CN213634668U - Intelligent work shoe distribution device - Google Patents

Abstract

The utility model discloses an intelligent distributing device for working shoes, which comprises a shoe storage mechanism, an automatic shoe discharging mechanism and a goods taking cabinet door, wherein the shoe storage mechanism comprises a plurality of layers of horizontal conveying assemblies, the horizontal conveying assemblies are used for placing a plurality of pairs of working shoes of the same type, and the working shoes placed at the upper ends of the horizontal conveying assemblies are successively conveyed to one side; the automatic shoe discharging mechanism is arranged on one side of the shoe storage mechanism and used for receiving and transporting the working shoes falling off the shoe storage mechanism, and comprises a vertical movement module, a horizontal movement module, a motor III, a rotary driving mechanism II and a goods basket; the goods taking cabinet door is arranged on the front side of the automatic shoe discharging mechanism and is in a closed state in a normal state. Work shoes that will drop from storing up shoes mechanism through automatic shoes mechanism of going out remove to getting goods cabinet door department to will get the goods cabinet door through the goods basket and push open, realize offering of work shoes, judge through RFID antenna and correlation photoelectric sensor whether work shoes are offered successfully, improve the accuracy, can realize intelligent offering with the cooperation of software system.

Description

Intelligent work shoe distribution device

Technical Field

The utility model relates to an intelligence granting system technical field, concretely relates to work shoes intelligence granting device and granting system.

Background

Traditional work shoe is provided cabinet, only possesses and provides the function, and the discrepancy, personnel's in service behavior, inventory condition, the flow management and control of work shoe need rely on the administrator to go manual record and statistics. Not only is time and labor consumed, but also the probability of errors is high, the heading of the working shoes cannot be accurately recorded, and once the errors cause loss, direct economic loss is brought. And the traditional work shoe sending mode mainly sends the work shoes directly, does not consider the convenience, safety and experience of taking personnel, and is not intelligent enough.

Along with the deep promotion of medical informatization, intellectuality, the needs of operating room personnel action management, work shoes intelligence issue system need more intellectuality, hommization, and the person of getting need not to bend over or squat and take work shoes, need effectively to supervise work shoes to reach and stock simultaneously, to the pursuit of personnel, work shoes in real time, control risk.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide an intelligent work shoe distribution device, which realizes the quick and accurate distribution of work shoes.

Therefore, the utility model provides a device is provided to work shoes intelligence, include: store up shoes mechanism, go out shoes mechanism automatically and get cargo cabinet door.

The shoe storage mechanism comprises a plurality of layers of horizontal conveying assemblies which are arranged in the vertical direction, wherein the horizontal conveying assemblies are used for placing a plurality of pairs of working shoes of the same type, and conveying the working shoes placed at the upper ends of the horizontal conveying assemblies to one side one by one.

The automatic shoe discharging mechanism is arranged on one side of the shoe storage mechanism and used for receiving and transporting the working shoes falling from the shoe storage mechanism and comprises a vertical movement module, a horizontal movement module, a motor III, a rotary driving mechanism II and a goods basket.

The goods taking cabinet door is arranged on the front side of the automatic shoe discharging mechanism and is in a closed state in a normal state, the automatic shoe discharging mechanism moves the working shoes falling from the shoe storage mechanism to the goods taking cabinet door, and the goods taking cabinet door is pushed open through the goods basket, so that the issuing function is realized.

Furthermore, the left side and the right side of the basket are provided with detection gratings, the bottom of the basket is provided with RFID antennas, and the detection gratings and the RFID antennas are respectively in signal connection with the data processing unit.

Further, the shoe storage mechanism comprises a mounting bracket, a driving roller, a driven roller, a bearing seat, a conveying belt and a first rotary driving mechanism.

Further, the first rotary driving mechanism comprises a first motor and a speed regulator in signal connection with the first motor.

Furthermore, get the goods cabinet door and include that get the goods door, rotation axis fixed plate, torsional spring fixed axle and main control door limiting plate.

