cavity 67 and the deflector rod semi-arc cavity 32 in different positions when the intelligent wardrobe suitable for taking clothes of different heights in the embodiment of the invention is in operation.

Detailed Description

While embodiments of the present invention will be described with reference to particular embodiments, those skilled in the art will readily appreciate that the present invention has additional advantages and benefits that may be realized from the teachings herein, and that the embodiments described are only a few, but not all embodiments of the present invention. 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.

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

the upper end wall and the lower end wall of the wardrobe door 20 are both fixed with wardrobe door rotating shafts 61 extending into the wardrobe 10, and a pair of rotating pairs is formed between the wardrobe door rotating shafts 61 and the wardrobe 10;

the wardrobe 10 is internally provided with fan-shaped cavities 11 which are bilaterally symmetrical, a rotating shift lever shaft 31 which extends upwards into the fan-shaped cavity 11 is rotatably matched on the lower end wall of the fan-shaped cavity 11, the rotating shift lever 30 is fixedly connected with the rotating shift lever shaft 31, and a pair of sliding pairs is formed between the rotating shift lever 30 and the fan-shaped cavity 11.

Sector 11 upside intercommunication is equipped with arc chamber 34, it is fixed with to extend upwards to rotate driving lever 30 up end stay cord fixed pin 33 in the arc chamber 34, sector 11 upside intercommunication is equipped with and is located the initiative turning block chamber 35 in arc chamber 34 front side, be equipped with the ascending driving lever semi-arc chamber 32 of opening in the rotation driving lever 30.

The cross section of the sector cavity 11 is a quarter circle, the cross section of the arc cavity 34 is a quarter circle, and the cross section of the shift lever semi-arc cavity 32 is a semi-arc with the rotation shift lever shaft 31 as the center.

An amplifying poking rod cavity 23 is arranged in the wardrobe door 20, an identifying rod cavity 24 is communicated with the upper side of the amplifying poking rod cavity 23, four handle rotating cavities 28 which are distributed at equal intervals up and down and have forward openings are arranged on the right side of the identifying rod cavity 24, a wardrobe door handle 210 is hinged in the handle rotating cavity 28, a handle spring 29 is fixed between the rear end surface of the wardrobe door handle 210 and the rear end wall of the handle rotating cavity 28, a push rod 27 which extends backwards in the rear end wall of the handle rotating cavity 28, extends forwards in the identifying rod cavity 24 and abuts against the rear end surface of the wardrobe door handle 210, a handle identifying rotating rod 25 which extends upwards in the identifying rod cavity 24 and abuts against the rear end surface of the push rod 27 is hinged in the amplifying poking rod cavity 23, and a reset spring 26 is fixed between the rear end surface of the handle identifying rotating rod 25 and the rear end wall of the identifying rod cavity 24, the inside of the amplification poking rod cavity 23 is hinged with an angle amplification poking rod 21 positioned on the lower side of the handle identification rotating rod 25, the upper end of the angle amplification poking rod 21 is connected with the lower end of the handle identification rotating rod 25 through a hinge, and the left side and the right side of the wardrobe door handle 210 are respectively provided with a handle friction block 211 which is fixedly connected with the wardrobe door 20 and is respectively abutted against the left end wall and the right end wall of the wardrobe door handle 210.

Two bilaterally symmetrical slider cavities 42 with inward openings are arranged in the wardrobe 10, two sliders 48 extending into the slider cavities 42 in the direction of the slider cavities 42 and forming a pair of sliding pairs with the slider cavities 42 are fixed on the left and right end faces of the object carrying plate 40, a transmission belt cavity 46 is arranged on the lower side of the slider cavity 42, a driving pulley cavity 43 is arranged on the lower side of the transmission belt cavity 46, a lead screw shaft 41 extending downwards to penetrate through the slider cavities 42 to the transmission belt cavity 46 is matched in the upper end wall of the slider cavity 42 in a rotating mode, a pair of sliding pairs are formed between the lead screw shaft 41 and the slider 48, a driving pulley shaft 49 extending downwards to the driving pulley cavity 43 and extending upwards to the transmission belt cavity 46 is matched in a rotating mode on the lower end wall of the transmission belt cavity 46, and a transmission belt 47 is connected between the driving pulley shaft 49 and the lead screw shafts 41 on the left and right sides in a power matching mode, the tail end of the lower side of the driving wire wheel shaft 49 is fixedly provided with a driving wire wheel 44, and a reset torsion spring 45 is fixedly arranged between the lower end face of the driving wire wheel shaft 49 and the lower end wall of the driving wire wheel cavity 43.

