CN220889839U

CN220889839U - All-weather controllable agricultural electromagnetic lock

Info

Publication number: CN220889839U
Application number: CN202322431855.7U
Authority: CN
Inventors: 张桃; 胡隆河; 杨强
Original assignee: Yibin University
Current assignee: Yibin University
Priority date: 2023-09-07
Filing date: 2023-09-07
Publication date: 2024-05-03
Anticipated expiration: 2033-09-07

Abstract

The utility model belongs to the technical field of electromagnetic locks, in particular to an all-weather controllable agricultural electromagnetic lock, which is provided with a scheme that the agricultural electromagnetic lock comprises a lock cylinder and an auxiliary mechanism arranged in the lock cylinder, wherein the auxiliary mechanism comprises a movable component and a preventive component, the movable component comprises a vertical rod, a lock catch, a second motor, a second rotating shaft and a turbine, one side of the lock cylinder is provided with the vertical rod, the second motor is arranged in the vertical rod, and the second rotating shaft is arranged at the periphery of one end of the second motor; the all-weather controllable agricultural electromagnetic lock is provided with the terminal controller, each electromagnetic lock extends to form a lock catch, an external locking function is provided for equipment needing locking, the terminal controller sends out borrowing instructions to the electromagnetic locks, the electromagnetic locks are opened, the lock catch automatically pops out, the lock catch is locked after being used, the electromagnetic locks are automatically locked, and the electromagnetic locks send feedback instructions to the terminal controller to indicate that the equipment is restored, so that automatic borrowing and restoring services of appointed equipment are achieved.

Description

All-weather controllable agricultural electromagnetic lock

Technical Field

The utility model relates to the technical field of electromagnetic locks, in particular to an all-weather controllable agricultural electromagnetic lock.

Background

In modern life, a plurality of locks exist, products are endlessly layered, and the functions are continuously improved. Along with the continuous development of science and technology, the development of high-grade buildings is accelerated, people are deepened in safety consciousness, people are pursuing life convenience, the market prospect of high-grade locks is more and more optimistic, the investment of the lock industry in China on the high-grade technology of the locks is also increased year by year, and the intelligent electronic lock also starts to enter a trend of higher-grade safety.

The lack of electromagnetic locks on the market to accomplish automatic lending and return services for designated devices.

For this purpose, an all-weather controllable agricultural electromagnetic lock is needed.

Disclosure of utility model

The all-weather controllable agricultural electromagnetic lock solves the problem that the electromagnetic lock for automatically lending and returning the appointed equipment is lack in the market in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

An all-weather controllable agricultural electromagnetic lock comprises a lock cylinder and an auxiliary mechanism arranged in the lock cylinder, wherein the auxiliary mechanism comprises a movable component and a preventive component;

The movable assembly comprises a vertical rod, a lock catch, a second motor, a second rotating shaft and a turbine, wherein the vertical rod is arranged on one side of the lock cylinder, the second motor is arranged in the vertical rod, the second rotating shaft is arranged at the periphery of one end of the second motor, the turbine is arranged at the other end of the second rotating shaft, and the lock catch is arranged on one side of the turbine;

The prevention assembly comprises a thread groove, a thread nail and a fixing column, wherein the thread nail is arranged in the lock cylinder, the thread groove is arranged below the thread nail, and the fixing column is arranged on one side of the top end of the thread nail.

Preferably, the centralized multichannel control panel is installed to the opposite side of pole setting, terminal controller is installed to the opposite side of centralized multichannel control panel, power supply unit is installed to the opposite side of terminal controller, first circular telegram circuit is installed to power supply unit's one end, the transformer shell is installed to the port of first circular telegram circuit, the slide rail is installed to the inboard of transformer shell, the internally mounted of slide rail has the slider, the plastics backup pad is installed to one side of slider, the push plate is installed to the top of plastics backup pad, the circular telegram draw-in groove is installed to the below of plastics backup pad, the second circular telegram circuit is installed to one side of circular telegram draw-in groove, circular telegram cardboard is installed to the opposite side of circular telegram draw-in groove, communication circuit is installed to the intermediate position of centralized multichannel control panel and terminal controller, the support frame is installed on the top of centralized multichannel control panel, first pivot is installed to the below of support frame, the flabellum is installed to the below of first pivot.

Preferably, the transformer shell forms a sliding structure with the plastic support plate through the sliding rail and the sliding block, the plastic support plate forms a clamping structure with the electrified clamping plate through the electrified clamping groove, and the plastic support plate forms a fixed structure with the pushing plate.

Preferably, the centralized multipath control board forms a fixed structure with the first motor through the support frame, and the fan blade and the first rotating shaft form a rotating structure through the operation of the first motor.

Preferably, the turbine and the second rotating shaft form a rotating structure through the operation of the second motor, the turbine and the lock catch form threaded connection, and the lock catch and the lock cylinder form a clamping structure.