Furthermore, the intelligent issuing device further comprises a cabinet door body, a touch display screen, an identity recognition module and a data processing unit, wherein the touch display screen is installed on the cabinet door body and used for inputting and displaying the goods number, and the identity recognition module is used for supplementing the goods and recognizing the goods taking authority.

Further, the identity recognition module comprises at least one of a fingerprint recognition module, an IC card reading module and a facial recognition module.

Furthermore, still be equipped with on the cabinet door body with data processing unit signal connection's voice broadcast module, status indicator lamp and digital power amplifier board.

Furthermore, a correlation photoelectric sensor which is right opposite to the delivery end of the shoe storage mechanism is arranged on the inner side of the cabinet for placing the shoe storage mechanism and the automatic shoe delivery mechanism.

Further, still be equipped with proximity switch, ozone disinfection machine and UPS power supply module on the rack, just proximity switch sets up the left side gate and the right side gate junction of rack.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a device is provided to work shoes intelligence, through automatic go out shoes mechanism and will follow the work shoes that drop in the storage shoes mechanism remove to getting goods cabinet door department, and will through the goods basket get the goods cabinet door and push open, realize providing of work shoes to judge whether to provide the success of work shoes through RFID antenna and correlation photoelectric sensor, improve the accuracy, can realize intelligent the granting with the cooperation of software system.

Through authority management functions such as input module, IC card reading, fingerprint identification, facial discernment and management system connection, record operator's information, know the work shoes and go to, realize the work shoes and take personnel and bind one by one to accomplish the effective supervision of work shoes.

Chip information on the work shoes is scanned and identified through RFID antennas installed in the cabinet, information is transmitted to a cabinet data processor, finally inventory data are displayed on a touch display screen, real-time inventory quantity monitoring is achieved, and the intelligent electronic shoe management system has the functions of RFID automatic sensing, intelligent checking, real-time inventory display, personnel authority management, access control management, remote monitoring, voice broadcast module prompting and the like.

In addition to the above-described objects, features and advantages, the present invention has other objects, features and advantages. The present invention will be described in further detail with reference to the drawings.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural view of the intelligent device for dispensing work shoes of the present invention;

FIG. 2 is a schematic structural view of an automatic shoe discharging mechanism in the intelligent dispensing device for work shoes of the present invention;

FIG. 3 is a schematic structural view of a horizontal conveying component in the intelligent distributing device for work shoes of the present invention; and

fig. 4 is the schematic structural view of the door of the goods-taking cabinet in the intelligent distributing device for working shoes.

Description of the reference numerals

1. A cabinet; 2. a left gate; 3. a right gate; 4. a control cabinet door; 5. a shoe storage mechanism; 6. an automatic shoe discharging mechanism; 7. an ozone sterilizer; 8. a UPS power supply assembly; 9. a proximity switch; 10. a mains supply and signal transmission line; 11. A universal caster; 12. a correlation photoelectric sensor; 21. a replenishment bar code display screen; 22. an RFID replenishment antenna;

41. a status indicator light; 42. a voice broadcasting module; 43. a face recognition module; 44. a touch display screen; 45. a fingerprint identification module; 46. an IC card reading module; 47. a door of the goods taking cabinet; 48. a digital power amplifier board; 49. a data processing unit; 410. a cabinet door body; 471. a goods taking door; 472. a rotating shaft fixing plate; 473. a torsion spring; 474. a torsion spring fixing shaft; 475. a main control door limiting plate;

51. a replenishment guidance lamp; 52. a drive roll; 53. a driven roller; 54. a bearing seat; 55. a conveyor belt; 56. expanding and tightening the adjusting block; 57. expanding the bolt; 58. a support plate; 59. a first motor; 510. a first conveying belt wheel; 511. a first transmission belt; 512. a second conveying belt wheel; 513. a speed regulator; 514. mounting a bracket;

61. a vertical motion module; 62. a horizontal movement module; 63. a third motor; 64. a connecting rod; 65. detecting the grating; 66. A basket; 67. a third conveying belt wheel; 68. a second transmission belt; 69. a fourth conveying belt wheel; 610. a second motor; 611. a motor fixing plate; 612. a bearing assembly; 613. an RFID antenna.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Fig. 1-4 illustrate some embodiments according to the present invention.

