CN209780487U - Intelligent panel lock - Google Patents

Abstract

The embodiment of the utility model relates to an intelligent panel lock, including electronic blocking mechanism, mechanical blocking mechanism, control circuit subassembly and tool to lock state feedback subassembly, electronic blocking mechanism can with the spacing cooperation of mechanical blocking mechanism shutting, electronic blocking mechanism includes the circuit board, the circuit board rigid coupling is on electronic blocking mechanism, the circuit board is provided with the circuit interface, control circuit subassembly is connected with the circuit interface electricity, the circuit interface is connected with the electronic drive component electricity of electronic blocking mechanism; the lock state feedback assembly comprises a Hall element and a permanent magnet, the Hall element is arranged on the circuit board and is electrically connected with the circuit interface, and the Hall element is close to the mechanical locking mechanism and is arranged at intervals with the mechanical locking mechanism; the permanent magnet is arranged on the mechanical locking mechanism, can act along with the mechanical locking mechanism, and can be opposite to the Hall element in an induction mode. The intelligent panel lock adopts non-contact state monitoring, and the state detection sensitivity is high.

Description

Intelligent panel lock

Technical Field

The utility model belongs to the technical field of the tool to lock, concretely relates to intelligent panel lock, more specifically relates to the intelligent panel lock that is used for outdoor looped netowrk cabinet in the electric power system.

Background

Among the prior art, the panel lock, especially be used for the intelligent panel lock of outdoor looped netowrk cabinet door among the electric power system, during normal use, for being convenient for monitor, manage the tool to lock, often need be in the state of unblanking or shutting to the tool to detect. At present, the state monitoring of the existing intelligent panel lock is complex in mechanism design or poor in mechanism reliability.

For example, chinese patent publication No. CN205224852U discloses a door lock state acquisition system, in which two sides of a state control circuit board are respectively provided with a state switch; when the rotating shaft is in the unlocking position, one rotating shaft limiting pin touches the state change switch on one side of the rotating shaft assembling hole, and when the rotating shaft is in the locking position, the other rotating shaft limiting pin touches the state change switch on the other side of the rotating shaft assembling hole; the chip circuit board generates ID codes in different states according to switching information of a state change-over switch on the state control circuit board; the computer key is communicated with the code sheet circuit board through the code reading module.

The state monitoring mechanism disclosed in the patent is provided with two state change-over switches, the rotating shaft limiting pin is used for touching the state change-over switches, the code sheet circuit board generates different ID code values according to different state change-over switches, and the lock state detection mechanism is complex in design. In addition, the pivot spacer pin adopts direct physical touch with state change over switch, and this kind of contact detection mode uses the problem that has mechanical wear easily for a long time, and measurement accuracy step-down influences tool to lock state monitoring reliability.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, an embodiment of the present invention provides an intelligent panel lock, including an electronic locking mechanism, a mechanical locking mechanism, a control circuit assembly and a lock state feedback assembly, where the electronic locking mechanism can be locked and in spacing cooperation with the mechanical locking mechanism, the electronic locking mechanism includes a circuit board, the circuit board is fixedly connected to the electronic locking mechanism, the circuit board is provided with a circuit interface, the control circuit assembly is electrically connected to the circuit interface, and the circuit interface is electrically connected to an electronic driving element of the electronic locking mechanism; the lock state feedback assembly comprises a Hall element and a permanent magnet, the Hall element is arranged on the circuit board and is electrically connected with the circuit interface, and the Hall element is close to the mechanical locking mechanism and is arranged at intervals with the mechanical locking mechanism; the permanent magnet is arranged on the mechanical locking mechanism, can act along with the mechanical locking mechanism, and can be opposite to the Hall element in an induction mode.

Furthermore, the electronic locking mechanism is provided with a lock tongue which is telescopic and movable towards the mechanical locking mechanism, and the Hall element is arranged opposite to the lock tongue.

Further, mechanical blocked mechanical system be provided with the corresponding spring bolt groove of spring bolt, the spring bolt with the spacing cooperation in spring bolt groove, the spring bolt groove with the permanent magnet sets up side by side along mechanical blocked mechanical system's axial direction, just the outward direction of permanent magnet with the notch direction in spring bolt groove is unanimous.

Further, the electronic locking mechanism has a housing provided with a circuit board accommodating groove for accommodating the circuit board.

Further, the circuit board accommodating groove and the shell of the electronic locking mechanism are an integrated forming mechanism.

Furthermore, the mechanical locking mechanism is a rotating shaft, the intelligent panel lock comprises a lock body, a rotating shaft mounting hole is formed in the lock body, the rotating shaft is pivotally arranged in the rotating shaft mounting hole, and the rotating shaft switches between a locking position and an unlocking position to enable the intelligent panel lock to switch between a locking state and an unlocking state; the rotating shaft is fixedly provided with a permanent magnet, and when the rotating shaft is located at a locking position, the Hall element is correspondingly close to the permanent magnet.