The left side be fixed with left power stay cord 53 on the stay cord fixed pin 33 right flank, the right side be fixed with right power stay cord 56 on the stay cord fixed pin 33 left flank, left power stay cord 53, the right power stay cord 56 other end all with the outer disc fixed connection of initiative line wheel 44.

The indexing rotation mechanism comprises a driving rotation block 60 arranged in the driving rotation block cavity 35, the driving rotation block 60 is fixedly connected with the lower end face of the lower side of the wardrobe door rotating shaft 61, a worm gear and worm rod cavity 63 is arranged on the upper side of the lower side of the wardrobe door rotating shaft 61, a power pin sliding cavity 67 with a downward opening and corresponding to the shifting lever semi-arc cavity 32 is arranged in the driving rotation block 60, a worm shaft 68 is communicated with the front side of the power pin sliding cavity 67, 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 lower end wall of the worm shaft 68 in a rotating fit mode and upwards extends through the worm shaft 68 and the lower side of the wardrobe door rotating shaft 61 to the worm gear shaft 65 in the worm gear and worm rod cavity 63, and a power transmission pin 66 which extends downwards to the shifting lever semi-arc cavity 32 and is in sliding fit with the power pin sliding cavity 67 is fixed at the tail end of the outer side of the connecting rod sliding cavity 611 A worm wheel 62 is fixed at the tail end of the upper side of the worm wheel shaft 65, a worm line wheel cavity 69 is arranged at the rear side of the worm wheel and worm cavity 63, a worm shaft 68 which extends backwards into the worm line wheel cavity 69 and forwards into the worm wheel 62 is matched in the front end wall of the worm line wheel cavity 69 in a rotating mode, a worm 64 which is meshed with the worm wheel and worm cavity 63 is fixed at the tail end of the front side of the worm shaft 68, a worm transmission line wheel 610 is fixed at the tail end of the rear side of the worm shaft 68, and a worm resetting torsion spring 612 is fixed between the rear end face of the worm shaft 68 and the rear end wall of the worm line wheel cavity 69.

The cross section of the power pin sliding cavity 67 is a semicircular arc which is equal to the deflector rod semi-arc cavity 32 and takes the worm gear shaft 65 as the center of a circle, and the cross section of the worm shaft 68 is a semicircular arc which takes the worm gear shaft 65 as the center of a circle.

A deflector rod pull rope 22 positioned at the tail end of the lower side of the angle amplification deflector rod 21 is fixed on the front end face 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 wire wheel 610.

When the wardrobe door handle is used, in an initial state, the wardrobe door 20 is in a closed state, the left rotating deflector rod 30 is attached to the left end wall of the sector cavity 11, the right rotating deflector rod 30 is attached to the right end wall of the sector 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 relaxed state, the left power pull rope 53 and the right power pull rope 56 are in a tightened state, the left pull rope fixing pin 33 is attached to the left end wall of the left arc cavity 34, the right pull rope fixing pin 33 is attached to the right end wall of the right arc cavity 34, the reset spring 26 is in a relaxed state, the handle identification rotating rod 25 and the angle amplification deflector rod 21 are in a vertical state, the deflector rod 22 is in a tightened state, the wardrobe door handle 210 is in a vertical state, the handle spring 29 is in a relaxed state, and the front end surface of the power transmission pin 66 is abutted to the power, Shown as K1-2).

When a user takes clothes, the thumb presses the upper end of the wardrobe door handle 210 to rotate the upper end of the wardrobe door handle 210 backward, the lower end of the wardrobe door handle 210 rotates forward, the handle spring 29 compresses, the upper end of the wardrobe door handle 210 drives the push rod 27 to move backward, so that the handle identification rotating rod 25 rotates backward with the hinge point as the center, the reset spring 26 compresses, the lower end of the handle identification rotating rod 25 rotates forward to drive the upper end of the angle amplification deflector rod 21 to rotate forward, so that the lower end of the angle amplification deflector rod 21 rotates backward, so that the deflector pull rope 22 is pulled to rotate the worm transmission wire wheel 610, so that the worm shaft 68 is driven to rotate, so that the torsion storage force of the wire wheel reset torsion spring 612 is stored, and the worm shaft 68 rotates to drive the worm 64 to rotate, so that the worm wheel 62 is driven to rotate, so that the worm wheel shaft 65 rotates, thereby causing link sliding chamber 611 to rotate about worm gear shaft 65 and thereby causing power transmission pin 66 to rotate about worm gear shaft 65, thereby causing power transmission pin 66 to move away from power pin sliding chamber 67 and the left front end wall of toggle lever semi-arc chamber 32 (see K2-1 and K2-2 in fig. 14).