As shown in fig. 4, the utility model discloses a work shoe intelligent issuing system, including rack 1, identification module, touch display screen 44, RFID antenna 613 and data processing unit 49.

Wherein, the inside of the cabinet 1 is provided with a shoe storage mechanism 5, an automatic shoe outlet mechanism 6 and a goods taking cabinet door 47; the identity recognition module is used for acquiring replenishment and goods taking permission; the touch display screen 44 is used for displaying the goods number of the stored work shoes and the goods number input end.

The RFID antenna 613 is arranged on the cargo basket 66 of the automatic shoe discharging mechanism 6 and used for reading RFID chip labels adhered to taken work shoes and judging that the work shoes are discharged; the data processing unit 49 is in signal connection with the identity recognition module, the touch display screen 44 and the RFID antenna 613 respectively, and is used for processing signal data and uploading the goods number of the stored work shoe to a remote database.

As shown in fig. 1, according to the functional modules of the above-mentioned dispensing system, an intelligent dispensing device for work shoes is designed, and the dispensing device includes a cabinet 1, a left gate 2 and a right gate 3 at the front side of the cabinet, a control cabinet door 4, a shoe storage mechanism 5 installed inside the cabinet 1, an automatic shoe discharging mechanism 6, and a mains supply and signal transmission line 10, wherein a plurality of different types of similar work shoes are placed on the shoe storage mechanism 5, and a control unit on the control cabinet door 4 controls the automatic shoe discharging mechanism 6 to work, so that the work shoes in the shoe storage mechanism are dispensed from the cabinet 1.

Specifically, the front of the cabinet 1 comprises a left gate 2, a right gate 3 and a control cabinet door 4, the side and the back of the cabinet are provided with detachable panels, and devices such as a shoe storage mechanism 5 and an automatic shoe discharging mechanism 6 can be conveniently installed inside the cabinet by detaching the detachable panels.

Wherein, store up shoes mechanism 5 and constitute by a plurality of horizontal transport assembly, horizontal transport assembly uses the module to assemble as the unit from 1 side door of rack, along every layer of limiting plate equipment and fix inside rack 1, and horizontal transport assembly is provided with nine layers from the top down altogether, and every horizontal transport assembly all has a conveyer belt 55, can place the work shoes of different specifications on the conveyer belt on the horizontal transport assembly of different layers.

The automatic shoe discharging mechanism 6 is located on the side face of the shoe storage mechanism 5, when the conveying belt 55 moves, the working shoes placed on the upper side of the automatic shoe discharging mechanism can be conveyed to the automatic shoe discharging mechanism 6, and then the goods taking cabinet door 47 located on the control cabinet door 4 on the front side of the automatic shoe discharging mechanism 6 is output to be taken by goods taking personnel.

Specifically, as shown in fig. 3, each horizontal conveying assembly on the shoe storage mechanism 5 includes a replenishment guiding lamp 51, a mounting bracket 514, a driving roller 52, a driven roller 53, a bearing seat 54, a conveying belt 55, and a first rotary driving mechanism, wherein the driving roller 52 and the driven roller 53 are mounted at two ends of the mounting bracket 514 through the bearing seats 54, the first rotary driving mechanism drives the driving roller 52 to rotate, further drives the driven roller 53 and the conveying belt 55 to rotate, conveys the work shoes placed on the conveying belt 55 to one end, and drops the work shoes at the forefront end into the automatic shoe discharging mechanism 6.

