CN210276496U - Pull formula moving mechanism and cabinet - Google Patents

Abstract

The utility model relates to a pull-type moving mechanism and a storage cabinet, and a storage cabinet adopting the pull-type moving mechanism, belonging to the technical field of storage cabinet structures, comprising a base frame, a storage shell which slides forwards and backwards on the base frame, and a forward-backward movement structure which drives the storage shell to move forwards and backwards; the front-back moving structure comprises a front-back moving motor fixedly arranged on the base frame, a front-back rotating gear in transmission connection with a power output shaft of the front-back moving motor, and a front-back moving rack which is meshed with the front-back rotating gear and fixedly connected with the storage shell. This pull formula moving mechanism, simple structure to the operation is smooth and easy stable.

Description

Pull formula moving mechanism and cabinet

Technical Field

The utility model relates to a pull formula moving mechanism to and adopted this pull formula moving mechanism's cabinet, belong to cabinet structure technical field.

Background

At present, public places such as airports, railway stations, superstores and the like are all provided with storage points in a manual mode or self-service storage cabinets for storing small articles. The existing self-service storage cabinet is provided with a moving mechanism for transferring the turnover box, but the existing moving mechanism for transferring the turnover box is complex in structure.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the utility model aims to provide a pull type moving mechanism which has simple structure and smooth and stable operation.

In order to achieve the above purpose, the technical scheme of the utility model is that:

a pull-out type moving mechanism comprises a base frame, a storage shell which slides forwards and backwards on the base frame, and a forward-backward moving structure which drives the storage shell to move forwards and backwards; the front-back moving structure comprises a front-back moving motor fixedly arranged on the base frame, a front-back rotating gear in transmission connection with a power output shaft of the front-back moving motor, and a front-back moving rack which is meshed with the front-back rotating gear and fixedly connected with the storage shell.

The drawing type moving mechanism is simple in structure, and the storage shell is driven to move back and forth on the base frame through the back and forth moving structure; the front-back moving structure adopts the structure, so that the whole operation is very smooth and stable.

Furthermore, in order to enable the storage shell to move back and forth on the base frame more stably, a front sliding block and a rear sliding block are arranged on the outer wall of the storage shell; the base frame is provided with a front sliding rail and a rear sliding rail which are matched with the front sliding block and the rear sliding block.

Furthermore, in order to simplify the structure, the movable storage rack can also drive the moved object to move up and down on the base frame, and also comprises a storage inner shell which slides up and down in the storage outer shell and an up-and-down moving structure which drives the storage inner shell to move up and down; the up-down moving structure comprises a hook for hanging and taking the inner shell, a connecting frame fixedly connected with the hook, and a power assembly for driving the connecting frame to move up and down; the power assembly comprises an up-down moving motor fixedly arranged on the base frame, an up-down rotating gear in transmission connection with a power output shaft of the up-down moving motor, and an upper rack and a lower rack which are meshed with the up-down rotating gear and fixedly arranged on the connecting frame.

Furthermore, in order to enable the storage inner shell to stably move up and down in the storage outer shell, an upper sliding block and a lower sliding block are arranged on the inner side wall of the storage outer shell; the outer side wall of the storage inner shell is provided with an upper sliding rail and a lower sliding rail which are matched with the upper sliding block and the lower sliding block.

Furthermore, in order to facilitate the loading of the object to be moved into the storage inner shell, the outer end of the storage inner shell is provided with a guide sliding block which inclines outwards.

Furthermore, in order to simplify the structure, the hook is conveniently and fixedly connected with the inner storage shell in the vertical direction, the cross section of the hook is concave, and the opening of the hook is upward; the left top end and/or the right top end of the outer side wall of the inner storage shell are/is provided with a groove matched with the hook; the weighing sensor begins weighing when the bottom of the storage inner shell contacts the inner bottom of the storage outer shell.

