CN210227377U - Three-dimensional automatic shoe cabinet - Google Patents

Abstract

A three-dimensional automatic shoe cabinet comprises a cabinet body, wherein a plurality of shoe boxes and six groups of chain transmission assemblies which are used for driving the shoe boxes to move in the cabinet body in a matching manner are arranged in the cabinet body, the six groups of chain transmission assemblies are divided into three pairs which are sequentially arranged at intervals, a plurality of supporting columns which extend to the other chain in the same pair are arranged on all the chains at intervals, one shoe box is supported by four supporting columns which are positioned on the chains close to one side of each other in two adjacent pairs of chain transmission assemblies and have the same height, the shoe boxes are driven to move in the vertical direction, a magnetic sheet and a reflective sheet are respectively adhered to two opposite side surfaces of each shoe box, a magnetic generator and an infrared sensor which are used for pushing the shoe boxes are arranged at the top of one side wall of an inner cavity of the cabinet body, an NFC chip with respective shoe box number data is adhered to the side wall of the shoe box, a chip reader which is used for reading data in the NFC chip which moves, so as to realize the automatic recognition function of the shoe box.

Description

Three-dimensional automatic shoe cabinet

Technical Field

The utility model relates to a shoe cabinet field especially relates to an automatic shoe cabinet of three-dimensional.

Background

The main purpose of the shoe chest is to display the taken-off shoes. With the progress of society and the improvement of human living standard, the shoe cabinet is changed from the early wooden shoe cabinet to the present shoe cabinet with various styles and materials, including wooden shoe cabinet, electronic shoe cabinet, disinfection shoe cabinet, etc., and the functions and styles are different. The traditional shoe cabinet is the most common shoe cabinet in the existing home, and mainly aims to realize the storage function of shoes and continuously change and innovate the style, so that the shoe cabinet can be matched with different home environments to play a bidirectional role in storing the shoes and decorating. Along with the improvement of living standard of people, the quantity of various shoes in the family is more and more, and people pay more attention to home decoration, and the requirement on functionality, intellectuality, aesthetic property, health, environmental protection and the like of shoe cabinet is higher and higher. The existing shoe cabinet is basically in a transverse support structure form, the shoe cabinet in the form is mature in manufacturing process and simple in structure, so that the shoe cabinet is adopted by most shoe cabinets, but most of the shoe cabinets do not have an automatic lifting function, the space utilization rate is not high, and the requirement for storing a large number of shoes in some public places cannot be met. Even the existing small-part automatic shoe cabinet cannot effectively utilize the high space, does not have the automatic identification function, and is inconvenient to use when the number of shoes to be stored is large.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior shoe cabinet in the actual use, the utility model provides a three-dimensional automatic shoe cabinet.

The utility model discloses a solve the technical scheme that above-mentioned technical problem adopted and be: a three-dimensional automatic shoe cabinet comprises a cabinet body, wherein a plurality of shoe boxes, six groups of chain transmission assemblies and a motor are arranged in the cabinet body, the chain transmission assemblies are used for driving the shoe boxes to move in the cabinet body in a matched mode, the motor is used for driving chain wheels of the chain transmission assemblies to rotate, two chain wheels of the chain transmission assemblies are respectively positioned at the top and the bottom of an inner cavity of the cabinet body, the chain moving directions of the six groups of chain transmission assemblies are all parallel, the six groups of chain transmission assemblies are divided into three pairs which are sequentially arranged at intervals, a plurality of supporting columns extending to the other chain in the same pair are arranged on all the chains at intervals, one shoe box is supported through four supporting columns which are positioned on the chains close to one side of each other in two adjacent pairs of chain transmission assemblies in a matched mode, the moving directions of the chains close to one side of each other in the two adjacent pairs of chain transmission assemblies, the pair of chain transmission assemblies positioned in the middle can be matched with the adjacent chain transmission assemblies positioned on the other side to drive the shoe box to descend;

