CN211115266U - Intelligent electronic storage cabinet - Google Patents

Abstract

The utility model relates to the technical field of intelligent storage cabinets, in particular to an intelligent electronic storage cabinet, which aims to reduce inconvenience caused by interruption in the process of taking articles by users, and comprises a plurality of cabinet bodies with storage space, cabinet doors for sealing the storage space and a host, and the technical proposal of the intelligent electronic storage cabinet comprises that the cabinet doors are provided with lock holes, the cabinet bodies are provided with locking components which are responsive to the host and matched with the lock holes, and the cabinet bodies are also provided with clamping components for limiting the locking components, the clamping components are arranged on the moving path of the locking components, and the cabinet doors are provided with triggering components for triggering the action of the clamping components, the locking functions of the locking components are limited in the processes of taking articles and placing the articles by the users through the clamping components, and after the users finish taking articles and placing the articles, the locking functions of the cabinet doors are restored by controlling the actions of the locking components and the lock holes through the triggering, thus reducing the inconvenience caused by interruption of the fetching process of the user.

Description

Intelligent electronic storage cabinet

Technical Field

The utility model relates to an intelligence locker technical field, in particular to intelligence electron locker.

Background

The electronic storage cabinet is a storage cabinet provided with an electronic controller system. The electronic storage cabinet is made of high-quality cold-rolled steel plates, an electronic management mode is adopted, and the safety coefficient is higher than that of the traditional storage cabinet. Electronic lockers are often found in supermarkets, libraries, shopping malls, etc. to facilitate temporary storage of items by a user.

In the existing electronic storage cabinet, when a user sends a storage request to a host, the host randomly opens a cabinet door of an empty cabinet for the user to store. And when the user opens the cabinet door by means of code scanning or password input and the like and takes articles, if the articles are not taken out completely but the cabinet door is closed due to misoperation, at the moment, the storage request can not be carried out to the controller again and the specific cabinet door is controlled to be opened specifically, under the condition, the user can only resort to a manager managing the cabinet door, the opening of the corresponding cabinet door is realized by the manager after identity registration verification and monitoring verification, whether other users open the cabinet door randomly or not needs to be checked in real time during the help seeking process, the user can continue to take the articles stored in the cabinet door after the manager opens the cabinet door, and the user can leave after closing the corresponding cabinet door after the articles are taken out.

Therefore, when the user needs to take out the articles after being interrupted when taking out the articles from the storage cabinet, the process is very complicated and needs to be further improved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an intelligence electron locker restricts the locking function of cabinet door when the user is not finished getting the thing action, resumes the locking function of locker after the thing action is got to the user completion, so reduces the user and is getting the inconvenient that the thing in-process was interrupted and is caused.

The above technical purpose of the present invention can be achieved by the following technical solutions:

the utility model provides an intelligence electron locker, includes that a plurality of has the cabinet body of storage space, rotates to connect in cabinet door and the host computer that the cabinet body is used for closed storage space, the lockhole has been seted up on the cabinet door, be provided with on the cabinet body and respond to the host computer and realize the locking subassembly of cabinet door locking with the lockhole cooperation, just still be provided with the joint subassembly that is used for injecing the locking subassembly on the cabinet body, the joint subassembly sets up on the removal route of locking subassembly, just be provided with the subassembly that triggers that is used for triggering the joint subassembly action on the cabinet door.

Through the technical scheme, deposit article at the cabinet body after, realize the closure of cabinet door through the cooperation between locking subassembly and the lockhole, and when not closing the door action, realize the spacing of locking subassembly through setting up the joint subassembly on locking subassembly moving path, reduce the locking phenomenon that the locking subassembly caused when the cabinet door mistake is closed, and accomplish article and take out the back at the user and then realize closing and the locking of cabinet door through triggering the subassembly, so reduce the user and get the inconvenient that the in-process was interrupted and cause.

The utility model discloses further set up to: the locking subassembly include sliding connection in the cabinet body and with lockhole complex sliding pin, the internal first electro-magnet of installing of cabinet, the sliding pin is close to the tip fixedly connected with of first electro-magnet and first electro-magnet actuation complex first sheetmetal, the sliding pin overcoat is equipped with first reset spring, the tip that the sliding pin is close to the cabinet door sets up to the round platform type.

