CN211555056U - Clothes leasing wardrobe with layered structure - Google Patents

Abstract

The utility model discloses a supply a clothes lease wardrobe with layered structure, include from last to the last clothing layer that connects gradually down, lower clothing layer, go up the shoe layer, the shoe layer down, go up the clothing layer, the clothing layer down, go up the shoe layer, the respective main shaft of lower shoe layer all is located a vertical line and interconnect is fixed, equal level is provided with the baffle between each layer and separates, the top on clothing layer is provided with the top shell, the shoe layer bottom is provided with the bottom plate down, top shell and bottom plate radius equal, go up the clothing layer, the clothing layer lateral wall still is provided with the clothing door down, go up the shoe layer, the shoe layer lateral wall still is provided with the shoes door down. The utility model provides a problem that the dress that exists consumes the overlength during lease, the lease amount of labour is big among the prior art.

Description

Clothes leasing wardrobe with layered structure

Technical Field

The utility model belongs to the technical field of the wardrobe, concretely relates to clothes lease wardrobe with layered structure.

Background

Today, the demand of college students for full dress renting is increasingly highlighted and gradually expanded, but the current full dress renting market of college students still exists in a scattered and laggard individual household operation mode around schools. If the college students need to rent the dress, the college students need to rent the dress by the surrounding dress renters, which is very inconvenient and has a plurality of problems of long time consumption, long distance, large labor amount, high price, low clothes quality and the like.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a clothes lease wardrobe with layered structure has solved the problem that the dress lease time that exists consumes overlength, the lease amount of labour is big among the prior art.

The utility model provides an adopted technical scheme is, a clothes lease wardrobe with layered structure, include from last upper clothing layer to connecting gradually down, lower clothing layer, go up the shoe layer, the lower shoe layer, go up the clothing layer, lower clothing layer, go up the shoe layer, the respective main shaft of lower shoe layer all is located a vertical straight line and interconnect is fixed, equal level is provided with the baffle between each layer and separates, the top on upper clothing layer is provided with the top shell, lower shoe layer bottom is provided with the bottom plate, top shell and bottom plate radius equal, go up the clothing layer, the lower clothing layer lateral wall still is provided with the clothing door, go up the shoe layer, lower shoe layer lateral wall still is provided with the shoes door.

The specific structure of the jacket layer is as follows: the telescopic rod comprises a main shaft A, wherein fixed discs are arranged at the upper end and the lower end of the main shaft A, a main shaft fixing plate is also arranged between the top of the fixed disc positioned on the upper part and the main shaft A, a wheel disc C is also sleeved at the periphery of the fixed disc positioned on the upper part, the wheel disc C is fixed at the upper part of the main shaft A through the fixed disc, a wheel disc D is also sleeved at the periphery of the fixed disc positioned on the lower part, a plurality of holes are uniformly formed in the wheel disc C and the wheel disc D along the circumferential side wall, a rod B38 is correspondingly and horizontally inserted in each hole, the wheel disc C is used as the circle center, a coil is also arranged by taking the distance from the rod B to the wheel disc C as the radius, the coil penetrates through the rod B, the rod B can perform circumferential sliding along the coil, the rod B is connected with a telescopic rod through a spring, the clothes rack is characterized in that the pushing post can be pushed by a lead screw structure to push out a telescopic rod, so that clothes can be pushed out, a locking ring A is further arranged between the rod B and the telescopic rod, two ends of the locking ring A are respectively connected with a connecting rod, one ends of two adjacent connecting rods, far away from the rod B, are connected together and are arranged in a bull's-eye wheel track after being connected with the bull's-eye wheel structure and can slide along the bull's-eye wheel track, the bull's-eye wheel structure is further connected with vertically arranged vertical rods A through connecting blocks, the vertical rods A form a cylindrical outline forming an upper clothes layer in a surrounding mode, a clothes door is arranged outside the outline, a blocking cloth B is further arranged between each vertical rod A and the corresponding rod B, and the blocking cloth; a partition plate is further arranged between every two adjacent rods B positioned below, a connecting plate is further arranged at one end, close to the connecting rod, of each telescopic rod, and a clothes support is suspended on each connecting plate;

still including fixing the step motor D on the shell of top, step motor D is connected with rim plate C through fixed disc, and step motor D still is connected with the lead screw structure, and step motor D passes through the lead screw structure and drives the telescopic link flexible.

The bull's eye wheel structure specifically is: two the one end that the connecting rod is located bull's eye wheel track is connected through the three party connecting block, and the three party connecting block is connected fixedly with the bull's eye wheel again, and the bull's eye wheel can slide in the bull's eye wheel track, and the three party connecting block still is connected with the connecting block simultaneously.