the shoe cabinet is characterized in that a camera is arranged in the shoe cabinet, a display screen for displaying pictures shot by the camera and a controller for controlling the motor to start are arranged on the outer wall of the cabinet body, a magnetic sheet and a reflective sheet are respectively adhered to two opposite side surfaces of the shoe cabinet, a magnetic force generator and an infrared sensor are arranged at the top of one side wall of the inner cavity of the cabinet body, the reflective sheet moving upwards to one side of the uppermost shoe cabinet is irradiated by the infrared sensor, the controller starts the magnetic force generator, and the shoe cabinet moves to a support column moving downwards along with the chain transmission assembly through the repulsion action between the magnetic force generator and the magnetic sheet at one side of the shoe cabinet; the bottom of the other side wall of the inner cavity of the cabinet body is also provided with a magnetic force generator and an infrared sensor, the infrared sensor irradiates a reflector which moves downwards to the other side of the shoe box at the lowest layer, so that the controller starts the magnetic force generator, and the shoe box moves to a supporting column which moves upwards along with the chain transmission assembly through the repulsion action between the magnetic force generator and a magnetic sheet at the other side of the shoe box; set up the cabinet door that matches with the shoes case on a lateral wall of the cabinet body, all paste on the lateral wall of all shoes cases and be equipped with an NFC chip that has respective shoes case serial number data, be equipped with on the lateral wall of cabinet body inner chamber and be used for reading the chip reading ware that moves to the NFC chip on the shoes case with cabinet door alignment position in data to the controller discernment is with the shoes case serial number and the control of cabinet door alignment the motor is shut down.

Preferably, among the six groups of chain drive assembly, six sprockets at cabinet body inner chamber top all are located same height, and six sprockets of cabinet body inner chamber bottom also all are located same height, and the support column quantity that sets up on all chains is the same to along the even interval distribution of chain length direction.

Preferably, the axes of all the chain wheels are arranged in parallel, and the moving direction of all the chains is vertical.

Preferably, the support columns are of cylindrical structures, all the support columns are horizontally arranged and have the same size, and the axes of the support columns are arranged in parallel with the axis of the chain wheel.

Preferably, display screen and controller all set up on the cabinet door, still are equipped with the voice prompt who is used for the shoes case serial number of suggestion and cabinet door alignment on the cabinet door.

Preferably, the cabinet body and the shoe box are both rectangular structures, and the inner wall of the cabinet body and the outer wall of the shoe box are arranged in parallel.

Preferably, the box doors of the shoe box are all arranged towards the cabinet door.

Preferably, the infrared sensor is a diffuse reflection infrared sensor.

According to the technical scheme, the beneficial effects of the utility model are that:

the utility model provides a three-dimensional automatic shoe cabinet, because of install the camera in the shoes case when using, the image of camera shooting shoes incasement is shown on the display screen, user's accessible display screen real-time observation shoes incasement condition, after confirming the shoes case serial number that will use, only need to input corresponding shoes case serial number to the controller, the controller is the control motor and begins to rotate, the motor drives the sprocket and rotates and then drives chain and support column simultaneous movement, the shoes case moves along with the chain under the support of support column, realize the removal of shoes case in vertical direction, after shoes case removes to the internal chamber top of cabinet, the infrared sensor at cabinet body top detects the signal that installs the reflection of the piece of one side of shoes case back, send the signal to the controller, after the controller receives the magnetic sheet signal, send the circular telegram instruction to the magnetic force generator, the magnetic force that the magnetic force produced and the repulsion of shoes case one side, promote the shoes case and move to the support column of the internal opposite side downstream chain of cabinet on, the shoes case just can move to cabinet body bottom along with the chain of opposite side, on infrared sensor and the magnetic force generator of same through cabinet body bottom pushed the shoes case back to the support column of the upward movement chain to realize the shoe case at the internal cyclic motion of whole cabinet. When the shoe box moves in the shoe cabinet, because of pasting the NFC chip on the shoe box lateral wall, install the chip reading ware on the internal wall of cabinet, when the shoe box rotated the chip reading ware position, the data in the NFC chip is read to the chip reading ware, make the controller can discern the shoe box serial number of lining up with the cabinet door, the controller is compared shoe box serial number and the shoes box serial number of inputing in advance, when the input serial number is unanimous with reading the serial number, the controller gives instructions, control motor stall, a shoe box of selecting in advance just stops in cabinet door department this moment, the user can open the cabinet door and use this shoe box. Therefore, the utility model discloses compare traditional shoe cabinet and current automatic shoe cabinet, not only realized the effective utilization to the eminence space, increased the utilization space of shoe cabinet, satisfy a family or some public places and deposit great quantity demand to shoes, and possess the automatic identification function, it is simple and convenient when getting shoes.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of another view angle;

FIG. 3 is a schematic view of the cabinet viewed from the outside;

FIG. 4 is a partially enlarged schematic view of the present invention;

FIG. 5 is a partially enlarged schematic view from another perspective;

FIG. 6 is a schematic view of the structure of the shoe box;

fig. 7 is an interior schematic view of the shoe box.