Through the technical scheme, when a user needs to store or take out an article, the host controls the first electromagnet to be electrified, the first electromagnet attracts the first metal sheet after being electrified, so that the first metal sheet drives the sliding pin to slide to be separated from the lock hole, and the first reset spring is compressed; when the locking is needed, the sliding pin is pushed by the reset elastic force of the first reset spring to extend out of the cabinet body and be exposed in the air, the cabinet door is pushed towards the direction of the closed cabinet body, the end part of the sliding pin, which is close to the cabinet door, is arranged into a circular truncated cone shape, the cabinet door is abutted against the sliding pin, the sliding pin pushes the first reset spring to be compressed, and when the position of the sliding pin corresponds to the locking hole, the sliding pin is pushed by the first reset spring to be arranged in the locking hole.

The utility model discloses further set up to: the clamping assembly comprises a clamping rod which is connected with the cabinet body in a sliding mode, the sliding direction of the clamping rod is perpendicular to that of the sliding pin, the clamping rod is abutted to the first metal sheet, a second electromagnet is installed in the cabinet body, the end, close to the second electromagnet, of the clamping rod is fixedly connected with a second metal sheet which is matched with the second electromagnet in an attraction mode, and a second reset spring is sleeved outside the clamping rod; the end part of the clamping rod, far away from the second electromagnet, is arranged to be an inclined plane abutting against the metal sheet, and the length of the side face, close to the first electromagnet, of the clamping rod is larger than that of the side face, far away from the first electromagnet, of the clamping rod.

Through the technical scheme, the action control of the clamping rod is realized through the second electromagnet, the end face of the clamping rod, which is abutted against the first sheet metal writing clamping rod, is an inclined plane, after the sliding pin is controlled by the first electromagnet to slide and unlock, the first sheet metal pushes the clamping rod to extrude the second reset spring, and after the sliding pin realizes unlocking and is separated from the clamping rod, the clamping rod intercepts the reset action of the sliding pin, so that the limitation of the locking function is realized; when the locking function of the sliding pin needs to be recovered, the power supply loop of the second electromagnet is conducted, so that the clamping rod compresses the second reset spring, the clamping rod is far away from the sliding pin and the metal sheet, the sliding action of the sliding pin is not limited any more, and the cabinet door can be locked by matching with the lock hole.

The utility model discloses further set up to: the cabinet body is fixedly connected with a limiting piece used for limiting the sliding distance of the clamping rod.

Through above-mentioned technical scheme, do further injectly through spacing piece to the removal route of joint pole, reduce the emergence of the dead phenomenon of card that takes place between unblock in-process first sheetmetal and the sliding pin, further improve the cooperation reliability between joint subassembly and the locking subassembly.

The utility model discloses further set up to: the trigger assembly includes:

the laser emitter is arranged on the cabinet door and used for emitting laser signals;

the laser receiver is arranged on the cabinet door and used for receiving a laser signal emitted by the laser emitter and outputting a detection signal;

a transistor Q2, the base of which is coupled to the laser receiver and the emitter of which is grounded;

the relay KM2 is provided with a coil and a normally open contact, the normally open contact is connected between the collector of the triode Q2 and direct current in series, and the normally open contact is connected in a power supply loop of the second electromagnet in series;

a freewheeling diode D2 has its anode coupled to the collector of transistor Q2 and its cathode coupled to the dc power.

Through the technical scheme, the accurate time for closing and locking the cabinet door by a user is acquired through the cooperation between the laser transmitter and the laser receiver.

The utility model discloses further set up to: the cabinet door is fixedly connected with a first connecting plate and a second connecting plate which are arranged in parallel, and the laser transmitter and the laser receiver are respectively arranged on the first connecting plate and the second connecting plate.

The utility model discloses further set up to: a first containing groove is formed in the first connecting plate, and the laser emitter is installed in the first containing groove.