Further, the electronic locking mechanism comprises a shell, a lock tongue return spring and a lock tongue locking mechanism, wherein the lock tongue, the lock tongue return spring and the lock tongue locking mechanism are accommodated in the shell; the lock tongue is provided with a lock tongue groove, the rotating shaft and the lock tongue are correspondingly provided with the lock tongue groove, and the lock tongue can be limited in the lock tongue groove; the lock bolt locking mechanism is provided with a limiting part capable of reciprocating, and the limiting part can reciprocate between a locking position and an unlocking position of the limiting part so as to limit the lock bolt or relieve the limit of the lock bolt.

Further, the lock tongue locking mechanism is a solenoid including a solenoid spindle as the stopper, the solenoid spindle being capable of reciprocating between its lock position and its unlock position in its axial direction.

Furthermore, the lock tongue locking mechanical system is two solenoid that just sets up, including first solenoid and second solenoid, and two solenoids have first dabber and second dabber respectively, and two solenoid dabbers can be followed its axial and at its unblock position and locking position between reciprocating motion.

Further, when the rotating shaft is in the locking position, the distance between the Hall element and the permanent magnet is minimum.

Further, when the rotating shaft is in a locking position, the Hall element is over against the permanent magnet.

Further, when the rotating shaft is in a locking position, the distance between the Hall element and the permanent magnet is 1-10 mm.

Further, when the rotating shaft is in a locking position, the distance between the Hall element and the permanent magnet is 3-8 mm.

further, when the rotating shaft is located at the locking position, the distance between the Hall element and the permanent magnet is 5-6mm, and the permanent magnet is magnetic steel.

Further, the closest distance between the outer surface of the permanent magnet and the surface of the rotating shaft in the radial direction of the rotating shaft is 0-2 mm.

Has the advantages that: the utility model provides an intelligent panel lock of non-contact state monitoring, tool to lock state feedback subassembly includes hall element and permanent magnet, set up hall element on electronic locking mechanism, the permanent magnet sets up on mechanical locking mechanism, when the shutting position, electronic locking mechanism is spacing with mechanical locking mechanism shutting, hall element is relative with the permanent magnet response, non-contact state monitoring has been adopted, the spacing action of shutting is synchronous unanimous with state monitoring feedback, state detection sensitivity is high, the structural mechanical wear who has avoided physical contact to detect to cause, product service life has been prolonged, need not carry out the accuracy to the structure spacing, part manufacturing cost is reduced, the reliability that tool to lock state detected has been improved.

drawings

Fig. 1 is a schematic diagram of a locking state of a lock state feedback assembly according to an embodiment of the present invention;

Fig. 2 is an unlocking state diagram of the lock state feedback assembly according to the embodiment of the present invention;

Fig. 3 is an exploded view of an intelligent panel lock according to an embodiment of the present invention;

Fig. 4 is an exploded view of a partial structure of an intelligent panel lock according to an embodiment of the present invention;

Fig. 5 is a cross-sectional view of an intelligent panel lock according to an embodiment of the present invention;

fig. 6 is a cross-sectional view of a locking mechanism of an intelligent panel lock according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. Those skilled in the art will appreciate that the present invention is not limited to the drawings and the following embodiments.

Embodiment 1 Lock State feedback Assembly

referring to fig. 1-6, the present embodiment provides a lock state feedback assembly, which can be used in an intelligent panel lock, for example, an intelligent panel lock for an outdoor ring main unit cabinet door in a power system, and the lock state feedback assembly includes a hall element 10 and a permanent magnet 20. The tool to lock includes lock body and mechanical blocked mechanical system, for example pivot 3, and the lock body includes the panel, has seted up the pivot mounting hole on the lock body, and pivot 3 ground pivot ground is set up in the pivot mounting hole, and pivot 3 can switch between blocking position and unblock position, makes the tool to lock switch between blocking state and unblock state, is provided with dead bolt groove 31 in the pivot 3, can cooperate with the dead bolt joint of the blocked mechanical system of tool to lock. The locking position of the rotating shaft 3 refers to a position where the rotating shaft 3 is limited to rotate, namely, a position where a lock tongue is clamped with a lock tongue groove on the rotating shaft 3; the unlocking position of the rotating shaft 3 refers to the position of the rotating shaft 3 when the lockset is in an unlocking state.