The labels in the figure are: 1. the cabinet body, 2, shoes case, 3, sprocket, 4, chain, 5, motor, 6, support column, 7, camera, 8, display screen, 9, magnetic sheet, 10, reflector panel, 11, magnetic force generator, 12, infrared sensor, 13, cabinet door, 14, NFC chip, 15, chip reader, 16, voice prompt.

Detailed Description

Referring to the drawings, the specific embodiments are as follows:

a three-dimensional automatic shoe cabinet comprises a cabinet body 1, a plurality of shoe boxes 2, six sets of chain transmission assemblies and a motor 5, wherein the chain transmission assemblies are arranged in the cabinet body 1 and are used for driving the shoe boxes 2 to move in the cabinet body 1 in a matched mode, the motor 5 is used for driving chain wheels 3 of the chain transmission assemblies to rotate, the cabinet body 1 and the shoe boxes 2 are of a rectangular structure, the inner wall of the cabinet body 1 and the outer wall of the shoe boxes 2 are arranged in parallel, two chain wheels 3 of the chain transmission assemblies are respectively positioned at the top and the bottom of an inner cavity of the cabinet body 1, the six chain wheels 3 at the top of the inner cavity of the cabinet body 1 are all positioned at the same height, the six chain wheels 3 at the bottom of the inner cavity of the cabinet body 1 are all positioned at the same height, supporting columns 6 arranged on all chains 4 are the same in number and are evenly distributed at intervals along the length direction of the chains, a plurality of support columns 6 extending towards the other chain 4 in the same pair are arranged on all the chains 4 at intervals, one shoe box 2 is supported by four support columns 6 at the same height on the chain 4 close to one side of each other in the two adjacent pairs of chain transmission assemblies in a matched mode, the support columns 6 are of cylindrical structures, all the support columns 6 are horizontally arranged and have the same size, the axes of the support columns 6 are arranged in parallel with the axis of the chain wheel 3, the moving directions of the chains 4 close to one side of each other in the two adjacent pairs of chain transmission assemblies are the same, so that the pair of chain transmission assemblies in the middle can be matched with the adjacent chain transmission assembly on one side of the chain transmission assemblies to drive the shoe box 2 to ascend, and the pair of chain transmission assemblies in the middle can be matched with the adjacent chain transmission assembly on the;

the shoe box is characterized in that a camera 7 is arranged in the shoe box 2, a display screen 8 for displaying pictures shot by the camera 7 and a controller for controlling the motor 5 to start are arranged on the outer wall of the cabinet body 1, a magnetic sheet 9 and a reflective sheet 10 are respectively attached to two opposite side surfaces of the shoe box 2, a magnetic generator 11 and an infrared sensor 12 are arranged at the top of one side wall of the inner cavity of the cabinet body 1, the reflective sheet 10 which moves upwards to one side of the shoe box 2 on the uppermost layer is irradiated by the infrared sensor 12, so that the controller starts the magnetic generator 11, and the shoe box 2 moves to the support column 6 which moves downwards along with the chain transmission assembly through the repulsion action between the magnetic generator 11 and the magnetic sheet 9 on one side of the shoe box 2; the bottom of the other side wall of the inner cavity of the cabinet body 1 is also provided with a magnetic force generator 11 and an infrared sensor 12, the infrared sensor 12 irradiates a reflector 10 which moves downwards to the other side of the shoe box 2 at the lowest layer, so that the controller starts the magnetic force generator 11, and the shoe box 2 moves to the support column 6 which moves upwards along with the chain transmission assembly through the repulsion action between the magnetic force generator 11 and the magnetic sheet 9 at the other side of the shoe box 2; set up the cabinet door 13 that matches with shoe box 2 on the lateral wall of the cabinet body 1, the chamber door of shoe box 2 all sets up towards cabinet door 13, all pastes on the lateral wall of all shoe box 2 and is equipped with an NFC chip 14 that has respective shoe box 2 serial number data, is equipped with on the lateral wall of the cabinet body 1 inner chamber to be used for reading the chip reading ware 15 of data in the NFC chip 14 on the shoe box 2 of moving to the position of lining up with cabinet door 13 to the shoe box 2 serial number and the control that the controller discernment aligns with cabinet door 13 the motor 5 stops, display screen 8 and controller all set up on cabinet door 13, still are equipped with the voice prompt 16 who is used for the suggestion and the shoe box 2 serial number that cabinet door 13 aligns on the cabinet door 13.