The utility model discloses further set up to: and a second accommodating groove is formed in the second connecting plate, and the laser receiver is arranged in the second accommodating groove.

Through above-mentioned technical scheme, install laser emitter and laser receiver in first storage tank and the second storage tank on first connecting plate and second connecting plate respectively, reduce laser emitter and laser receiver's collision wearing and tearing to guarantee the correlation precision between laser emitter and the laser receiver, comfort level and security when just improving the user and closing the cabinet door.

To sum up, the utility model discloses following beneficial effect has:

get the thing and put the locking function of thing in-process to the locking subassembly through the joint subassembly at the user and restrict to accomplish at the user and get the thing and put the thing after, connect the subassembly action with the locking function of recovering locking subassembly and lockhole cooperation to the cabinet door through triggering the subassembly control card, so reduce the user and get the inconvenience that the in-process was interrupted and cause.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is a partial schematic structural view of the present embodiment, primarily illustrating the structure of the latch assembly and the catch assembly;

FIG. 3 is a circuit diagram of a control circuit of the main machine to the first electromagnet in this embodiment;

fig. 4 is a partial structural schematic diagram of the present embodiment, mainly illustrating a partial structure of the trigger assembly;

FIG. 5 is a circuit diagram of a trigger assembly in the present embodiment;

FIG. 6 is an enlarged view of A in FIG. 1;

fig. 7 is a partial structural schematic view in the present embodiment, mainly illustrating a structure when the locking assembly locks the cabinet door.

Reference numerals: 1. a cabinet body; 2. a host; 3. a storage space; 4. a cabinet door; 5. a rotating shaft; 6. a lock hole; 7. a locking assembly; 8. a clamping assembly; 9. a trigger component; 10. a first mounting groove; 11. a second mounting groove; 12. a slide pin; 13. a first metal sheet; 14. a first return spring; 15. a first electromagnet; 16. a third mounting groove; 17. a fourth mounting groove; 18. a second electromagnet; 19. a clamping and connecting rod; 20. a second metal sheet; 21. a second return spring; 22. a bevel; 23. a laser transmitter; 24. a laser receiver; 25. a first connecting plate; 26. a second connecting plate; 27. a first accommodating groove; 28. a second accommodating groove; 29. a limiting sheet.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

An intelligent electronic storage cabinet is shown in fig. 1 and comprises a plurality of stacked cabinet bodies 1, wherein adjacent cabinet bodies 1 are fixedly connected, each six cabinet bodies 1 form a group, and each group or multiple groups of cabinet bodies 1 are controlled by a host 2.

The cabinet body 1 has storage space 3, is provided with cabinet door 4 on the cabinet body 1, and the one end of cabinet door 4 is passed through axis of rotation 5 and is rotated and connect in the cabinet body 1, and cabinet door 4 is used for sealing the storage space of the internal 1 of cabinet.

The lateral wall of one side of axis of rotation 5 is kept away from to cabinet door 4 has seted up lockhole 6, is provided with on the cabinet body 1 to respond to host computer 2 and realize the locking subassembly 7 of cabinet door 4 locking with lockhole 6 cooperation.

And the cabinet body 1 is further provided with a clamping assembly 8 for limiting the locking assembly 7, and the clamping assembly 8 is arranged on a moving path of the locking assembly 7.

The cabinet door 4 is provided with a trigger assembly 9 for triggering the clamping assembly 8 to act.

As shown in fig. 2, the locking assembly 7 includes a first mounting groove 10 opened in the cabinet body 1, and a second mounting groove 11 opened in the cabinet body 1 and communicated with the first mounting groove 10 and the storage space 3, and the position of the second mounting groove 11 corresponds to the position of the locking hole 6. The wall of the second installation groove 11 far away from the cabinet door 4 is provided with a first electromagnet 15, and whether the first electromagnet 15 is electrified or not is controlled by the main machine 2. Sliding connection has slide pin 12 in second mounting groove 11, and slide pin 12 sets up in the round platform type near the tip of cabinet door 4, and is close to the one end diameter of cabinet door 4 and is less than the diameter length of keeping away from cabinet door 4 one end. The sliding pin 12 slides out of the second mounting groove 11 and then is inserted into the lock hole 6, so that the cabinet door 4 is sealed against the cabinet body 1. The sliding pin 12 is close to the first electromagnet 15, the end portion of the sliding pin is fixedly connected with a first metal sheet 13, the first metal sheet 13 is arranged in the first installation groove 10, the first metal sheet 13 is used for being matched with the first electromagnet 15 in an attraction mode, a first return spring 14 is sleeved outside the sliding pin 12, two ends of the first return spring 14 are fixedly connected with the first metal sheet 13 and the cabinet body 1 respectively, and the first return spring 14 is arranged in the first installation groove 10.