Furthermore, in order to enable the up-down moving structure to stably drive the storage inner shell to move up and down, the storage inner shell also comprises a first limiting component and/or a second limiting component which are used for limiting the up-down moving direction of the connecting frame;

the first limiting component comprises a limiting column fixedly arranged on the connecting frame and a limiting plate fixedly arranged on the base frame; the limiting plate is provided with a limiting hole for the limiting column to move up and down;

the second limiting assembly comprises a limiting sliding block vertically and fixedly arranged on the connecting frame and a limiting sliding rail vertically arranged on the base frame; the limiting slide block moves up and down along the limiting slide rail.

Furthermore, when the up-down moving structure drives the storage inner shell to move up and down, in order to prevent collision between parts caused by too high upward movement or too low downward movement, the pull-out moving mechanism further comprises an upper photoelectric sensor and a lower photoelectric sensor which are arranged on the base frame and electrically connected with the MCU control chip.

Furthermore, in order to detect the weight of the moved object in real time and prevent the moved object from being overweight, the pull-out type moving mechanism also comprises a weighing sensor arranged at the bottom inside the storage shell; the weighing sensor is electrically connected with the MCU control chip; the weighing sensor begins weighing when the bottom of the storage inner shell contacts the inner bottom of the storage outer shell.

Furthermore, in order to detect the height of the moved object in real time and prevent the moved object from being ultrahigh, the pull-out moving mechanism further comprises a grating sensor which is arranged at the top end of the storage inner shell and is used for detecting whether the moved object is ultrahigh; and the grating sensor is electrically connected with the MCU control chip.

Furthermore, in order to sense whether the moved object is placed in the storage inner shell in real time, the pull-out type moving mechanism further comprises a correlation sensor which is arranged on the inner side wall of the storage inner shell and used for detecting whether the moved object exists in the storage inner shell; and the correlation sensor is electrically connected with the MCU control chip.

Furthermore, in order to detect whether barriers or people exist in front of the storage shell in real time and prevent collision, the pull-out type moving mechanism further comprises an ultrasonic sensor which is arranged at the outer end of the storage shell and electrically connected with the MCU control chip.

Furthermore, in order to prompt a user that the drawing type moving mechanism works, the drawing type moving mechanism further comprises a warning lamp which is arranged at the outer end of the storage shell and electrically connected with the MCU control chip.

The invention also provides a storage cabinet, which comprises a cabinet body provided with an access port and storage grids, a control electric box arranged in the cabinet body, a touch screen arranged on the outer side of the cabinet body and the pull-type moving mechanism arranged in the cabinet body; the control electric box comprises a circuit board and an MCU control chip arranged on the circuit board; the touch screen, the front-back moving motor and the up-down moving motor are electrically connected with the MCU control chip; the cabinet body comprises a framework and a panel arranged on the outer side of the framework; the framework is the base frame.

The storage cabinet adopts the pull-out type moving mechanism with the structure, so that the articles can move back and forth and up and down in the cabinet body very conveniently, and the article storage time of a user is greatly reduced.

Furthermore, in order to facilitate loading and unloading of articles, the storage device further comprises a turnover box arranged on the inner shell, and a stacker electrically connected with the MCU control chip for conveniently transferring the turnover box to a designated storage grid.

Furthermore, the turnover box comprises a box body and a box cover arranged on the box body in a sliding mode.

Furthermore, in order to prevent the rear end of the box cover of the turnover box from sliding off when the turnover box is opened, the turnover box also comprises an auxiliary cover opening mechanism; the auxiliary cover opening mechanism comprises a mounting seat fixedly arranged on the cabinet body, at least two guide rods fixedly arranged on the mounting seat, a support bracket slidably sleeved on the guide rods, and an elastic return piece arranged between the support bracket and the mounting seat; the support bracket comprises a sleeve sleeved on the guide rod and a bracket fixedly connected with the sleeve; the bracket is abutted against the inner end of the box body and is close to the lower wall of the box cover.