Preferably, the lock cylinder forms a detachable structure with the upright rod through the thread groove and the thread nail, and the thread nail and the fixed column form a fixed structure.

The utility model provides an all-weather controllable agricultural electromagnetic lock, which has the beneficial effects that compared with the prior art, the all-weather controllable agricultural electromagnetic lock has the following advantages:

The all-weather controllable agricultural electromagnetic lock is provided with a terminal controller, each electromagnetic lock extends a lock catch to provide an external locking function for equipment needing locking, the terminal controller sends out a borrowing instruction to the electromagnetic lock, the electromagnetic lock is opened, the lock catch automatically pops out, the lock catch is locked after the use is finished, the electromagnetic lock automatically locks, and the electromagnetic lock sends a feedback instruction to the terminal controller to indicate that the equipment is restored, so that the automatic borrowing and restoring service of the appointed equipment is achieved;

This agricultural electromagnetic lock with controllable all weather is provided with thread groove and screw, when the hasp is locked tightly, does not have under the condition of circular telegram at this moment, just can pass through external force control fixed column to rotatory fixed column drives the screw and rotates, alright dismantles the lock core, thereby reaches the purpose that can be under the electroless condition emergent unblanking, has avoided unblanking under the electroless condition, leads to by the problem that locked equipment can not in time use.

Drawings

FIG. 1 is a schematic perspective view of an all-weather controllable agricultural electromagnetic lock according to the present utility model;

Fig. 2 is a schematic diagram of a cross-sectional structure of a transformer housing of an all-weather controllable agricultural electromagnetic lock according to the present utility model;

fig. 3 is a schematic diagram of an unfolding structure of an all-weather controllable agricultural electromagnetic lock according to the present utility model.

In the figure: 1. a lock core; 2. a vertical rod; 3. a centralized multipath control board; 4. a terminal controller; 5. locking; 6. a power supply device; 7. a first power line; 8. a transformer shell; 9. a slide rail; 10. a slide block; 11. a plastic support plate; 12. a pushing plate; 13. a second energizing line; 14. electrifying the clamping groove; 15. electrifying a clamping plate; 16. a communication line; 17. a support frame; 18. a first motor; 19. a first rotating shaft; 20. a fan blade; 21. a second motor; 22. a second rotating shaft; 23. a turbine; 24. a thread groove; 25. a screw thread nail; 26. and fixing the column.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present utility model provides a technical solution: an all-weather controllable agricultural electromagnetic lock comprises a lock cylinder 1 and an auxiliary mechanism arranged in the lock cylinder 1, wherein the auxiliary mechanism comprises a movable component and a preventive component;

The movable assembly comprises a vertical rod 2, a lock catch 5, a second motor 21, a second rotating shaft 22 and a turbine 23, wherein the vertical rod 2 is arranged on one side of the lock cylinder 1, the second motor 21 is arranged in the vertical rod 2, the second rotating shaft 22 is arranged at the periphery of one end of the second motor 21, the turbine 23 is arranged at the other end of the second rotating shaft 22, and the lock catch 5 is arranged on one side of the turbine 23;

The prevention subassembly includes screw thread groove 24, screw 25 and fixed column 26, and the internally mounted of lock core 1 has screw thread 25, and screw thread groove 24 is installed to the below of screw thread 25, and fixed column 26 is installed to the top one side of screw thread 25.

The centralized multipath control board 3 is installed to the opposite side of pole setting 2, terminal controller 4 is installed to the opposite side of centralized multipath control board 3, power supply unit 6 is installed to the opposite side of terminal controller 4, first power supply line 7 is installed to power supply unit 6's one end, power conversion shell 8 is installed to the port of first power supply line 7, slide rail 9 is installed to power conversion shell 8's inboard, slide rail 9's internally mounted has slider 10, plastic support board 11 is installed to one side of slider 10, push plate 12 is installed to plastic support board 11's top, circular telegram draw-in groove 14 is installed to plastic support board 11's below, second power supply line 13 is installed to circular telegram draw-in groove 14's one side, circular telegram cardboard 15 is installed to circular telegram draw-in groove 14's opposite side, communication line 16 is installed to centralized multipath control board 3 and terminal controller 4's intermediate position, support frame 17 is installed at the top of centralized multipath control board 3, first pivot 19 is installed to support frame 17's below, fan blade 20 is installed to the below of first pivot 19.

Further, the turbine 23 and the second rotating shaft 22 form a rotating structure through the operation of the second motor 21, the turbine 23 and the lock catch 5 form threaded connection, the lock catch 5 and the lock cylinder 1 form a clamping structure, the turbine 23 and the second rotating shaft 22 can be driven to rotate through the opening of the second motor 21, and the lock catch 5 can be moved upwards through the threaded connection of the turbine 23 and the lock catch 5, so that locking is achieved.