The concrete structure of lead screw structure does: including installing the DC motor E on the shell of top, the output shaft end of DC motor E is provided with synchronous pulley C, synchronous pulley C passes through synchronous belt C and is connected with synchronous pulley D directly below, synchronous pulley D is fixed in on the pole B, synchronous pulley D's output shaft end horizontally connect has the one end of lead screw, the lead screw both ends are all fixed through the lead screw seat, the lead screw seat is fixed on the shell of top, still be provided with the push pedal on the lead screw, it is provided with the dead lever still to go back the level between two lead screw seats, the dead lever passes the push pedal setting, be close to and still be provided with the lead screw locking ring between synchronous pulley D's the lead screw seat and the push pedal, the fixed lead screw of lead screw locking ring prevents to remove.

The specific structure of the lower coating layer is as follows: including the main shaft B who is connected with rim plate D, still be provided with the bearing between rim plate D and the main shaft B, still be provided with the motor cabinet between rim plate D lower part and the main shaft B, be provided with step motor C on the motor cabinet, step motor C's axle head still with the main shaft of upper coat layer is connected, and main shaft B upper portion cover is in the motor cabinet bottom, and main shaft B lower part cover is in the fixing base, and the fixing base is fixed in coating layer fixed disk center department, and coating layer fixed disk bottom is connected with the main shaft of upper shoe layer, and the specific structure of lower coating layer is the.

The specific structure of the upper shoe layer is as follows: include with the one end of the vertical shoes layer main shaft of connecting of main shaft of lower clothing layer, shoes layer main shaft still is provided with the footstock with lower clothing layer contact position department, the footstock is for fixing shoes layer main shaft, the footstock is the transmission form and is connected with a plurality of aluminum pipes, a plurality of aluminum pipes play the effect of supporting the clothing layer and strengthen stability on the whole, the other end of shoes layer main shaft is fixed on the bottom fixing base, the position department that shoes layer main shaft is close to the bottom fixing base still overlaps and is equipped with main shaft synchronous pulley B, main shaft synchronous pulley B passes through synchronous pulley B and is connected with synchronous pulley A, synchronous pulley A is connected with step motor B again, main shaft synchronous pulley B upper end passes through the key-type connection with rim plate B, step motor B transmits power for rim plate B, rim plate B evenly opens along the circumference lateral wall has a plurality of holes, every downthehole all pegs graft has a pole A.

A fan baffle A and a fan baffle B are also vertically arranged on an upper partition plate at the corresponding position of the shoe door of the upper shoe layer, the fan baffle A and the fan baffle B are parallel to each other, the fan baffle A and the fan baffle B are vertical to the shoe door, the upper parts of the fan baffle A and the fan baffle B are connected with the partition plate, the lower edges of the fan baffle A and the fan baffle B are in contact with the shoe placing plate but not connected with the shoe placing plate, the fan baffle A and the fan baffle B have the same structure and respectively comprise a fan blade A, a fan blade B and a fan blade C which are connected with a stepping motor, one end of each of the fan blade A, the fan blade B and the fan blade C which is connected with the stepping motor is respectively positioned in 3 key grooves of a key-like shaft, a baffle plate is further arranged between adjacent key grooves, the key-like shaft is connected with an output shaft of the stepping motor, when the fan blade A, the fan blade B and the fan blade C sequentially rotate for a section of angle along the key-like shaft, the key grooves, the fan blade A, the fan blade B and the fan blade C can be spliced, when taking or putting shoes at every turn, fan piece A, fan piece B, fan piece C just can expand in proper order through step motor's drive, just so make the shoes door just can be to a pair of shoes, and because the fan keeps off the effect of sheltering from of A and fan fender B, the people of taking or putting shoes can not contact other shoes of putting on the shoes board.

The utility model is also characterized in that,

the specific structure of the lower shoe layer is as follows: the shoe layer main shaft is vertically connected with the main shaft of the lower coating layer, the other end of the shoe layer main shaft is fixed on a bottom fixing seat, a main shaft synchronous pulley B is further sleeved at a position, close to the bottom fixing seat, of the shoe layer main shaft, a main shaft synchronous pulley A is sleeved outside the upper end of the main shaft synchronous pulley B, a large bearing is arranged between the main shaft synchronous pulley B and the main shaft synchronous pulley A to reduce friction, the lower end of the main shaft synchronous pulley A is connected with the synchronous pulley B through a synchronous belt A, the synchronous pulley B is connected with a stepping motor A, the synchronous pulley B and the stepping motor A are fixed through a synchronous pulley fixing seat, the upper end of the main shaft synchronous pulley A is connected to the central position of a wheel disc A, the wheel disc A is fixed on the shoe layer main shaft, a plurality of holes are uniformly formed in the wheel A along the circumferential side wall, one end of a rod A is inserted in each, a shoe placing plate is arranged below the hanging support, the hanging support and the shoe placing plate are fixedly connected through a vertical rod B, 3 side surfaces formed between the hanging support and the shoe placing plate are also provided with blocking cloth A in a hanging mode, and the other side surface is used for placing and taking shoes;

the bottom plate is arranged by taking the bottom fixing seat as the center.

Two clothing door structures are the same, all include 2 the same clothing door shells, and clothing door shell bottom is provided with one row of little bearing, and convenience of customers opens the door, still is provided with automatic lock B on the clothing door shell, and the user gets the clothing or puts the clothing through opening or pinning realization user of automatic lock B.