Furthermore, in order to conveniently verify the identity of a user and conveniently use the personal computer interaction device, the intelligent terminal further comprises at least one of a two-dimensional code scanner, an identity card reader and a loudspeaker which are arranged on the cabinet body and electrically connected with the MCU control chip.

Further, in order to acquire the specific object storage process of the user, the storage environment recording camera is further arranged on the cabinet body and electrically connected with the MCU control chip.

Furthermore, in order to acquire the environmental conditions around the human-computer interaction device, the intelligent cabinet further comprises a surrounding environment recording camera which is arranged on the cabinet body and electrically connected with the MCU control chip.

Further, in order to obtain the facial information of the person who deposits the object, the intelligent cabinet further comprises a human body facial recognition camera which is arranged on the cabinet body and electrically connected with the MCU control chip.

The invention is further described with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a schematic structural diagram of a pull-out type moving mechanism according to an embodiment of the present invention;

FIG. 2 is a second schematic structural view of an embodiment of a drawer-type moving mechanism according to the present invention;

FIG. 3 is a third schematic structural view of an embodiment of a drawer-type moving mechanism according to the present invention;

fig. 4 is a fourth schematic structural view (with a turnover box placed) of the embodiment of the pull-out type moving mechanism of the invention;

FIG. 5 is an enlarged view of portion A of FIG. 4;

FIG. 6 is a fifth schematic structural view (with a container placed) of the embodiment of the drawer-type moving mechanism of the present invention;

FIG. 7 is an enlarged view of portion B of FIG. 6;

fig. 8 is a sixth schematic structural view of an embodiment of the drawer type moving mechanism of the present invention (a container is placed, and a guide block of an auxiliary lid opening mechanism is omitted);

FIG. 9 is an enlarged view of portion C of FIG. 8;

FIG. 10 is a schematic view of a transfer case of the storage cabinet of the present invention;

FIG. 11 is a second schematic view of a turnover box in a storage cabinet according to the present invention;

FIG. 12 is a schematic view of a storage cabinet according to the present invention;

fig. 13 is a second schematic structural diagram of a storage cabinet according to the present invention.

Detailed Description

In order to more fully understand the technical content of the present invention, the technical solution of the present invention will be further described and illustrated with reference to the following specific embodiments, but not limited thereto.

Example 1

Referring to fig. 1 to 9, a pull-out type moving mechanism 500 includes a storage housing 510 sliding back and forth on a base frame 200, a front-and-back moving structure 520 driving the storage housing 510 to move back and forth, a storage inner housing 530 sliding up and down in the storage housing 510, and an up-and-down moving structure 540 driving the storage inner housing 530 to move up and down.

More specifically, the front-back movement structure 520 includes a front-back movement motor 521 fixedly disposed on the base frame 200 and electrically connected to the MCU control chip, a front-back rotation gear 522 drivingly connected to a power output shaft of the front-back movement motor 521, and a front-back movement rack 523 engaged with the front-back rotation gear 522 and fixedly connected to the storage case 510; the bottom of the storage shell 510 is provided with a front slide block 511 and a rear slide block 511; the base frame 200 is provided with front and rear slide rails 512 which are engaged with the front and rear sliders 511.

More specifically, the up-down moving structure 540 includes a hook 541 for hanging the storing inner shell 530, a connecting frame 542 fixedly connected to the hook 541, and a power assembly 543 for driving the connecting frame 542 to move up and down; the power assembly 543 comprises an up-down moving motor 5431 fixedly arranged on the base frame 200 and electrically connected with the MCU control chip, an up-down rotating gear 5432 in transmission connection with a power output shaft of the up-down moving motor 5431, and an up-down rack 5433 engaged with the up-down rotating gear 5432 and fixedly connected with the connecting frame 542; an upper sliding block 513 and a lower sliding block 513 are arranged on the inner side wall of the storage shell 510; the outer side wall of the storage inner shell 530 is provided with an upper slide rail 514 and a lower slide rail 514 which are matched with the upper slide block 513 and the lower slide block 513.