As shown in fig. 3, a transistor Q1 is coupled to the output terminal of the host 2, the base of the transistor Q1 is coupled to the laser receiver 24, and the emitter of the transistor Q1 is grounded. A coil of a relay KM1 is coupled between the collector of the triode Q1 and the direct current, and a normally open contact of the relay KM1 is connected in series in a power supply loop of the first electromagnet 15. A freewheeling diode D1 is connected in parallel with two ends of the coil of the relay KM1, and has an anode coupled to the collector of the transistor Q1 and a cathode coupled to the dc power.

When a user needs to store or take out an article, the triode Q1 is switched on by outputting a high level signal through the host machine 2, the relay KM1 is powered on, the first electromagnet 15 is controlled to be powered on, the first electromagnet 15 is powered on and then attracts the first metal sheet 13, so that the first metal sheet 13 drives the sliding pin 12 to slide to be separated from the lock hole 6, and the first reset spring 14 is compressed;

when locking is required, the sliding pin 12 is pushed by the reset elastic force of the first reset spring 14 to extend out of the cabinet body 1 and be exposed in the air, the cabinet door 4 is pushed towards the direction of the closed cabinet body 1, because the end part of the sliding pin 12 close to the cabinet door 4 is set to be in a circular truncated cone shape, the cabinet door 4 is abutted against the sliding pin 12, the sliding pin 12 pushes the first reset spring 14 to be compressed, and when the position of the sliding pin 12 corresponds to the locking hole 6, the sliding pin 12 is pushed by the first reset spring 14 to be placed in the locking hole 6.

As shown in fig. 2, the clamping assembly 8 includes a third mounting groove 16 opened in the cabinet 1, and a fourth mounting groove 17 opened in the cabinet 1 and communicated with the third mounting groove and the first mounting groove 10, a second electromagnet 18 is installed on a top groove wall of the first mounting groove 10, a clamping rod 19 is slidably connected in the fourth mounting groove 17, a sliding direction of the clamping rod 19 in the fourth mounting groove 17 is perpendicular to a sliding direction of the sliding pin 12, that is, the bottom of the clamping rod 19 is used for intercepting on a sliding path of the sliding pin 12. The top of the clamping rod 19 is fixedly connected with a second metal sheet 20, the second metal sheet 20 is arranged in the third mounting groove 16, the second metal sheet 20 is used for being in attraction fit with the second electromagnet 18, a second reset spring 21 is sleeved outside the clamping rod 19, the second reset spring 21 is arranged in the third mounting groove 16, and two ends of the second reset spring 21 are fixedly connected to the second metal sheet 20 and the cabinet body 1 respectively. The bottom of the clamping rod 19 is provided with an inclined surface 22, and the length of the side surface of the clamping rod 19 close to the first electromagnet 15 is larger than the length of the side surface of the clamping rod 19 far away from the first electromagnet 15.

The action control of the clamping rod 19 is realized through the second electromagnet 18, because the end surface of the clamping rod 19, which abuts against the first sheet metal 13, of the clamping rod 19 is an inclined surface 22, after the sliding pin 12 is controlled by the first electromagnet 15 to slide and unlock, the first sheet metal 13 pushes the clamping rod 19 to extrude the second reset spring 21, and after the sliding pin 12 is unlocked and separated from the clamping rod 19, the clamping rod 19 intercepts the reset action of the sliding pin 12, so that the limitation of the locking function is realized;

when the locking function of the sliding pin 12 needs to be recovered, the power supply loop of the second electromagnet 18 is conducted, so that the clamping rod 19 compresses the second return spring 21, the clamping rod 19 is far away from the sliding pin 12 and the metal sheet, the sliding action of the sliding pin 12 is not limited any more, and the cabinet door 4 can be locked by matching with the lock hole 6.