Wherein, drive roll 52 and driven voller 53 one side are equipped with the tight adjustment mechanism who comprises bloated tight regulating block 56 and bloated tight bolt 57, through bloated tight bolt 57 with bloated tight regulating block 56 regulation conveyer belt 55's elasticity, prevent that conveyer belt 55 from too relaxing, drive roll 52 can't drive conveyer belt 55 and rotate, store up shoes mechanism 5 and still include backup pad 58, backup pad 58 is located the conveyer belt 55 below on upper strata, play the supporting role.

Specifically, as shown in fig. 2, the automatic shoe discharging mechanism 6 includes a vertical movement module 61, a horizontal movement module 62, a third motor 63, a second rotation driving mechanism and a basket 66, the second rotation driving mechanism is used for driving the horizontal movement module 62 connected with the upper sliding block of the vertical movement module 61 to move up and down, and the third motor 63 is used for driving the basket 66 connected with the upper sliding block of the horizontal movement module 62 to move horizontally.

Wherein, the goods basket 66 is the open cuboid box structure of top surface and front end side, the installation is provided with detection grating 65 on the side about the goods basket 66 for whether the work shoes that detect on the conveyer belt 55 drop and get into the goods basket, the bottom of goods basket 66 is provided with RFID antenna 613, during the work shoes that are on the conveyer belt 55 drop and get into the goods basket, RFID antenna 613 reads the RFID chip label information on the work shoes, and upload data to remote database, the system binds the work shoes and personnel's information according to data information.

Specifically, as shown in fig. 1, the control cabinet door 4 includes a cabinet door body 410 and a touch display screen 44 installed on the cabinet door body 410, an identity recognition module, a voice broadcast module 42, a status indicator lamp 41, a digital power amplifier board 48, a data processing unit 49, and a goods taking cabinet door 47, wherein the touch display screen 44, the identity recognition module, the voice broadcast module 42, and the status indicator lamp 41 are all in signal connection with the data processing unit 49, the data processing unit 49 obtains a data signal and controls an electronic component in signal connection therewith to work, and meanwhile, the goods number of the work shoe stored in the cabinet is transmitted to a remote database center through a commercial power and a signal transmission line.

The touch display screen 44 is used for displaying the goods number of the existing work shoe, and can also be used as an input unit for inputting the goods number of the work shoe to be issued; the identity recognition module is used for acquiring the authority of replenishing or taking goods; voice broadcast module 42 is used for prompting user operation step and broadcasting the relevant information such as the goods and numbers of the work shoes of getting, and digital merit amplifier board 48 and voice broadcast module 42 signal connection for enlarge the processing to voice broadcast module 42's volume.

The identity identification module comprises a fingerprint identification module 45, an IC card reading module 46 and a face identification module 43, and the replenishment or delivery authority is acquired through any one of the fingerprint identification module 45, the IC card reading module 46 and the face identification module 43.

In particular, the fingerprint identification module 45 adopts an optical fingerprint module CAMA-SM20, which has a little lower optical cost, but has a long service life and is also widely applied.

The IC card reading module 46 adopts a ZJ-HM213 card reading module which supports 13.56MHz low-power consumption reading and writing modules of Mifare S50/S70, Ultralight, Mifare Pro and other series cards; has the following characteristics: 3.3V low-power consumption, support the development of android system, adopt ARM nuclear CPU, small in size, the embedding of being convenient for, single face cloth put components and parts, half-hole paster encapsulation.

The face recognition module 43 adopts an entropy-based technology FAM520 face recognition module, and the FAM520 is a high-performance face module which integrates visible light and near-infrared face collection, has 200 ten thousand pixels and integrates a face algorithm encryption chip. The system can be used for the entropy-based science and technology 'witness magic cube' identity verification system seamlessly, and functions of Face template collection, Face comparison and the like can be realized by combining the entropy-based science and technology ZKLive Face SDK development kit.