Claims (8)

1. The utility model provides an automatic shoe cabinet of three-dimensional, includes cabinet body (1), its characterized in that: the shoe cabinet comprises a cabinet body (1), a plurality of shoe boxes (2), six groups of chain transmission assemblies and a motor (5), wherein the chain transmission assemblies are used for driving the shoe boxes (2) to move in the cabinet body (1) in a matched mode, the motor (5) is used for driving chain wheels (3) of the chain transmission assemblies to rotate, the two chain wheels (3) of the chain transmission assemblies are respectively positioned at the top and the bottom of an inner cavity of the cabinet body (1), the moving directions of chains (4) of the six groups of chain transmission assemblies are all parallel, the six groups of chain transmission assemblies are divided into three pairs which are sequentially arranged at intervals, a plurality of supporting columns (6) extending to the other chain (4) in the same pair are arranged on all the chains (4) at intervals, one shoe box (2) is supported in a matched mode through four supporting columns (6) which are positioned at the same height on the chains (4) close to one side of each other in two, so that the pair of chain transmission assemblies positioned in the middle can cooperate with the adjacent chain transmission assembly positioned at one side of the chain transmission assemblies to drive the shoe box (2) to ascend, and the pair of chain transmission assemblies positioned in the middle can cooperate with the adjacent chain transmission assembly positioned at the other side of the chain transmission assemblies to drive the shoe box (2) to descend;

the shoe cabinet is characterized in that a camera (7) is arranged in the shoe cabinet (2), a display screen (8) used for displaying a picture shot by the camera (7) and a controller used for controlling the motor (5) to start are arranged on the outer wall of the cabinet body (1), a magnetic sheet (9) and a reflective sheet (10) are attached to two opposite side faces of the shoe cabinet (2), a magnetic generator (11) and an infrared sensor (12) are arranged at the top of one side wall of the inner cavity of the cabinet body (1), the reflective sheet (10) moving upwards to one side of the shoe cabinet (2) on the uppermost layer is irradiated through the infrared sensor (12), the controller starts the magnetic generator (11), and the shoe cabinet (2) moves to the support column (6) moving downwards along with the chain transmission assembly through the repulsion action between the magnetic generator (11) and the magnetic sheet (9) on one side of the shoe cabinet (2); the bottom of the other side wall of the inner cavity of the cabinet body (1) is also provided with a magnetic force generator (11) and an infrared sensor (12), the infrared sensor (12) irradiates a reflective sheet (10) which moves downwards to the other side of the shoe box (2) at the lowest layer to enable the controller to start the magnetic force generator (11), and the shoe box (2) moves to a supporting column (6) which moves upwards along with the chain transmission assembly through the repulsion action between the magnetic force generator (11) and a magnetic sheet (9) at the other side of the shoe box (2); set up cabinet door (13) that match with shoes case (2) on the lateral wall of the cabinet body (1), all paste on the lateral wall of all shoes cases (2) and be equipped with one and have NFC chip (14) of respective shoes case (2) serial number data, be equipped with on the lateral wall of the cabinet body (1) inner chamber and be used for reading the chip reading ware (15) of data in NFC chip (14) on the shoes case (2) of moving to the position of lining up with cabinet door (13), so that shoes case (2) serial number and control that controller discernment and cabinet door (13) align motor (5) are shut down.

2. The stereoscopic automatic shoe chest according to claim 1, wherein: among six groups of chain drive assembly, six sprocket (3) at cabinet body (1) inner chamber top all are located same height, and six sprocket (3) of cabinet body (1) inner chamber bottom also all are located same height, and support column (6) the quantity homogeneous phase that set up on all chains (4) is the same to along chain (4) length direction evenly spaced distribution.

3. The stereoscopic automatic shoe chest according to claim 2, wherein: the axes of all the chain wheels (3) are arranged in parallel, and the moving directions of all the chains (4) are vertical.

4. The stereoscopic automatic shoe chest according to claim 3, wherein: the support columns (6) are of cylindrical structures, all the support columns (6) are horizontally arranged and have the same size, and the axes of the support columns (6) are arranged in parallel with the axis of the chain wheel (3).

5. The stereoscopic automatic shoe chest according to claim 1, wherein: display screen (8) and controller all set up on cabinet door (13), still are equipped with voice prompt (16) that are used for the suggestion to align with cabinet door (13) shoes case (2) serial number on cabinet door (13).

6. The stereoscopic automatic shoe chest according to claim 1, wherein: the cabinet body (1) and the shoe box (2) are both rectangular structures, and the inner wall of the cabinet body (1) and the outer wall of the shoe box (2) are arranged in parallel.

7. The stereoscopic automatic shoe chest according to claim 6, wherein: the box doors of the shoe box (2) are all arranged towards the box door (13).

8. The stereoscopic automatic shoe chest according to claim 1, wherein: the infrared sensor (12) adopts a diffuse reflection infrared sensor.

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