For reducing the phenomenon that the first metal sheet 13 and the sliding pin 12 are blocked in the cabinet body 1 due to the loosening of the second return spring 21 and the like, the groove wall of the second mounting groove 11 is symmetrically connected with a limiting sheet 29, the limiting sheet 29 is in butt fit with the second metal sheet 20, and the vertical moving distance of the second metal sheet 20 is limited through the limiting sheet.

As shown in fig. 4 and 5, the trigger assembly 9 includes:

the laser emitter 23 is arranged on the cabinet door 4 and used for emitting laser signals;

the laser receiver 24 is arranged on the cabinet door 4 and used for receiving the laser signal emitted by the laser emitter 23 and outputting a detection signal;

a transistor Q2, the base of which is coupled to the laser receiver 24 and the emitter of which is grounded;

the relay KM2 is provided with a coil and a normally open contact, the normally open contact is connected between the collector of the triode Q2 and direct current in series, and the normally open contact is connected in a power supply loop of the second electromagnet 18 in series;

a freewheeling diode D2 has its anode coupled to the collector of transistor Q2 and its cathode coupled to the dc power.

As shown in fig. 4, a first connecting plate 25 and a second connecting plate 26 are fixedly connected to the cabinet door 4, the first connecting plate 25 is provided with a first accommodating groove 27 on a side wall thereof close to the second connecting plate 26, and the laser emitter 23 is installed in the first accommodating groove 27. As shown in fig. 6, a second receiving groove 28 is formed on a side wall of the second connecting plate 26 close to the first connecting plate 25, and the laser receiver 24 is installed in the second receiving groove 28. And the laser emitter 23 and the laser receiver 24 do not protrude from the first receiving groove 27 and the second receiving groove 28, respectively.

Install laser emitter 23 and laser receiver 24 in first storage tank 27 and the second storage tank 28 on first connecting plate 25 and second connecting plate 26 respectively, reduce the collision wearing and tearing of laser emitter 23 and laser receiver 24 to guarantee the correlation precision between laser emitter 23 and the laser receiver 24, and comfort level and security when improving the user and closing cabinet door 4.

The working process is as follows:

when a user needs to store articles, the host 2 sends an article storage request, the host 2 controls the locking component 7 in one of the cabinets 1 to act, namely the first electromagnet 15 is electrified, the first electromagnet 15 attracts the first metal sheet 13 to drive the sliding pin 12 to unlock the cabinet door 4, and the cabinet door 4 is opened;

when the first electromagnet 15 is controlled by the host 2 to be powered on, and the first metal sheet 13 drives the sliding pin 12 to slide towards the direction close to the first electromagnet 15, the first metal sheet 13 abuts against the clamping rod 19 and pushes the clamping rod 19 to slide upwards under the action of the inclined surface 22;

when the first metal sheet 13 slides over the clamping rod 19, the clamping rod 19 is reset under the action of the second reset spring 21, and after the first electromagnet 15 is powered off, the clamping rod 19 is arranged on the sliding path of the first metal sheet 13 and the sliding pin 12, so that the action of the sliding pin 12 extending into the cabinet body 1 can be intercepted through the clamping rod 19;

when a user finishes taking and placing articles and needs to close the cabinet door 4, the cabinet door 4 is pushed to rotate by holding the first connecting plate 25 or the second connecting plate 26, at the moment, the laser receiver 24 is prevented from receiving laser signals emitted by the laser emitter 23, the triode Q2 is conducted, the coil of the relay KM2 is electrified, so that the conduction of a power supply loop of the second electromagnet 18 is controlled, the second electromagnet 18 attracts the second metal sheet 20, the clamping rod 19 is retracted into the fourth mounting groove 17, the sliding pin 12 and the first metal sheet 13 can normally slide, and the sliding pin 12 extends out of the second mounting groove 11;