Two shoes door structures are the same, all include 2 the same shoes door shells, and shoes door shell bottom is provided with one row of little bearing, and convenience of customers opens the door, still is provided with automatic locking A on the shoes door shell, and the user gets shoes or puts shoes through opening or pinning realization user of automatic locking A.

The beneficial effects of the utility model are that, a clothes lease wardrobe with layered structure, broken through traditional gown lease and left such as long consuming time, distance far away, drawback such as cost height, for college student's lease gown provides a more convenient, more swift, more substantial, more unified, more sanitary novel form of hiring the clothing to replace old individuation to manage with this, thereby change college student's the mode of hiring the clothing.

Drawings

FIG. 1 is a schematic structural view of a rotary intelligent dress leasing wardrobe;

FIG. 2 is a schematic structural view of the shoe storage part of the present invention;

FIG. 3 is a schematic view of the storage part of the coating layer of the present invention;

FIG. 4 is a schematic structural view of the screw rod and the bull's eye wheel of the present invention;

FIG. 5 is a schematic structural view of a worker window of the present invention;

fig. 6 is a schematic structural view of a fan stop a of the present invention;

fig. 7 is a front schematic view of the present invention;

FIG. 8 is a schematic view of the storage portion of the lower coating layer of the present invention;

fig. 9 is a schematic structural diagram of a user window of the present invention;

FIG. 10 is a schematic view of the structure of the bull-eye wheel of the present invention;

FIG. 11 is a schematic view of the bottom of the lower layer of the present invention;

FIG. 12 is a schematic view of the structure of the B-section of the rod of the present invention;

fig. 13 is a schematic structural view of the fan stop a of the present invention;

fig. 14 is a schematic structural view of the fan guard of the present invention with a split part a.

In the figure, 1, a fan stop A, 2, a fan stop B, 3, a shoe placing plate, 4, a stop cloth A, 5, a vertical rod B, 6, a bottom plate, 7, a main shaft synchronous belt wheel A, 8, a stepping motor B, 9, a large bearing, 10, a bottom fixing seat, 11, a main shaft synchronous belt wheel B, 12, a synchronous belt B, 13, a stepping motor A, 14, a synchronous belt wheel fixing seat, 15, a synchronous belt A, 16, a synchronous belt wheel A, 17, a wheel disc A, 18, a wheel disc B, 19, a shoe layer main shaft, 20, an automatic lock A, 21, a top shell, 22, an automatic lock B, 23, an aluminum pipe, 24, a partition plate, 25, a rod A, 26, a coil, 27, a wheel disc C, 28, a stop cloth B, 29, a vertical rod A, 30, a clothes support, 31, a bull 'eye wheel rail, 32, a bull' eye wheel structure, 33, a connecting rod, 34, a connecting plate, 35, a spring, a telescopic rod, 37, 39. 40 parts of a screw rod structure, 40 parts of stepping motors D, 41 parts of fixed disks, 42 parts of direct current motors E, 43 parts of synchronous pulleys C, 44 parts of synchronous belts C, 45 parts of a screw rod seat, 46 parts of a locking ring, 47 parts of a three-way connecting block, 48 parts of a bull's eye wheel, 49 parts of a connecting block, 50 parts of a fixed rod, 51 parts of a screw rod, 52 parts of a push column, 53 parts of a push plate, 54 parts of a screw rod locking ring, 55 parts of a rear door, 56 parts of stepping motors E, 57 parts of a blocking plate, 58 parts of a leaf A, 59 parts of a leaf B, 60 parts of a leaf C, 61 parts of a top fixing ring, 62 parts of a clothes door shell, 63 parts of a shell, 64 parts of a similar key shaft, 65 parts of a shoes door shell, 66 parts of a top seat, 67 parts of a hanging support, 68 parts of a main shaft fixing plate, 69 parts of a main shaft A, 70 parts of a fixing ring, 71 parts of a wheel disk D, 72 parts of, 79. small bearing, 80 shoe door, 81 upper coating layer, 82 lower coating layer, 83 upper shoe layer, 84 lower shoe layer, 85 synchronous pulley D, 86 synchronous pulley B.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

The utility model relates to a clothes lease wardrobe with layered structure, as shown in fig. 1 ~ 8, include from last jacket 81 that connects gradually down, lower clothing layer 82, go up shoe layer 83, lower shoe layer 84, jacket 81, lower clothing layer 82, go up shoe layer 83, lower shoe layer 84 respective main shaft all is located a vertical straight line and interconnect is fixed, equal level is provided with baffle 24 between each layer and separates, the top of going up clothing layer 81 is provided with top shell 21, lower shoe layer 84 bottom is provided with bottom plate 6, top shell 21 and bottom plate 6 radius equal, go up clothing layer 81, lower clothing layer 82 lateral wall still is provided with clothing door 78, go up shoe layer 83, lower shoe layer 84 lateral wall still is provided with shoes door 80.