The user just begins to open the wardrobe door 20 at this moment for the wardrobe door 20 uses wardrobe door pivot 61 to rotate as the center, thereby drives initiative turning block 60 and rotates, because worm 64 stall, makes the unable reversal of worm wheel 62 under the auto-lock between worm wheel 62 and worm 64, makes power transmission pin 66 can't use worm wheel axle 65 as the center free rotation, thereby makes power transmission pin 66 rotate along with initiative turning block 60 together.

When the power transmission pin 66 touches the right front end wall of the lever semi-arc cavity 32 (as shown in fig. 14, K3-1 and K3-2), the power transmission pin 66 drives the rotary lever 30 to rotate around the rotary lever shaft 31, so that the left and right rope fixing pins 33 rotate around the rotary lever shaft 31 in opposite directions, and simultaneously pull the right power rope 56 and the left power rope 53, so that the driving pulley 44 rotates, so that the driving pulley shaft 49 rotates, and further the reset torsion spring 45 twists, at this time, the driving pulley shaft 49 rotates to drive the left and right side screw shafts 41 to rotate through the transmission belt 47, so that the left and right side sliders 48 move downwards simultaneously, so as to drive the loading plate 40 to move downwards to the front of the chest of the user, thereby facilitating the user to take the clothes.

Due to the friction between the handle friction block 211 and the wardrobe door handle 210, when the hands of the user leave the wardrobe door handle 210, the wardrobe door handle 210 still keeps the forward extending state, so that the power transmission pin 66 still keeps the current position in the power pin sliding cavity 67, and the power transmission pin 66 still keeps the position abutting against the right front end wall (shown as K3-1 and K3-2 in FIG. 14) of the deflector rod semi-arc cavity 32.

Since the frictional force between the upper wardrobe door rotating shaft 61 and the wardrobe 10 is greater than the torsion force of the return torsion spring 45,so that the torsion spring 45 is reset during the taking of the clothesTorsion barThe force is not enough to make the wardrobe door 20 reversely close, so that when the user leaves the wardrobe door 20 with both hands, the wardrobe door 20 can be ensured to be in the open state, and meanwhile, the loading plate 40 can also keep the current position.

After the user finishes taking out the clothes, the wardrobe door 20 is closed, so that the wardrobe door 20 drives the driving 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 shifting lever semi-arc-shaped cavity 32 (as shown in K4-1 and K4-2 in fig. 14), the shifting lever 30 can move freely, the driving wire shaft 49 rotates reversely under the torsion action of the reset torsion spring 45, and the carrying plate 40 is driven to ascend to the initial position.

Meanwhile, the driving reel 44 is driven to rotate reversely by the reverse rotation of the driving reel shaft 49, so that the left power pull rope 53 and the right power pull rope 56 are pulled, and the pull rope fixing pin 33 rotates reversely to the initial position.

After closing wardrobe door 20, press wardrobe door handle 210 downside end to the initial state that resumes, make handle discernment bull stick 25 lose the thrust effect of push rod 27 to make handle discernment bull stick 25 reverse to initial state under reset spring 26 elasticity effect, thereby make angle amplification driving lever 21 reverse to initial state, thereby make driving lever stay cord 22 relax, and then make worm shaft 68 reverse under the torsion effect of wire wheel reset torsion spring 612, thereby make worm 64 reverse, thereby drive power transmission round pin 66 reverses to initial position.