As shown in fig. 4, the access door 47 includes an access door 471, a rotating shaft fixing plate 472, a torsion spring 473, a torsion spring fixing shaft 474, and a main control door limiting plate 475, the access door 471 is rotatably connected to the door body 410 through the rotating shaft fixing plate 472 and the torsion spring fixing shaft 474, and the torsion spring 473 is mounted on the torsion spring fixing shaft 474, so that the access door 471 is closed without being subjected to an external force.

When the motor three-drive horizontal movement module 62 drives the basket 66 and the taken work shoes to move forward, the pair of bearing assemblies 612 at the front end of the basket 66 pushes the taking door 471 to rotate around the torsion spring fixing shaft 474, so that the taken work shoes are conveyed to a place where a user can take the work shoes.

Specifically, a replenishment bar code display screen 21 and an RFID replenishment antenna 22 are arranged on the left gate 2, the RFID replenishment antenna 22 is used for identifying RFID chip labels on work shoes to which information is pasted, and the replenishment bar code display screen 21 is used for displaying information on the RFID chip labels.

In some embodiments, the first and second rotary drive mechanisms each include a motor, two conveyor pulleys, and a conveyor belt.

Specifically, as shown in fig. 3, the first rotary driving mechanism includes a first motor 59, a first conveyor belt wheel 510, and a second conveyor belt wheel 512, wherein the first motor 59 is in transmission connection with the first conveyor belt wheel 510 and drives the first conveyor belt wheel 510 to rotate, and then the first conveyor belt 511 drives the second conveyor belt wheel 512 to rotate, so that the driving roller 52 connected with the second conveyor belt wheel 512 rotates, and finally the conveyor belt 55 and the driven roller 53 rotate. Wherein, one side of the motor one 59 is connected with a speed regulator 513 through a signal wire, and the speed regulator is used for regulating the rotating speed of the motor one 59 to enable the conveying belt 55 to move slowly and convey the working shoes of the last year forward one by one.

Specifically, as shown in fig. 2, the second rotary driving mechanism includes a second motor 610, a third conveyor belt 67, a second transmission belt 68, a fourth conveyor belt 69, and a motor fixing plate 611, wherein the second motor 610 is fixedly mounted through the motor fixing plate 611, the third conveyor belt 67 is connected to an output shaft of the second motor 610, the third conveyor belt 67 and the fourth conveyor belt 69 are chain-driven through the second transmission belt 68, and the vertical movement module 61 in the automatic shoe discharging mechanism 6 is in transmission connection with the fourth conveyor belt 69 in the second rotary driving mechanism.

As shown in fig. 2, the automatic shoe discharging mechanism 6 is provided with two vertical movement modules 61, a connecting rod 64 is arranged between the two vertical movement modules 61, and the power provided by the second rotary driving mechanism can be transmitted to the two vertical movement modules 61 through the connecting rod 64.

In one embodiment, as shown in fig. 1, the delivery end of the shoe storage mechanism 5 is provided with the correlation photoelectric sensor 12 for monitoring whether the working shoes are in the falling position or not at the delivery end of the shoe storage mechanism 5 in real time, so that the delivery waiting time is saved.

In an embodiment, as shown in fig. 1, six casters 11 are installed at the bottom of the cabinet 1, the movement is flexible and convenient, and the casters 11 have a locking function, so that the cabinet can be fixed at a designated place.

In one embodiment, as shown in fig. 1, the UPS power supply assembly 8 is mounted at the bottom of the cabinet 1, and supports continuous power supply for one hour after power failure; the cabinet 1 is provided with an ozone sterilizer 7 which can sterilize the working shoe cabinet at regular time.

In an embodiment, as shown in fig. 1, a proximity switch 9 is further disposed at the front end of the cabinet 1 and located at a position where the left gate 2 and the right gate 3 are connected, and when the replenishment process is finished, the system determines whether the left gate 2 and the right gate 3 are closed through the proximity switch 9.