As shown in fig. 9 to 12, the specific structure of the upper coating layer 81 is as follows: the device comprises a main shaft A69, fixed disks 41 are arranged at the upper end and the lower end of a main shaft A69, a main shaft fixing plate 68 is arranged between the top of the upper fixed disk 41 and a main shaft A69, a wheel disc C27 is sleeved on the periphery of the upper fixed disk 41, the wheel disc C27 is fixed on the upper portion of the main shaft A69 through the fixed disk 41, a wheel disc D71 is sleeved on the periphery of the lower fixed disk 41, the wheel disc D71 is fixed on the lower portion of the main shaft A69 through the fixed disk 41, a plurality of holes are uniformly formed in the wheel disc C27 and the wheel disc D71 along the circumferential side wall, a rod B38 is correspondingly and horizontally inserted in each hole, a coil 26 is further arranged by taking the wheel disc C27 as the center of a circle, a distance between the rod B38 and the wheel disc C27 as the radius, the coil 26 penetrates through the rod B38, the rod B38 can circumferentially slide along the coil 26, the rod B38 is connected with a telescopic rod 36 through a spring 35, the push column 52 can be pushed by the lead screw structure 39 to push the telescopic rod 36 out, so as to push clothes out, a locking ring A37 is further arranged between the rod B38 and the telescopic rod 36, two ends of the locking ring A37 are respectively connected with a connecting rod 33, one ends of two adjacent connecting rods 33, which are far away from the rod B38, are connected together and then are arranged in the bull's eye wheel track 31 after being connected with the bull's eye wheel structure 32, and can slide along the bull's eye wheel track 31, the bull's eye wheel structure 32 is further connected with a vertical rod A29 which is vertically arranged through a connecting block 49, the vertical rods A29 form a cylindrical shape to form the outer contour of the upper clothes layer 81, a clothes door 78 is arranged outside the outer contour, a blocking cloth B28 is further arranged between each vertical rod A29 and the corresponding rod B38, and the blocking cloth B28; a partition plate 24 is further arranged between every two adjacent lower corresponding rods B38, a connecting plate 34 is further arranged at one end of each telescopic rod 36 close to the connecting rod 33, and a clothes support 30 is suspended on the connecting plate 34;

still including fixing the step motor D40 on top shell 21, step motor D40 is connected with rim plate C27 through fixed disc 41, and step motor D40 still is connected with lead screw structure 39, and step motor D40 drives telescopic link 36 through lead screw structure 39 and stretches out and draws back.

The bull's eye wheel structure 32 is specifically: two the one end that connecting rod 33 is located bull's eye wheel track 31 is connected through three connecting block 47, and three connecting block 47 is connected fixedly with bull's eye wheel 48 again, and bull's eye wheel 48 can slide in bull's eye wheel track 31, and three connecting block 47 still is connected with connecting block 49 simultaneously.

The screw structure 39 has the following specific structure: the automatic feeding device comprises a direct current motor E42 installed on a top shell 21, a synchronous belt wheel C43 is arranged at the output shaft end of a direct current motor E42, the synchronous belt wheel C43 is connected with a synchronous belt wheel D85 right below through a synchronous belt C44, a synchronous belt wheel D85 is fixed on a rod B38, one end of a lead screw 51 is horizontally connected to the output shaft end of the synchronous belt wheel D85, two ends of the lead screw 51 are fixed through a lead screw seat 45, the lead screw seat 45 is fixed on the top shell 21, a push plate 53 is further arranged on the lead screw 51, a fixing rod 50 is further horizontally arranged between the two lead screw seats 45, the fixing rod 50 penetrates through the push plate 53, a lead screw locking ring 54 is further arranged between the lead screw seat 45 close to the synchronous belt wheel D85 and the push plate 53, the lead screw locking ring 54 fixes the lead screw 51 to.

The specific structure of the lower coating layer 82 is as follows: including the main shaft B75 of being connected with rim plate D71, still be provided with bearing 72 between rim plate D71 and the main shaft B75, still be provided with motor cabinet 74 between rim plate D71 lower part and the main shaft B75, be provided with step motor C73 on the motor cabinet 74, step motor C73's axle head still with the main shaft of upper clothing layer 81 is connected, and cover in motor cabinet 74 bottom on main shaft B75 upper portion, and cover in fixing base 77 under the main shaft B75, fixing base 77 is fixed in the central department of clothing layer fixed disk 76, clothing layer fixed disk 76 bottom with the main shaft of upper shoe layer 83 is connected, and the concrete structure of lower clothing layer 82 is the same with upper clothing layer 81.

The upper layer 83 has the following specific structure: comprises one end of a shoe layer main shaft 19 vertically connected with a main shaft of the lower coating layer 82, a top seat 66 is also arranged at the contact position of the shoe layer main shaft 19 and the lower coating layer 82, the top seat 66 is used for fixing the shoe layer main shaft 19, the top seat 66 is connected with a plurality of aluminum pipes 23 in a transmitting shape, the aluminum pipes 23 play a role of supporting the coating layer and strengthen the stability on the whole, the other end of the shoe layer main shaft 19 is fixed on a bottom fixing seat 10, a main shaft synchronous pulley B11 is also sleeved at the position of the shoe layer main shaft 19 close to the bottom fixing seat 10, the main shaft synchronous pulley B11 is connected with a synchronous pulley A16 through a synchronous belt B12, the synchronous pulley A16 is connected with a stepping motor B8, the upper end of the main shaft synchronous pulley B11 is connected with a wheel disc B18 through a key, the stepping motor B8 is a wheel disc B18 for transmitting power, a wheel B18 is uniformly provided with a, the other end of the rod A25 is fixed with a shoe placing plate 3 for placing shoes.