When users with different heights open the wardrobe door 20, the wardrobe door handles 210 at different positions are shifted, and the distances of backward movement of the push rods 27 are the same when the wardrobe door handles 210 are shifted, so that when the push rods 27 at different positions push the handle identification rotating rods 25 to rotate backward, the rotating angles of the handle identification rotating rods 25 are different, the forward rotating angles of the angle amplification shifting rods 21 are different, the tail ends of the lower sides of the angle amplification shifting rods 21 rotate at different radians, the number of turns for pulling the worm transmission wire wheels 610 to rotate through the shifting rod pull ropes 22 is different, the rotating angles of the power transmission pins 66 around the worm wheel shaft 65 are different, the time for the power transmission pins 66 to rotate along with the wardrobe door 20 to touch the rotating shifting rods 30 is different, and the rotating angles of the wardrobe door 20 from the beginning to the complete opening are different, when different height users use, wardrobe door 20 drives and rotates the different angle of driving lever 30 pivoted to it is different to make to carry thing board 40 from the time that begins to descend to stopping, thereby realized stirring the wardrobe door handle 210 of different positions and making to carry thing board 40 to descend to the position of stopping different according to different height users, thereby makeed to the at utmost to carry thing board 40 stop position to be convenient for different height users access clothing.

When the user is at the inconvenient access clothing of both hands, if the user opens left side wardrobe door 20 earlier, then left side wardrobe door 20 drives left side stay cord fixed pin 33 and uses left side rotation poking rod axle 31 to rotate forward as the center, thereby pulling left power stay cord 53 makes initiative line wheel 44 rotate, thereby make torsion spring 45 that resets, initiative line wheel 44 rotates and drives and carries thing board 40 decline, right power stay cord 56 relaxes when initiative line wheel 44 rotates simultaneously, open right side wardrobe door 20 again this moment, thereby make right side stay cord fixed pin 33 use right side rotation poking rod axle 31 to rotate forward as the center, thereby pulling right power stay cord 56, make right power stay cord 56 tighten, all the other motion processes are the same with above-mentioned motion process.

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

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims

1. The utility model provides an intelligence wardrobe suitable for different heights clothing of taking which characterized in that: the wardrobe comprises a wardrobe (10), two wardrobe doors (20) which are arranged in the wardrobe (10) in a left-right mirror image mode, a rotating deflector rod (30) arranged in the wardrobe (10), a carrying plate (40) which forms a pair of sliding pairs with the wardrobe (10), and an indexing and rotating mechanism arranged on the lower side of the wardrobe doors (20);

the upper end wall and the lower end wall of the wardrobe door (20) are both fixed with wardrobe door rotating shafts (61) extending into the wardrobe (10), and a pair of rotating pairs is formed between the wardrobe door rotating shafts (61) and the wardrobe (10);

the wardrobe is characterized in that fan-shaped cavities (11) which are bilaterally symmetrical are arranged in the wardrobe (10), a rotating shift lever shaft (31) which extends upwards into the fan-shaped cavity (11) is rotationally matched with the lower end wall of the fan-shaped cavity (11), the rotating shift lever (30) is fixedly connected with the rotating shift lever shaft (31), and a pair of sliding pairs is formed between the rotating shift lever (30) and the fan-shaped cavity (11).

2. The intelligent wardrobe applicable to clothes taking of different heights according to claim 1, wherein an arc-shaped cavity (34) is communicated with the upper side of the sector-shaped cavity (11), a pull rope fixing pin (33) extending upwards into the arc-shaped cavity (34) is fixed to the upper end face of the rotating shifting rod (30), a driving rotating block cavity (35) located in the front side of the arc-shaped cavity (34) is communicated with the upper side of the sector-shaped cavity (11), and a shifting rod semi-arc-shaped cavity (32) with an upward opening is arranged in the rotating shifting rod (30).

3. The intelligent wardrobe for clothes of different heights according to claim 2, characterized in that 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 half arc centered on the rotating deflector rod shaft (31).

4. The intelligent wardrobe applicable to clothes taking of different heights according to claim 1, wherein an amplification dial rod cavity (23) is arranged in the wardrobe door (20), an identification rod cavity (24) is communicated with the upper side of the amplification dial rod cavity (23), four handle rotating cavities (28) which are distributed at equal intervals up and down and are opened forwards are arranged on the right side of the identification rod cavity (24), a wardrobe door handle (210) is hinged in each handle rotating cavity (28), a handle spring (29) is fixed between the rear end surface of each wardrobe door handle (210) and the rear end wall of each handle rotating cavity (28), a push rod (27) which extends backwards into the identification rod cavity (24) forwards into each handle rotating cavity (28) and is abutted against the rear end surface of the wardrobe door handle (210) is fixed in each handle rotating cavity (28), and a push rod (27) which extends upwards into the identification rod cavity (24) and is abutted against the push rod (27) is hinged in each amplification dial rod cavity (23) The wardrobe door handle comprises a handle identification rotating rod (25) with abutted end faces, a reset spring (26) is fixed between the rear end face of the handle identification rotating rod (25) and the rear end wall of an identification rod cavity (24), an angle amplification driving rod (21) located on the lower side of the handle identification rotating rod (25) is hinged in an amplification driving rod cavity (23), the upper end of the angle amplification driving rod (21) is connected with the lower end of the handle identification rotating rod (25) through a hinge, and handle friction blocks (211) which are fixedly connected with a 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).