The working process of the intelligent device for distributing the working shoes of the utility model is as follows:

and (3) a replenishment working process: before the work shoes are put into the shoe storage mechanism 5, the RFID chip labels with written information are firstly pasted on the outer package of the work shoes, and the replenishment personnel acquire the authority to open the replenishment process in any one mode of the fingerprint identification module 45, the IC card reading module 46 and the face identification module 43.

Then, the left gate 2 and the right gate 3 are opened, the RFID chip labels with information pasted on the work shoes are close to the RFID replenishment antenna 22, the RFID replenishment antenna 22 scans to obtain RFID chip label information, data are displayed on the replenishment bar code display screen 21 through RFID, and the data processing unit 49 controls the replenishment guide lamp 51 on the corresponding layer of shoe storage mechanism 5 to flicker according to the RFID chip label information obtained by scanning of the RFID replenishment antenna, stores the data and uploads the information to the remote database.

Sequentially adding the work shoes, closing the left gate 2 and the right gate 3 when the goods are fully added, triggering the proximity switch 9, judging that the gates are successfully closed by the system, selecting to finish the goods supplement on the touch display screen 44 by a goods supplement person, and finishing the goods supplement process.

Fetching work: firstly, a user obtains the fetching authority through any one of the input module, the fingerprint identification module 45, the IC card reading module 46 and the face identification module 43, the software management system and the touch display screen 44 select the corresponding size of the working shoe, and the system judges the number of layers of the shoe storage mechanism 5 where the fetched working shoe is placed.

And a second motor 610 of the automatic shoe discharging mechanism 6 is started, and the horizontal movement module 62 is driven by the third conveying belt wheel 67, the second transmission belt 68, the fourth conveying belt wheel 69 and the connecting rod 64 to move up and down along the vertical movement module 61 to a corresponding number of layers to take out the working shoes.

When the first motor 59 of the shoe storage mechanism 5 is started, the first conveying belt wheel 510, the first transmission belt 511 and the second conveying belt wheel 512 drive the driving roller 52 to rotate, the driving roller 52 rotates to drive the conveying belt 55 and the driven roller 53 to rotate for a certain distance, and the working shoes fall into the goods basket 66 of the automatic shoe discharging mechanism 6.

After the falling detection grating 65 in the automatic shoe discharging mechanism 6 detects that the working shoes fall successfully, the RFID antenna 613 in the automatic shoe discharging mechanism 6 is started, the working shoes are read by the RFID chip label information with information pasted and written, and the data is uploaded to a remote database, and the system binds the working shoes with personnel information according to the data information; the automatic shoe discharging mechanism 6 moves to the starting point.

Meanwhile, the first motor 59 of the shoe storage mechanism 5 continues to rotate, and when the corresponding layer end opposite-emitting photoelectric sensor 12 detects that the next pair of working shoes moves to the position, to be dropped, at the front end of the shoe storage mechanism 5, the first motor 59 of the shoe storage mechanism 5 stops rotating.

After the basket 66 of the automatic shoe discharging mechanism 6 moves to the starting point, the motor III 63 of the automatic shoe discharging mechanism 6 is started to drive the basket 66 of the automatic shoe discharging mechanism 6 to move forward, and when the bearing assembly 612 of the automatic shoe discharging mechanism 6 moves to be in contact with the goods taking door 471, the bearing assembly 612 extrudes the goods taking door 471.

The goods taking door 471 rotates around the torsion spring fixing shaft 474 to be opened, simultaneously the torsion spring 473 deforms, the goods basket 66 of the automatic shoe discharging mechanism 6 moves to the terminal end, the motor III 63 stops working, the work shoes are conveyed out of the goods taking door 471,

then, voice broadcast module 42 reminds the user to get goods, and status indicator 41 twinkles simultaneously, and the back is taken away to the work shoes, and the detection grating 65 that drops in the automatic shoes mechanism 6 that goes out detects the work shoes and is taken out, and voice broadcast module 42 suggestion user door is about to close, notices safety, and the three 63 starts of motor of the automatic shoes mechanism 6 that goes out, drives the basket of goods 66 backward movement of the automatic shoes mechanism 6 that goes out.