As shown in fig. 6, 13 and 14, a fan stopper a1 and a fan stopper B2 are vertically arranged on the upper partition plate 24 at the position corresponding to the shoe door 80 of the upper shoe layer 83, the fan stopper a1 and the fan stopper B2 are parallel to each other, the fan stopper a1 and the fan stopper B2 are perpendicular to the shoe door 80, the upper portions of the fan stopper a1 and the fan stopper B2 are connected with the partition plate 24, the lower edges of the fan stopper a1 and the fan stopper B2 are in contact with but not connected with the shoe placing plate 3, the fan stopper a1 and the fan stopper B2 have the same structure, each of the fan stopper a58, the fan stopper B59 and the fan C60 connected with the stepping motor 56, the fan stopper a 57, the fan-like key shaft 64 is connected with the output shaft of the stepping motor 56, and when the fan stoppers a58, the fan stopper B585 and the fan stopper B59 rotate along the output shaft of the stepping motor 56, the fan stopper a section of the key shaft 24 and the fan stopper B60 in sequence, the sequence of the rotation angle of the fan stopper a section of the fan stopper a rotation shaft 24 and the rotation angle of, The fan sheets B59 and C60 can be spliced into a rectangular surface, the two rectangular surfaces are combined with the upper partition plate 24 and the lower shoe placing plate 3 to form a rectangular frame, each time when a shoe is taken or placed, the fan sheets A58, B59 and C60 can be sequentially unfolded under the driving of the stepping motor 56, so that the shoe door 80 can only face one pair of shoes, and due to the shielding effect of the fan baffles A1 and B2, a person taking or placing the shoe cannot contact other shoes on the shoe placing plate 3.

The specific structure of the lower shoe layer 84 is: comprises one end of a shoe layer main shaft 19 vertically connected with a main shaft of the lower coating layer 82, the other end of the shoe layer main shaft 19 is fixed on the bottom fixing seat 10, a main shaft synchronous pulley B11 is further sleeved at the position of the shoe layer main shaft 19 close to the bottom fixing seat 10, a main shaft synchronous pulley A7 is sleeved outside the upper end of a main shaft synchronous pulley B11, a large bearing 9 is arranged between the main shaft synchronous pulley B11 and the main shaft synchronous pulley A7 to reduce friction, the lower end of the main shaft synchronous pulley A7 is connected with a synchronous pulley B86 through a synchronous belt A15, the synchronous pulley B86 is connected with a stepping motor A13, the synchronous pulley B86 and the stepping motor A13 are fixed through a synchronous pulley fixing seat 14, the upper end of the main shaft synchronous pulley A7 is connected to the center position of a wheel disc A17, the wheel disc A17 is fixed on the shoe layer main shaft 19, a plurality of holes are uniformly formed in the circumferential side wall of the wheel, a plate-shaped hanging support 67 is horizontally fixed at the other end of the rod A25, a shoe placing plate 3 is arranged below the hanging support 67, the hanging support 67 and the shoe placing plate 3 are fixedly connected through a vertical rod B5, 3 side faces formed between the hanging support 67 and the shoe placing plate 3 are also hung with blocking cloth A4, and the other side face is used for placing and taking shoes;

the bottom plate 6 is arranged by taking the bottom fixing seat 10 as a center.

Two clothing door 78 structures are the same, all include 2 the same clothing door shells 62, and clothing door shell 62 bottom is provided with one row of little bearing 79, and convenience of customers opens the door, still is provided with automatic lock B22 on the clothing door shell 62, and the user gets the clothing or puts the clothing through opening or pinning realization user of automatic lock B22.

Two shoes door 80 structures are the same, all include 2 the same shoes door shells 65, and shoes door shell 65 bottom is provided with one row of little bearing 79, and convenience of customers opens the door, still is provided with automatic lock A20 on the shoes door shell 65, and the user gets shoes or puts shoes through opening or pinning realization user of automatic lock A20.

The utility model discloses in, all motors all are connected with control center's controller.