as shown in fig. 7, at this time, the user pushes the cabinet door 4 so that the cabinet door 4 presses the sliding pin 12 to retract into the second mounting groove 11, and the sliding pin 12 is placed in the locking hole 6 when corresponding to the locking hole 6, thereby completing the locking of the cabinet door 4.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides an intelligence electron locker, includes that a plurality of has cabinet body (1) of storage space (3), rotates to connect in cabinet body (1) cabinet door (4) that are used for closed storage space (3) and host computer (2), its characterized in that: the utility model discloses a cabinet door lock, including cabinet door (4), cabinet door (4) are last seted up lockhole (6), be provided with on the cabinet body (1) and respond to host computer (2) and realize locking subassembly (7) of cabinet door (4) locking with lockhole (6) cooperation, just still be provided with joint subassembly (8) that are used for injecing locking subassembly (7) on the cabinet body (1), joint subassembly (8) set up on the removal route of locking subassembly (7), just be provided with on cabinet door (4) and be used for triggering the subassembly (9) that triggers that joint subassembly (8) moved.

2. The intelligent electronic locker of claim 1, wherein: locking subassembly (7) including sliding connection in the cabinet body (1) and with lockhole (6) complex sliding pin (12), install first electro-magnet (15) in the cabinet body (1), sliding pin (12) are close to the tip fixedly connected with of first electro-magnet (15) and first electro-magnet (15) actuation complex first sheetmetal (13), sliding pin (12) overcoat is equipped with first reset spring (14), sliding pin (12) are close to the tip of cabinet door (4) and set up to the round platform type.

3. The intelligent electronic locker of claim 2, wherein: the clamping assembly (8) comprises a clamping rod (19) which is connected with the cabinet body (1) in a sliding mode, is perpendicular to the sliding pin (12) in the sliding direction and abuts against the first metal sheet (13), a second electromagnet (18) is installed in the cabinet body (1), a second metal sheet (20) matched with the second electromagnet (18) in an attraction mode is fixedly connected to the end portion, close to the second electromagnet (18), of the clamping rod (19), and a second reset spring (21) is sleeved outside the clamping rod (19); the end part, far away from the second electromagnet (18), of the clamping rod (19) is arranged to be an inclined surface (22) of the butt metal sheet, and the length of the side face, close to the first electromagnet (15), of the clamping rod (19) is larger than the length of the side face, far away from the first electromagnet (15), of the clamping rod (19).

4. The intelligent electronic locker of claim 3, wherein: the cabinet body (1) is fixedly connected with a limiting piece (29) used for limiting the sliding distance of the clamping rod (19).

5. An intelligent electronic locker according to claim 3 wherein the trigger assembly (9) comprises:

the laser emitter (23) is arranged on the cabinet door (4) and used for emitting laser signals;

the laser receiver (24) is arranged on the cabinet door (4) and used for receiving the laser signal emitted by the laser emitter (23) and outputting a detection signal;

a transistor Q2, the base of which is coupled to the laser receiver (24) and the emitter of which is grounded;

the relay KM2 is provided with a coil and a normally open contact, the normally open contact is connected between the collector of the triode Q2 and direct current in series, and the normally open contact is connected in a power supply loop of the second electromagnet (18) in series;

a freewheeling diode D2 has its anode coupled to the collector of transistor Q2 and its cathode coupled to the dc power.

6. The intelligent electronic locker of claim 5, wherein: the cabinet door (4) is fixedly connected with a first connecting plate (25) and a second connecting plate (26) which are arranged in parallel, and the laser emitter (23) and the laser receiver (24) are respectively arranged on the first connecting plate (25) and the second connecting plate (26).

7. The intelligent electronic locker of claim 6, wherein: a first containing groove (27) is formed in the first connecting plate (25), and the laser emitter (23) is installed in the first containing groove (27).

8. The intelligent electronic locker of claim 6, wherein: the second connecting plate (26) is provided with a second containing groove (28), and the laser receiver (24) is arranged in the second containing groove (28).

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