When the basket 66 of the automatic shoe discharging mechanism 6 moves to a certain distance, the goods taking door 471 is slowly closed by the action force of the torsion spring 473, and after the basket 66 of the automatic shoe discharging mechanism 6 moves to the starting point, the goods taking process is finished.

Meanwhile, data are stored and information is displayed on the touch display screen in real time; meanwhile, the management system records and stores user personnel information and uploads the data to a remote database.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An intelligent work shoe dispensing device, comprising:

the shoe storage mechanism (5) comprises a plurality of layers of horizontal conveying assemblies which are arranged along the vertical direction, and the horizontal conveying assemblies are used for placing a plurality of pairs of working shoes with the same type and conveying the working shoes placed at the upper ends of the horizontal conveying assemblies to one side one by one;

the automatic shoe discharging mechanism (6) is arranged on one side of the shoe storage mechanism (5) and used for receiving and transporting the working shoes falling from the shoe storage mechanism (5), and comprises a vertical movement module (61), a horizontal movement module (62), a motor III (63), a rotary driving mechanism II and a basket (66);

the goods taking cabinet door (47) is arranged on the front side of the automatic shoe discharging mechanism (6) and is in a closed state in a normal state, the automatic shoe discharging mechanism (6) moves the working shoes falling from the shoe storage mechanism (5) to the goods taking cabinet door (47), and the goods taking cabinet door (47) is pushed open through the goods basket (66) so as to achieve a dispensing function.

2. The work shoe intelligent issuing device according to claim 1, characterized in that detection gratings (65) are installed on the left side and the right side of the basket (66), an RFID antenna (613) is arranged at the bottom of the basket (66), and the detection gratings (65) and the RFID antenna (613) are respectively connected with a data processing unit (49) through signal lines.

3. The intelligent work shoe dispensing device according to claim 1, wherein the shoe storage mechanism (5) comprises a mounting bracket (514), a driving roller (52), a driven roller (53), a bearing seat (54), a conveying belt (55) and a first rotary driving mechanism.

4. The intelligent work shoe dispensing device according to claim 3, wherein the first rotary driving mechanism comprises a first motor (59) and a speed regulator (513) in signal connection with the first motor (59).

5. The intelligent work shoe dispensing device according to claim 1, wherein the pick-up cabinet door (47) comprises a pick-up door (471), a rotating shaft fixing plate (472), a torsion spring (473), a torsion spring fixing shaft (474), and a main control door limiting plate (475).

6. The intelligent work shoe issuing device according to claim 1, further comprising a cabinet door body (410), a touch display screen (44) installed on the cabinet door body (410) and used for inputting and displaying a goods number, an identity recognition module used for recognizing goods replenishment and goods taking authority, and a data processing unit (49).

7. The intelligent work shoe issuing device according to claim 6, wherein said identification module comprises at least one of a fingerprint recognition module (45), an IC card reading module (46), and a face recognition module (43).

8. The intelligent work shoe issuing device according to claim 6, wherein the cabinet door body (410) is further provided with a voice broadcasting module (42) in signal connection with the data processing unit (49), a status indicator lamp (41) and a digital power amplifier board (48).

9. The intelligent work shoe issuing device according to claim 1, wherein the inner side of the cabinet (1) for placing the shoe storage mechanism (5) and the automatic shoe discharging mechanism (6) is provided with a correlation photoelectric sensor (12) which is opposite to the discharging end of the shoe storage mechanism (5).

10. The intelligent work shoe distribution device according to claim 9, wherein a proximity switch (9), an ozone disinfection machine (7) and a UPS power supply assembly (8) are further arranged on the cabinet (1), and the proximity switch (9) is arranged at the joint of the left gate (2) and the right gate (3) of the cabinet (1).

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