The utility model relates to a clothes leasing wardrobe with a layered structure, when a user needs, a controller can control a stepping motor to rotate, a rod B38 corresponding to clothes meeting requirements is rotated to a clothes door 78, and if the size of the leased clothes is 165 and 170, the taken clothes are in a lower clothes layer 82; if the rental garment sizes are 175 and 180, the garments are taken over the top coat 81. Then the screw rod structure 39 pushes out the telescopic rod 36, the clothes support 30 connected with the connecting plate 34 is also pushed to the clothes door 78, the user manually opens the clothes door 78, after taking out the full dress, the spring 35 contracts back, the telescopic rod 36 is retracted, and the user manually closes the clothes door 78. Next, the controller transfers the shoe placing plate 3 corresponding to the shoes meeting the requirement to the shoe door 80 according to the personal information of the user, and if the shoes are man leather shoes, the taken shoes are on the upper layer 83, and if the shoes are woman high-heeled shoes, the taken shoes are on the lower layer 84. The stepping motor B8 controls the rod A25 to rotate, the shoe placing plate 3 connected with the rod A25 is driven to rotate, shoes on the upper shoe layer 83 are conveyed to the shoe door 80, the leaf stop A1 and the leaf stop B2 of the shoe door 80 can be unfolded like a fan, a user manually opens the shoe door 80, and after taking the shoes away, the shoe door 80 is manually closed. The stepping motor B13 controls the lever A25 to rotate, drives the shoe placing plate 3 supported by the hanging support 67 to rotate, conveys the shoes on the lower shoe layer 84 to the shoe door 80, and the user manually opens the shoe door 80 and manually closes the shoe door 80 after taking the shoes away. Before the shoe door 80 is opened, the fan stopper A1 and the fan stopper B2 can be automatically unfolded like a fan, after the shoe door 80 is closed, the fan stopper A1 and the fan stopper B2 are automatically combined to play a role of stopping shoes on other shoe placing plates 3 on two sides, the angles of each fan blade A58, each fan blade B59 and each fan blade C60 are equal and are thin plates (the angles are all larger than 30 degrees) (the angles can be completely unfolded to form a rectangle), the key groove angles of each fan blade A58, each fan blade B59 and each fan blade C60 connected with the similar key shaft 64 are different in size, the key groove of each fan blade 60 is just embedded with the similar key shaft in size, the angle of the key groove of each fan blade 58 is the largest, and when the stepping motor 56 rotates, the functions that each fan blade A58, each fan blade B59 and each fan blade C60 can rotate at different angles (the fan blades 58 do not rotate). The flap 57 is a function of preventing each of the fan a58, the fan B59, and the fan C60 from being unfolded by a given angle and then being further unfolded. The purpose of this arrangement is to prevent a careless user from opening the rear 80 of the upper shoe layer 83 door and then "stealing" shoes on both sides except for the shoes whose doorway belongs to him, and to act as a "catch" in the same manner as the sole 84 catch a 4. When the user wants to take the shoes, the corresponding shoes are turned to the opening of the shoes, and the two side flaps A1 and B2 are unfolded. The automatic lock 20A is then unlocked and the shoe door 80 is opened. The user finishes taking the shoes.

When the user returns the dress, the controller will control the stepping motor to rotate, and the rod 38 corresponding to the borrowed dress will be rotated to the clothes door 78. Then the screw rod structure 39 pushes out the telescopic rod 36, the clothes support 30 connected with the connecting plate 34 is also pushed to the clothes door 78, the user manually opens the clothes door 78, the spring 35 retracts after returning the full dress, the telescopic rod 36 is retracted, and the user manually closes the clothes door 78. Next, the controller controls the stepping motor to rotate the shoe placing plate 3 corresponding to the user rented shoes to the shoe door 80. When the shoe placing plate 3 on the upper shoe layer 83 is transported to the shoe door 80, the flap A1 and the flap B2 of the shoe door 80 are unfolded like a fan, and the user manually opens the shoe door 80 and manually closes the shoe door 80 after returning the shoe. After the shoe placing plate 3 positioned at the lower shoe layer 84 is transported to the shoe door 80, the user manually opens the shoe door 80, and manually closes the shoe door 80 after returning the shoes.

Claims (4)

1. A clothes leasing wardrobe with a layered structure is characterized by comprising an upper coating layer (81), a lower coating layer (82), an upper shoe layer (83), a lower shoe layer (84), an upper coating layer (81), a lower coating layer (82), an upper shoe layer (83) and a lower shoe layer (84) which are sequentially connected from top to bottom, wherein main shafts of the upper coating layer (81), the lower shoe layer (82), the upper shoe layer (83) and the lower shoe layer (84) are all positioned on a vertical straight line and are fixedly connected with one another, partition plates (24) are horizontally arranged among the layers for separation, a top shell (21) is arranged at the top of the upper coating layer (81), a bottom plate (6) is arranged at the bottom of the lower shoe layer (84), the radiuses of the top shell (21) and the bottom plate (6) are equal, a clothes door (78) is further arranged on the side walls of the upper coating layer;