5. The intelligent wardrobe suitable for taking clothes of different heights according to claim 1, wherein two bilaterally symmetrical slider cavities (42) with inward openings are arranged in the wardrobe (10), two sliders (48) extending into the slider cavities (42) in the direction of the slider cavities (42) and forming a pair of sliding pairs with the slider cavities (42) are fixed on the left and right end faces of the carrying plate (40), a transmission belt cavity (46) is arranged on the lower side of the slider cavity (42), an active wire wheel cavity (43) is arranged on the lower side of the transmission belt cavity (46), a wire rod shaft (41) extending downwards to penetrate through the slider cavities (42) into the transmission belt cavity (46) is rotationally matched on the upper end wall of the slider cavity (42), a pair of sliding pairs is formed between the wire rod shaft (41) and the slider (48), and the lower end wall of the transmission belt cavity (46) is rotationally matched and extends downwards to the active wire wheel cavity (43) upwards The driving wire wheel is characterized in that a driving wire wheel shaft (49) is arranged in the transmission belt cavity (46), a transmission belt (47) is connected between the driving wire wheel shaft (49) and the screw rod shafts (41) on the left side and the right side in a power fit mode, a driving wire wheel (44) is fixed at the tail end of the lower side of the driving wire wheel shaft (49), and a reset torsion spring (45) is fixed between the lower end face of the driving wire wheel shaft (49) and the lower end wall of the driving wire wheel cavity (43).

6. The intelligent wardrobe for taking clothes of different heights according to claim 1, wherein a left power pull rope (53) is fixed on the right side surface of the left pull rope fixing pin (33), a right power pull rope (56) is fixed on the left side surface of the right pull rope fixing pin (33), 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).

7. The intelligent wardrobe suitable for taking clothes of different heights according to claim 1, wherein the indexing rotation mechanism comprises a driving rotation block (60) arranged in a driving rotation block cavity (35), the driving rotation block (60) is fixedly connected with the lower end face of a wardrobe door rotation shaft (61) at the lower side, a worm gear cavity (63) is arranged at the upper side of the wardrobe door rotation shaft (61) at the lower side, a power pin sliding cavity (67) with a downward opening and corresponding to the deflector rod semi-arc-shaped cavity (32) is arranged in the driving rotation block (60), a worm shaft (68) is communicated with the front side of the power pin sliding cavity (67), a worm wheel shaft (65) which is in sliding fit with the worm shaft (68) and extends upwards to penetrate through the worm shaft (68) and the worm gear shaft (61) at the lower side to the worm gear cavity (63) is arranged on the worm wheel shaft (65) and is in sliding fit with the worm shaft (68) and extends outwards A connecting rod sliding cavity (611) extending into the power pin sliding cavity (67), wherein 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) is fixed at the tail end of the outer side of the connecting rod sliding cavity (611), a worm wheel (62) is fixed at the tail end of the upper side of the worm wheel shaft (65), a worm line wheel cavity (69) is arranged at the rear side of the worm wheel and worm cavity (63), a worm shaft (68) which extends backwards into the worm line wheel cavity (69) and extends forwards into the worm wheel (62) is rotationally matched in the front end wall of the worm line wheel cavity (69), a worm (64) which is meshed with the worm gear 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), a wire wheel reset torsion spring (612) is fixed between the rear end face of the worm shaft (68) and the rear end wall of the worm wire wheel cavity (69).

8. The intelligent wardrobe for clothes of different heights as claimed in claim 7, wherein the cross section of the power pin sliding cavity (67) is a semicircular arc which is equal to the deflector rod semi-arc-shaped cavity (32) and takes the worm gear shaft (65) as a center, and the cross section of the worm shaft (68) is a semicircular arc which takes the worm gear shaft (65) as a center.

9. The intelligent wardrobe for taking clothes of different heights as claimed in claim 4, wherein a deflector rod pull rope (22) positioned at the lower end of the angle amplification deflector rod (21) is fixed on the front end surface 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 wire wheel (610).