The hall element 10 is fixedly disposed in the lock, for example, disposed on the lock body in one embodiment, and disposed on other bearing components in the lock in another embodiment, such as a locking mechanism disposed in the lock, the locking mechanism can limit the rotation of the spindle 3 or release the rotation limitation of the spindle 3, when the locking mechanism limits the rotation of the spindle 3, the spindle 3 is in a locked position, and when the locking mechanism releases the rotation limitation of the spindle 3, the spindle can rotate to an unlocked position.

The lock is internally provided with a circuit board 30, the circuit board 30 is electrically connected with the Hall element 10 and used for supplying power to the Hall element 10, and the power supply device can supply power to the Hall element 10 through the circuit board 30. Those skilled in the art can flexibly select the arrangement position and arrangement mode of the circuit board, and detailed description is not needed.

The rotating shaft 3 is provided with a permanent magnet mounting groove, a permanent magnet 20, such as magnetic steel, is fixed in the permanent magnet mounting groove, and the permanent magnet 20 can move synchronously along with the rotating shaft 3. When the rotating shaft 3 is in the locked position, the permanent magnet 20 is close to the hall element 10, in other words, when the rotating shaft 3 is in the unlocked position, the distance between the permanent magnet 20 and the hall element 10 is greater than the distance between the rotating shaft 3 and the hall element 10 when the rotating shaft 3 is in the locked position. The closest distance between the outer surface of the permanent magnet 20 and the surface of the rotating shaft 3 in the radial direction of the rotating shaft is 0-2 mm. This distance can prevent the permanent magnet 20 from affecting the rotation of the rotating shaft 3 and also prevent the permanent magnet 20 from being embedded into the rotating shaft 3 too deeply to affect the detection of the hall element 10.

Preferably, the hall element 10 is at a minimum distance from the permanent magnet 20 when the rotating shaft 3 is in the closed position, and more preferably, the hall element 10 faces the permanent magnet 20, and the term "facing" means that a connecting line between the hall element 10 and the permanent magnet 20 is substantially perpendicular to the rotating shaft 3.

The distance between the hall element 10 and the permanent magnet 20 is 1-10mm, preferably 3-8mm, most preferably 5-6mm when the spindle 3 is in the locked position. This distance is a distance between the hall element 10 and the closest surface of the permanent magnet 20, and referring to fig. 5, the distance between the lower surface of the hall element 10 and the upper surface of the permanent magnet 20 is shown in fig. 5.

When the lockset is in a locking position, the permanent magnet 20 on the rotating shaft 3 is close to the Hall element 10, and the Hall element 10 detects the permanent magnet 20 and feeds back information that the lockset is in a locking state; when the lockset is at the unlocking position, the permanent magnet 20 on the rotating shaft 3 is far away from the Hall element 10, the Hall element 10 cannot detect the permanent magnet 20, and the information that the lockset is at the unlocking position is fed back.

according to the lockset state feedback assembly provided by the embodiment, the permanent magnet is arranged on the rotating shaft, the structure is simple and reliable, an additional permanent magnet installation structure is not required, and the space is saved; the permanent magnet and the rotating shaft move synchronously, so that the situation that the positions of the rotating shaft and the permanent magnet are inconsistent is avoided, and the position information of the rotating shaft can be accurately fed back, so that the lock state is directly reflected, and the lock state is not indirectly reflected through the state of the key as a Hall element and magnetic steel arranged on a computer key, so that the lock state is accurately and directly identified; the lock state can be fed back by rotating the rotating shaft, and the operation is simple.

Embodiment 2 Intelligent Panel Lock

The embodiment provides an intelligent panel lock, for example, an intelligent panel lock for an outdoor ring main unit cabinet door in a power system, which includes a mechanical locking mechanism 3, an electronic locking mechanism 4, a control circuit assembly (not shown) and a lock state feedback assembly, wherein the electronic locking mechanism 4 can be locked and limited with the mechanical locking mechanism 3.

The electronic locking mechanism 4 comprises a circuit board 30, the circuit board 30 is connected with a control circuit assembly of the intelligent panel lock, and the control circuit assembly provides power and master control signals for the circuit board 30. The circuit board 30 is fixedly connected to the electronic locking mechanism, the circuit board 30 is provided with a circuit interface 301, the control circuit assembly is electrically connected to the circuit interface 301, and the circuit interface 301 is electrically connected to an electronic driving element of the electronic locking mechanism.

The lockset state feedback assembly comprises a Hall element 10 and a permanent magnet 20, wherein the Hall element 10 is arranged on the circuit board 30, is electrically connected with the circuit interface 301, is close to the mechanical locking mechanism 3 and is arranged at a distance from the mechanical locking mechanism 3; the permanent magnet 20 is disposed on the mechanical locking mechanism 3, can move along with the mechanical locking mechanism 3, and is opposite to the hall element 10 in an induction manner.