the specific structure of the upper coating layer (81) is as follows: comprises a main shaft A (69), the upper end and the lower end of the main shaft A (69) are respectively provided with a fixed disc (41), a main shaft fixing plate (68) is arranged between the top of the fixed disc (41) positioned at the upper part and the main shaft A (69), a wheel disc C (27) is sleeved on the periphery of the fixed disc (41) positioned at the upper part, the wheel disc C (27) is fixed on the upper part of the main shaft A (69) through the fixed disc (41), a wheel disc D (71) is sleeved on the periphery of the fixed disc (41) positioned at the lower part, the wheel disc D (71) is fixed on the lower part of the main shaft A (69) through the fixed disc (41), a plurality of holes are uniformly formed in the wheel disc C (27) and the wheel disc D (71) along the side wall of the circumference, a rod B (38) is correspondingly and horizontally inserted in each hole, the wheel disc C (27) is used, the coil (26) penetrates through the rod B (38), the rod B (38) can slide along the coil (26) in a circumferential mode, the rod B (38) is connected with the telescopic rod (36) through the spring (35), the head of the telescopic rod (36) is connected with the spring (35), a push column (52) is inserted into the tail end of the telescopic rod (36), the push column (52) is connected with the screw rod structure (39), the push column (52) can be pushed by the screw rod structure (39) to push the telescopic rod (36) out, the purpose of pushing clothes out is achieved, a locking ring A (37) is further arranged between the rod B (38) and the telescopic rod (36), two ends of the locking ring A (37) are respectively connected with a connecting rod (33), one ends, far away from the rod B (38), of two adjacent connecting rods (33) are connected together and connected with the bull wheel structure (32) and then placed in the bull wheel track (31) and can slide along the bull wheel track (31), the bull wheel structure (32) is further connected with vertical rods A (29) through connecting blocks (49), the vertical rods A (29) are enclosed into a cylinder to form the outer contour of an upper coating layer (81), a clothes door (78) is arranged outside the outer contour, a blocking cloth B (28) is further arranged between each vertical rod A (29) and the corresponding rod B (38), and the blocking cloth B (28) extends to the connecting position of the coil (26) and the corresponding rod B (38) in the horizontal direction; a partition plate (24) is further arranged between every two adjacent rods B (38) positioned below, a connecting plate (34) is further arranged at one end, close to the connecting rod (33), of each telescopic rod (36), and a clothes support (30) is hung on the connecting plate (34);

the device is characterized by further comprising a stepping motor D (40) fixed on the top shell (21), wherein the stepping motor D (40) is connected with the wheel disc C (27) through a fixed disc (41), the stepping motor D (40) is further connected with a lead screw structure (39), and the stepping motor D (40) drives the telescopic rod (36) to stretch and retract through the lead screw structure (39);

the bull's eye wheel structure (32) specifically is: one ends, located in the bull-eye wheel track (31), of the two connecting rods (33) are connected through a three-way connecting block (47), the three-way connecting block (47) is connected and fixed with a bull-eye wheel (48), the bull-eye wheel (48) can slide in the bull-eye wheel track (31), and the three-way connecting block (47) is also connected with a connecting block (49);

the screw rod structure (39) is specifically structured as follows: comprises a direct current motor E (42) arranged on a top shell (21), the output shaft end of the direct current motor E (42) is provided with a synchronous belt wheel C (43), the synchronous belt wheel C (43) is connected with a synchronous belt wheel D (85) right below through a synchronous belt C (44), the synchronous belt wheel D (85) is fixed on a rod B (38), the output shaft end of the synchronous belt wheel D (85) is horizontally connected with one end of a lead screw (51), both ends of the lead screw (51) are fixed through lead screw seats (45), the lead screw seats (45) are fixed on the top shell (21), the lead screw (51) is also provided with a push plate (53), a fixed rod (50) is also horizontally arranged between the two lead screw seats (45), the fixed rod (50) passes through the push plate (53), a lead screw locking ring (54) is also arranged between the lead screw seat (45) close to the synchronous belt wheel D (85) and the, the screw locking ring (54) fixes the screw (51) to prevent movement, the push plate (53) translates back and forth along with the rotation of the screw (51), and the fixing rod (50) plays a role in preventing the push plate (53) from rotating;

the specific structure of the lower coating layer (82) is as follows: the coating machine comprises a main shaft B (75) connected with a wheel disc D (71), a bearing (72) is further arranged between the wheel disc D (71) and the main shaft B (75), a motor base (74) is further arranged between the lower portion of the wheel disc D (71) and the main shaft B (75), a stepping motor C (73) is arranged on the motor base (74), the shaft end of the stepping motor C (73) is further connected with a main shaft of an upper coating layer (81), the upper portion of the main shaft B (75) is sleeved at the bottom of the motor base (74), the lower portion of the main shaft B (75) is sleeved in a fixing base (77), the fixing base (77) is fixed at the center of a coating layer fixing disc (76), the bottom of the coating layer fixing disc (76) is connected with the main shaft of an upper shoe layer (83), and the specific structure of a;