In addition, the cross section of the hook 541 is concave, and the opening of the hook faces upwards; the left and right top ends of the outer sidewall of the storage inner case 530 are provided with grooves 531 to be engaged with the hooks 541.

Furthermore, the pull-out type moving mechanism 500 further comprises a first limit component 544 and a second limit component 545 for limiting the up-and-down moving direction of the connecting frame 542;

the first limiting component 544 includes a limiting post 5441 fixed to the connecting frame 542, and a limiting plate 5442 fixed to the base frame 200; the limiting plate 5442 is provided with a limiting hole for the limiting column 5441 to move up and down;

the second limiting assembly 545 comprises a limiting sliding rail 5451 vertically and fixedly arranged on the connecting frame 542, and a limiting sliding groove 5452 vertically arranged on the base frame 200; the limiting slide block 5451 moves up and down along the limiting slide rail 5452.

Further, in other embodiments, the pull-out moving mechanism 500 further includes an upper and lower photoelectric sensor (not shown in the drawings) disposed on the base frame 200, a weighing sensor (not shown in the drawings) disposed at the bottom of the inner portion of the storage housing 510, a grating sensor (not shown in the drawings) disposed at the top of the storage housing 530 for detecting whether the object to be moved is ultra-high, an emission sensor (not shown in the drawings) disposed at the inner side wall of the storage housing 530 for detecting whether the object to be moved exists in the inner portion of the storage housing 530, an ultrasonic sensor 550 disposed at the outer end of the storage housing 510, and a warning light 560 disposed at the outer end of the storage housing; the upper and lower photoelectric sensors, the weighing sensor, the grating sensor, the correlation sensor, the ultrasonic sensor 550 and the warning lamp 560 are electrically connected with the MCU control chip.

In summary, the following steps: the drawing type moving mechanism is simple in structure, the storage outer shell is driven to move back and forth on the base frame through the back-and-forth moving structure, the storage inner shell is driven to move up and down on the base frame through the up-and-down moving structure, and the object is very simply and conveniently moved and transferred.

Example 2

Referring to fig. 1 to 9, the basic structure of the present embodiment is the same as that of embodiment 1, and the only difference is that the drawer type moving mechanism 500 only includes a storage housing 510 sliding back and forth on the base frame 200, and a back and forth moving mechanism 520 driving the storage housing 510 to move back and forth; the front-back moving structure 520 comprises a front-back moving motor 521 fixedly arranged on the base frame 200 and electrically connected with the MCU control chip, a front-back rotating gear 522 in transmission connection with a power output shaft of the front-back moving motor 521, and a front-back moving rack 523 engaged with the front-back rotating gear 522 and fixedly connected with the storage shell 510; the bottom of the storage shell 510 is provided with a front slide block 511 and a rear slide block 511; the base frame 200 is provided with front and rear slide rails 512 which are engaged with the front and rear sliders 511.

Compared with the embodiment 1, the pull-out type moving mechanism 500 lacks the storage inner housing 530 sliding up and down in the storage outer housing 510 and the up-down moving structure 540 driving the storage inner housing 530 to move up and down, so that the pull-out type moving mechanism 500 can only move back and forth. Because, in a specific application scenario, there are scenarios that do not require the drawer type moving mechanism 500 to move up and down.

Example 3

Referring to fig. 1 to 13, a storage cabinet includes a cabinet 100 having an access port 130 and storage cells 140, a control electrical box 300 disposed in the cabinet 100, a touch screen 400 disposed outside the cabinet 100, a pull-out moving mechanism 500 as in embodiment 1 disposed in the cabinet 100, a turnover box 600 disposed in an inner housing 530, and a stacker for transferring the turnover box 600. The cabinet 100 includes a frame 110, and a panel 120 disposed outside the frame 110; the frame 110 is the base frame 200 of embodiment 1. The control electric box 300 comprises a circuit board and an MCU control chip arranged on the circuit board; the touch screen 400, the front-back moving motor 521 and the up-down moving motor 5431 are electrically connected with the MCU control chip.