Further, the lock core 1 forms a detachable structure with the upright rod 2 through the thread groove 24 and the thread nail 25, and the thread nail 25 and the fixed column 26 form a fixed structure, when the lock catch 5 is tightly locked, and under the condition that no power is supplied at this time, the fixed column 26 can be controlled through external force, and the fixed column 26 is rotated to drive the thread nail 25 to rotate, so that the lock core 1 can be detached, and emergency unlocking can be realized under the condition of no power.

Further, the transformer shell 8 forms a sliding structure with the plastic support plate 11 through the sliding rail 9 and the sliding block 10, the plastic support plate 11 forms a clamping structure with the electrifying clamping plate 15 through the electrifying clamping groove 14, the plastic support plate 11 forms a fixed structure with the pushing plate 12, the pushing plate 12 is pushed by external force, the sliding block 10 and the plastic support plate 11 are driven to slide on the sliding rail 9, the electrifying clamping groove 14 is clamped on or pulled out of the electrifying clamping plate 15, and then electrifying or outage is achieved.

Further, the centralized multi-channel control board 3 forms a fixed structure with the first motor 18 through the supporting frame 17, and the fan blade 20 and the first rotating shaft 19 form a rotating structure through the operation of the first motor 18, and the fan blade 20 and the first rotating shaft 19 can be driven to rotate through the opening of the first motor 18 to fan the centralized multi-channel control board 3, so that the effects of dehumidifying and dedusting the centralized multi-channel control board 3 are achieved.

Working principle: each electromagnetic lock extends a lock catch 5 firstly to provide an external locking function for equipment needing locking, a terminal controller 4 sends out a lending instruction to the electromagnetic lock, the electromagnetic lock is opened, the lock catch 5 is automatically ejected out, the lock catch 5 is locked after being used, the electromagnetic lock sends a feedback instruction to the terminal controller 4 to indicate that the equipment is restored, thereby achieving the automatic lending and restoring service of the appointed equipment, secondly, a pushing plate 12 is pushed by external force to drive a sliding block 10 and a plastic supporting plate 11 to slide on a sliding rail 9, an electrified clamping groove 14 is clamped on or pulled out of the electrified clamping plate 15, further, the electrification or the outage is realized, then the fan blade 20 and a first rotating shaft 19 are driven to rotate through the opening of a first motor 18, the centralized multipath control plate 3 is dehumidified and dedusted, and finally, when the lock catch 5 is tightly locked, and under the condition of no electrification, a fixed column 26 can be controlled by the external force, and the threaded nail 25 is driven to rotate, so that the equipment can be disassembled 1 under the condition of no electrification.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an all-weather controllable agricultural electromagnetic lock, includes lock core and lock core internally mounted's complementary unit, its characterized in that: the auxiliary mechanism comprises a movable component and a preventive component;

2. An all-weather controllable agricultural electromagnetic lock according to claim 1, wherein: the utility model discloses a centralized multichannel control panel, including pole setting, terminal control, power supply unit, first circular telegram circuit, the port of first circular telegram circuit is installed to the opposite side of pole setting, the transformer shell is installed to the port of power supply unit, the slide rail is installed to the inboard of transformer shell, the internally mounted of slide rail has the slider, the plastics backup pad is installed to one side of slider, the push plate is installed to the top of plastics backup pad, circular telegram draw-in groove is installed to the below of plastics backup pad, the second circular telegram circuit is installed to one side of circular telegram draw-in groove, circular telegram cardboard is installed to the opposite side of circular telegram draw-in groove, communication line is installed to the intermediate position of centralized multichannel control panel and terminal control, the support frame is installed on the top of centralized multichannel control panel, first pivot is installed to the below of support frame, the flabellum is installed to the below of first pivot.

3. An all-weather controllable agricultural electromagnetic lock according to claim 2, wherein: the transformer shell forms a sliding structure with the plastic support plate through the sliding rail and the sliding block, the plastic support plate forms a clamping structure with the electrified clamping plate through the electrified clamping groove, and the plastic support plate and the pushing plate form a fixed structure.

4. An all-weather controllable agricultural electromagnetic lock according to claim 2, wherein: the centralized multipath control board forms a fixed structure with the first motor through the support frame, and the fan blades and the first rotating shaft form a rotating structure through the operation of the first motor.

5. An all-weather controllable agricultural electromagnetic lock according to claim 1, wherein: the turbine and the second rotating shaft form a rotating structure through the operation of the second motor, the turbine and the lock catch form threaded connection, and the lock catch and the lock cylinder form a clamping structure.

6. An all-weather controllable agricultural electromagnetic lock according to claim 1, wherein: the lock cylinder forms a detachable structure with the upright rod through the thread groove and the thread nail, and the thread nail and the fixed column form a fixed structure.