the upper shoe layer (83) has the specific structure that: comprises one end of a shoe layer main shaft (19) vertically connected with a main shaft of a lower coating layer (82), a top seat (66) is also arranged at the contact position of the shoe layer main shaft (19) and the lower coating layer (82), the top seat (66) is used for fixing the shoe layer main shaft (19), the top seat (66) is connected with a plurality of aluminum pipes (23) in an emission shape, the aluminum pipes (23) play a role of supporting the coating layer and strengthen the stability on the whole, the other end of the shoe layer main shaft (19) is fixed on a bottom fixed seat (10), a main shaft synchronous pulley B (11) is also sleeved at the position of the shoe layer main shaft (19) close to the bottom fixed seat (10), the main shaft synchronous pulley B (11) is connected with a synchronous pulley A (16) through a synchronous pulley B (12), the synchronous pulley A (16) is connected with a stepping motor B (8), the upper end of the main shaft synchronous pulley B (11) is connected with a, the stepping motor B (8) transmits power to the wheel disc B (18), the wheel disc B (18) is uniformly provided with a plurality of holes along the circumferential side wall, one end of a rod A (25) is inserted into each hole, and the other end of the rod A (25) is fixedly provided with a shoe placing plate (3) for placing shoes;

a fan baffle A (1) and a fan baffle B (2) are vertically arranged on an upper partition plate (24) at the position corresponding to a shoe door (80) of the upper shoe layer (83), the fan baffle A (1) and the fan baffle B (2) are parallel to each other, the fan baffle A (1) and the fan baffle B (2) are perpendicular to the shoe door (80), the upper parts of the fan baffle A (1) and the fan baffle B (2) are connected with the partition plate (24), the lower edges of the fan baffle A (1) and the fan baffle B (2) are in contact with the shoe placing plate (3) but not connected with each other, the fan baffle A (1) and the fan baffle B (2) have the same structure, the fan baffle A (58), the fan blade B (59), the fan blade C (60), the fan blade A (58), the fan blade B (59), the fan blade C (60) and the stepping motor (56) are connected, one ends of the fan baffle A (58), the fan blade B (57) and the fan baffle plates (57) are arranged between adjacent key grooves, the analogous key shaft (64) is connected with an output shaft of the stepping motor (56), when the fan sheet A (58), the fan sheet B (59) and the fan sheet C (60) sequentially rotate for a certain angle along the key groove of the analogous key shaft (64), the fan sheet A (58), the fan sheet B (59) and the fan sheet C (60) can be spliced into a rectangular surface, the two rectangular surfaces are combined with the upper partition plate (24) and the shoe placing plate (3) below to form a rectangular frame, and the fan sheet A (58), the fan sheet B (59) and the fan sheet C (60) can be sequentially unfolded through the driving of the stepping motor (56) every time when a shoe is taken or placed, so that the shoe door (80) can only face one pair of shoes, and a shoe taking or placing person cannot contact other shoes on the shoe placing plate (3) due to the shielding effect of the fan baffle A (1) and the fan baffle B (2).

2. The clothes leasing wardrobe with layered structure as claimed in claim 1, characterized in that said lower shoe layer (84) has the specific structure: comprises one end of a shoe layer main shaft (19) vertically connected with a main shaft of the lower coating layer (82), the other end of the shoe layer main shaft (19) is fixed on a bottom fixing seat (10), a main shaft synchronous pulley B (11) is further sleeved at a position of the shoe layer main shaft (19) close to the bottom fixing seat (10), a main shaft synchronous pulley A (7) is sleeved outside the upper end of the main shaft synchronous pulley B (11), a large bearing (9) is arranged between the main shaft synchronous pulley B (11) and the main shaft synchronous pulley A (7) to reduce friction, the lower end of the main shaft synchronous pulley A (7) is connected with a synchronous pulley B (86) through a synchronous belt A (15), the synchronous pulley B (86) is connected with a stepping motor A (13), the synchronous pulley B (86) is fixed with the stepping motor A (13) through a synchronous pulley fixing seat (14), the upper end of the main shaft synchronous pulley A (7) is connected to the central position of a wheel disc A (17), the wheel disc A (17) is fixed on a shoe layer spindle (19), a plurality of holes are uniformly formed in the wheel disc A (17) along the circumferential side wall, one end of a rod A (25) is inserted into each hole, a plate-shaped hanging brace (67) is horizontally fixed at the other end of the rod A (25), a shoe placing plate (3) is arranged below the hanging brace (67), the hanging brace (67) and the shoe placing plate (3) are fixedly connected through a vertical rod B (5), blocking cloth A (4) is further hung on 3 side faces formed between the hanging brace (67) and the shoe placing plate (3), and the other side face is used for placing and taking shoes;

the bottom plate (6) is arranged by taking the bottom fixing seat (10) as the center.

3. The clothes leasing wardrobe with layered structure according to claim 1, wherein two clothes doors (78) are identical in structure and comprise 2 identical clothes door shells (62), a row of small bearings (79) are arranged at the bottom of each clothes door shell (62) to facilitate opening of the door by a user, an automatic lock B (22) is further arranged on each clothes door shell (62), and the user can take or put clothes by opening or locking the automatic lock B (22).

4. The clothes leasing wardrobe with layered structure according to claim 1, wherein two shoe doors (80) are identical in structure and comprise 2 identical shoe door shells (65), a row of small bearings (79) are arranged at the bottoms of the shoe door shells (65), a user can conveniently open the doors, an automatic lock A (20) is further arranged on each shoe door shell (65), and the user can take or put shoes by opening or locking the automatic lock A (20).

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