Further, in other embodiments, the storage compartments 140 include a first storage compartment 141 (at least one size) located on an outer side wall of the cabinet 100, and a second storage compartment 142 (at least one size) located on an inner side of the cabinet 100. A single-door and an electromagnetic lock for locking the single-door are rotatably arranged on the outer side of the first storage lattice 141; an inlet and an outlet are formed in the inner side of the second storage lattice 142; the man-machine interaction device transfers the storage items from the access port 130 to the second storage space 142, or transfers the storage items from the second storage space 142 to the access port 130.

Further, in other embodiments, the first storage compartment 141 is also disposed at the lower end or the side end of the outer side wall of the cabinet 100.

Further, in other embodiments, a rotating mechanism 150 is disposed in the first storage compartment 141 located at the middle upper portion of the lateral side end of the cabinet 100.

Specifically, the rotating mechanism 150 includes a storage rack 151 rotatably disposed in the first storage compartment 141, and a return member 152 having two ends respectively connected to the storage rack 151 and the cabinet 100; a handle 153 is arranged at the front end of the storage rack 151; the return member 152 is a spring, a leaf spring, or a cylinder.

Further, in other embodiments, the cabinet further includes a two-dimensional code scanner 410, an identity card reader 420 and a speaker 430, which are disposed in the cabinet 100 and electrically connected to the MCU control chip.

Further, in other embodiments, the storage environment recording device further includes a storage environment recording camera 440, an ambient environment recording camera 450 and a human face recognition camera 460 which are disposed in the cabinet 100 and electrically connected to the MCU control chip.

Further, in other embodiments, an auxiliary uncapping mechanism 700 is included; the auxiliary cover opening mechanism 700 includes a mounting seat 710 fixed to the cabinet 200, two guide rods 720 fixed to the mounting seat 710, a support bracket 730 slidably sleeved on the guide rods 720, and an elastic return member 740 (specifically, a spring) arranged between the support bracket 730 and the mounting seat 710; the support bracket 730 is slidably sleeved on the guide rod 720; the support bracket 730 includes a sliding part 731 slidably disposed along the guide bar 720, and a support part 732 fixedly connected to the sliding part 731.

More specifically, the sliding part 731 is a sleeve slidably sleeved on the guide rod; the supporting portion 732 includes a connecting portion 7321 fixedly connected to the sliding portion 731 (sleeve), and an L-shaped bracket 7322 fixedly connected to the connecting portion 7321. A guide wheel 733 is arranged at the outer end of the bracket 7322; the upper end surface of the guide wheel 733 is slightly higher than the upper end surface of the bracket 7322.

Specifically, the turnover box 600 includes a box body 610 and a box cover 620 covering the upper end of the box body 610; the upper end of the front end of the case cover 620 is provided with a limit block 630.

Specifically, sliding grooves 611 are formed in two opposite sides of the box body 610; the corresponding two sides of the box cover 620 are provided with sliding blocks 621; the sliding block 621 is slidably disposed in the sliding groove 611, so as to realize the sliding connection between the case cover 620 and the case 610. In addition, the cross section of the sliding groove 611 is concave, and the opening faces outwards; the cross section of the sliding block 621 is in an L shape, and comprises a vertical part fixedly connected with the box cover 620 and a transverse part arranged in the sliding groove in a sliding manner; the height of the sliding groove 611 is greater than the thickness of the horizontal portion.

Further, in other embodiments, in order to facilitate loading the circulation box 600 into the storage inner case 530, the outer front end upper side and the rear end lower side of the storage inner case 530 are provided with guide sliders 532 inclined outward.

In summary, the following steps: because the storage cabinet adopts the pull-out type moving mechanism in the embodiment 1, when a user stores articles, the operation is very convenient, and the pull-out type moving mechanism and the stacker can be controlled to drive the turnover box to the access opening only by operating on the touch screen to store or take out the articles, so that the use of the user is greatly facilitated; the turnover box can move smoothly and stably in the cabinet body back and forth and up and down.

In addition, the storage grids are composed of first storage grids positioned at the lower side and the right side of the cabinet body and second storage grids positioned at other positions except the lower side and the right side of the cabinet body, so that the lower end of the framework shape of the cabinet body can be away from one end of the ground in order to provide a running space for the pull-out type mobile device, and in order to fully utilize the space, the first storage grids are arranged in the space between the lower end of the framework and the ground, so that a user can manually store some articles; similarly, the left side/right side of the cabinet body is also provided with a first storage grid.

When the height of the cabinet body is higher, the position of the first storage grid arranged at the topmost end of the left/right sides of the cabinet body is higher, so that an inconvenient user can manually store and take articles.

When goods are stored in the storage cabinet, the specific use process is as follows:

1) clicking a login interface in a UI (user interface) on a touch screen to realize login, wherein the login is realized in at least the following two ways:

a. a user operates a platform such as an APP (application) program, an applet or a WeChat public number provided by an operator corresponding to the storage cabinet on an intelligent terminal (such as a smart phone or a tablet personal computer), after logging in through a user account and a password, generating a two-dimensional code corresponding to order information after filling in order information such as a user contact number, a contact address and a goods size, and recognizing the two-dimensional code by a two-dimensional code scanner to realize quick login and goods storage ordering;

b. after a user inputs a user account and a password on the touch screen through the virtual keyboard for login, the user can quickly login and order storage and order placement of goods after filling in order information such as a user contact number, a contact address and goods size.

After the rapid login and the goods storage ordering are completed, the MCU control chip correspondingly generates an order number for a user to use when taking out the deposited goods and paying the order;

2) according to the size of the goods selected by the user, the MCU control chip selects a first storage grid or a second storage grid in the most appropriate vacant state; when a first storage grid is selected, the MCU control chip directly opens the single-door electromagnetic lock of the first storage grid, and a user can close the single-door after storing articles; when a second storage grid is selected, the transfer box in the second storage grid is transported to the access port by the pull-out type moving mechanism, and the storage port is triggered to be in an open state;

2a) when the pull-type moving mechanism only consists of the storage shell and the front-back moving structure, the MCU control chip controls the stacker to transfer the turnover box into the storage shell, and then the front-back moving structure drives the storage shell to extend out of the access opening of the storage cabinet, so that the turnover box placed in the storage shell is driven to extend out of the access opening;

2b) when the pull-out type moving mechanism consists of a storage outer shell, a storage inner shell, a front-back moving structure and a front-back moving mechanism, the MCU control chip controls the stacker to transfer the turnover box into the storage inner shell, then the front-back moving mechanism drives the storage inner shell to descend into the storage outer shell, and then the front-back moving mechanism drives the storage outer shell to extend out of the access port from the storage cabinet, so that the storage inner shell (and the turnover box) placed in the storage outer shell are driven to extend out of the access port;

3) when the turnover box extends out of the access opening, the limiting block at the front end of the box cover automatically separates the box cover from the box body under the stopping action of the stopping block; after the box body moves forwards, the guide wheel of the auxiliary cover opening mechanism takes over the position of the box body under the action of the elastic piece, and the rear end of the box cover is supported to prevent the box cover from sliding off the box body. After a user puts goods to be deposited into a turnover box, the MCU control chip controls the front-back moving mechanism to drive the storage shell to retract, then the weighing sensor weighs the goods to be deposited, whether the initial weight of the goods to be deposited exceeds the standard (if the upper limit weight of the goods to be deposited is 20KG or 50KG) is judged, if the initial weight of the goods to be deposited does not exceed the preset weight threshold, the step 4 is executed, and if the initial weight of the goods to be deposited exceeds the preset weight threshold, the weight exceeding prompt is carried out through the touch screen so that the user lightens the weight of the goods to be deposited;

4) the access opening is closed, and the transfer container is transported to the second storage grid corresponding to the initial placement of the transfer container by the pull-out moving mechanism (the specific process refers to the reverse process of step 2a or 2 b).

When the user needs to take out the deposited article, the process is as follows:

5) after a user inputs an order number and pays successfully through an APP application program, an applet, a WeChat public number or other platforms provided by an operator corresponding to the storage cabinet running on an intelligent terminal (such as a smart phone), or after the user inputs the order number and pays successfully through a virtual keyboard on a touch screen of the multifunctional intelligent storage cabinet, corresponding first storage grids or second storage grids are correspondingly searched according to the order number;

6) when the first storage grid is searched correspondingly according to the order number, the MCU control chip controls the electromagnetic lock corresponding to the first storage grid to be opened, so that a single door of the MCU control chip is opened, and a user can directly take out stored articles; when the second storage grid is searched, the transfer box in the second storage grid is transported to the access port by the pull-out type moving mechanism (the specific process refers to the reverse process of the step 2a or 2b), the articles in the transfer box are weighed by the weighing sensor, and whether the current weight of the articles is the initial weight of the articles is judged;

7) if the current weight of the articles is the initial weight of the articles, the access opening is in an open state, the user takes out the goods in the turnover box, the box cover is covered and then placed back to the storage inner shell, and the access opening is closed;

8) the turnover box is transported to a second storage grid corresponding to the initial placement of the turnover box by a pull type moving mechanism and a stacker.

In steps 1) -4), the user-owned use scenario of the storage cabinet corresponds to (the user selects the service type to register in the UI interface on the touch screen), and in steps 5) -8), the user-owned use scenario of the storage cabinet corresponds to (the user selects the service type to self-fetch in the UI interface on the touch screen).

The multifunctional intelligent storage cabinet can also be applied to application scenes of storage, replacement, sale and lease.

For example, in a storage-instead use scenario of a storage cabinet (where a user selects a service type as storage-instead in a UI interface on a touch screen), the difference from the storage-instead use scenario of the user is that the deposited goods are obtained from a third-party storage company or a system platform similar to a courier order, and help others deposit the goods to be deposited into the storage cabinet at a specified location. The storage cabinet at the designated location may be a local storage cabinet or a remote storage cabinet, and the designated location is set by the principal (similar to setting the destination address of the courier).

In the replacing use scene of the storage cabinet (the user selects the service type as replacing in the UI interface on the touch screen), the difference from the self-taken use scene of the user is that the replaced goods are obtained from a third-party replacing company or a system platform similar to a courier order, and other people are helped to take out the goods to be replaced from the multifunctional intelligent storage cabinet and then send the goods to a designated position.

In a sale use scene of the storage cabinet (a user selects a service type as shopping in a UI (user interface) on a touch screen), the user can directly select the goods stored in the storage box of the storage cabinet in a shopping interface corresponding to the UI on the touch screen, or can perform online shopping and make the goods delivered to a specified position. For example, a user a starts in a plane in a1 city and has a destination in a2 city, and in order to purchase some specialties in a2 city, a store within 2 kilometers around the destination position in the a2 city may be selected directly in an online mall corresponding to the storage cabinet, and after selecting an order for an item purchased in the store, the user a is entrusted to store the purchased item to the storage cabinet at a designated position in the a2 city.

In a renting use scene of the storage cabinet (the user selects the type of the service as renting in the UI interface on the touch screen), the user can directly select the goods (such as a mobile power supply) stored in the storage box of the storage cabinet in the renting interface corresponding to the UI interface on the touch screen, and the rented goods are taken away after the deposit is paid successfully. After use, the rented item may be returned, in a process similar to the self-pickup process.

The technical content of the present invention is further described by the embodiments only, so that the reader can understand it more easily, but the embodiments of the present invention are not limited thereto, and any technical extension or re-creation according to the present invention is protected by the present invention. The protection scope of the present invention is subject to the claims.

Claims (11)

1. A pull formula moving mechanism which characterized in that: comprises a base frame, a storage shell which slides back and forth on the base frame, and a back-and-forth movement structure which drives the storage shell to move back and forth; the front-back moving structure comprises a front-back moving motor fixedly arranged on the base frame, a front-back rotating gear in transmission connection with a power output shaft of the front-back moving motor, and a front-back moving rack which is meshed with the front-back rotating gear and fixedly connected with the storage shell.

2. The drawer slide of claim 1, wherein: the outer wall of the storage shell is provided with a front sliding block and a rear sliding block; the base frame is provided with a front sliding rail and a rear sliding rail which are matched with the front sliding block and the rear sliding block.

3. The drawer slide of claim 1, wherein: the storage inner shell slides up and down in the storage outer shell, and the up-and-down moving structure drives the storage inner shell to move up and down; the up-down moving structure comprises a hook for hanging and taking the inner shell, a connecting frame fixedly connected with the hook, and a power assembly for driving the connecting frame to move up and down; the power assembly comprises an up-down moving motor fixedly arranged on the base frame, an up-down rotating gear in transmission connection with a power output shaft of the up-down moving motor, and an upper rack and a lower rack which are meshed with the up-down rotating gear and fixedly arranged on the connecting frame.

4. The drawer slide of claim 3, wherein: an upper sliding block and a lower sliding block are arranged on the inner side wall of the storage shell; the outer side wall of the storage inner shell is provided with an upper sliding rail and a lower sliding rail which are matched with the upper sliding block and the lower sliding block.

5. The drawer slide of claim 3, wherein: the outer end of the inner storage shell is provided with a guide sliding block which inclines outwards; and/or the cross section of the hook is concave, and the opening of the hook faces upwards; and grooves matched with the hooks are arranged at the left top end and/or the right top end of the outer side wall of the storage inner shell.

6. The drawer slide of claim 3, wherein: the first limiting assembly and/or the second limiting assembly are/is used for limiting the up-and-down moving direction of the connecting frame;

the first limiting component comprises a limiting column fixedly arranged on the connecting frame and a limiting plate fixedly arranged on the base frame; the limiting plate is provided with a limiting hole for the limiting column to move up and down.

7. The drawer slide of claim 6, wherein: the second limiting assembly comprises a limiting sliding block fixedly arranged on the connecting frame and a limiting sliding rail vertically arranged on the base frame; the limiting slide block moves up and down along the limiting slide rail.

8. The drawer slide of claim 3, wherein: still including locating the upper and lower photoelectric sensor of bed frame, locate deposit the weighing sensor of the inside bottom of shell, locate deposit the inner shell top and be used for detecting whether the object moved superelevation grating sensor, locate deposit the inner shell inside wall and be used for detecting whether the object moved exists by the detection of depositing the inner shell inside correlation sensor, locate deposit the ultrasonic sensor of shell outer end and locate deposit in the warning light of shell outer end at least one.

9. A cabinet, its characterized in that: the pull type moving mechanism comprises a cabinet body provided with an access port and a storage grid, a control electric box arranged in the cabinet body, a touch screen arranged on the outer side of the cabinet body, and the pull type moving mechanism arranged in the cabinet body and provided with any one of claims 3 to 7; the control electric box comprises a circuit board and an MCU control chip arranged on the circuit board; the touch screen, the front-back moving motor and the up-down moving motor are electrically connected with the MCU control chip; the cabinet body comprises a framework and a panel arranged on the outer side of the framework; the framework is the base frame.

10. A storage cabinet according to claim 9, wherein: the automatic storage device is characterized by further comprising a turnover box arranged on the storage inner shell and a stacker used for transferring the turnover box and electrically connected with the MCU control chip.

11. A storage cabinet according to claim 9, wherein: still including locating the cabinet external side and with MCU control chip electric connection's two-dimensional code scanner, ID card ware of punching the card, loudspeaker, deposit at least one in environment admission camera, surrounding environment admission camera and the human facial recognition camera.

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