The electronic locking mechanism 4 is provided with a lock tongue which can stretch and move towards the mechanical locking mechanism 3, and the hall element 10 is arranged opposite to the lock tongue 41.

The mechanical locking mechanism 3 is provided with a lock tongue groove 31 corresponding to the lock tongue, the lock tongue groove 31 and the permanent magnet 20 are arranged side by side along the axial direction of the mechanical locking mechanism 3, and the outward direction of the permanent magnet 20 is consistent with the direction of the notch of the lock tongue groove 31.

The electronic locking mechanism 4 has a housing 40 provided with a circuit board receiving slot for receiving the circuit board.

Specifically, referring to fig. 1 to 6, the present embodiment provides an intelligent panel lock, which includes a lock body 1, a handle 2, a mechanical locking mechanism that is a rotating shaft 3, an electronic locking mechanism 4, a computer key interface module 5, and a lock state feedback assembly described in embodiment 1.

the lock body 1 is used for installing a handle 2, a rotating shaft 3, an electronic locking mechanism 4 and a computer key interface module 5; a rotating shaft mounting hole is formed in the lock body 1, and the rotating shaft 3 is pivotally arranged in the rotating shaft mounting hole; handle 2 rotationally connects in pivot 3, and is connected with the 3 drives of pivot, can drive pivot 3 through rotating handle 2 and rotate, makes pivot 3 can switch between shutting position and unblock position, and the rotation of pivot 3 makes the tool to lock be in unblock state or shutting state, for example, 3 rear ends of pivot can with like the cooperation of locking mechanical system such as world pole to the shutting cabinet door, locking mechanical system with the utility model discloses an it is irrelevant to essence, needn't be repeated. The locking position of the rotating shaft 3 refers to a position where the rotating shaft 3 is limited to rotate, namely, a position where a bolt is clamped with a bolt groove 31 on the rotating shaft 3; the unlocking position of the rotating shaft 3 refers to the position of the rotating shaft 3 when the lockset is in an unlocking state.

Electronic locking mechanism 4 includes a housing 40, and a circuit board 30, a latch tongue 41, a latch tongue return spring 42, and a latch tongue locking mechanism 43, which are accommodated in housing 40. The spring bolt 41 is shaft-like, can reciprocating motion, has the lock tongue 411, and the lock tongue groove 31 has been seted up correspondingly to pivot 3 and lock tongue 411, and the lock tongue 411 of spring bolt 41 cooperates with the lock tongue groove 31 joint of pivot 3, lock tongue groove 31 can the relative slip with lock tongue 411, for example, lock tongue 411 is the toper, and lock tongue groove 31 is the tapered groove that matches with toper lock tongue 411.

The lock tongue locking mechanism 43 has a limit element that can move back and forth, and the limit element of the lock tongue locking mechanism 43 can move back and forth between its locking position and unlocking position. The latch bolt lock mechanism 43 is, for example, a solenoid including a solenoid spindle 430 as a stopper, which is capable of reciprocating in its axial direction between its latched position and unlatched position. When the solenoid spindle is in the lock position, the movement of the latch 41 can be blocked, and when the solenoid spindle is in the unlock position, the blocking of the latch 41 is released and the latch 41 can move, whereby the latch lock mechanism 43 can switch the latch 41 between the lock state and the unlock state. In one embodiment, the deadbolt lock out mechanism is a dual solenoid 43 including a first solenoid 431 and a second solenoid 432 having a first spindle and a second spindle, respectively.

A computer key interface module 5 for connecting a computer key, for example, in one embodiment, when a user inserts the computer key into the computer key interface module, the computer key supplies power to a circuit in the lock to move the solenoid spindle from the locking position to the unlocking position, and releases the solenoid spindle from blocking the latch tongue 41 to place the latch tongue 41 in the unlocking state, thereby allowing the latch tongue 41 to move.

The unlocking and locking modes of the intelligent panel lock of the embodiment are as follows: during the unblock, when computer key and computer key interface module 5's signal match are correct, the solenoid dabber returns to the unblock position, and spring bolt 41 can the free motion, and at this moment, electronic locking mechanism 4 removes the rotation restriction to pivot 3, can the free rotation, can drive pivot 3 through rotating handle 2 and rotate to the unblock position, and intelligent panel lock is in the unblock state. During shutting, rotate pivot 3 through handle 2, when the position that corresponds with lock tongue 411 was rotated to lock tongue groove 31 on pivot 3, lock tongue reset spring 42 made lock tongue 411 stretch into lock tongue groove 31 to the spring action of lock tongue 41, the solenoid dabber stretches out, blocks lock tongue 41, rotates pivot 3 this moment and can't release lock tongue 41, and electronic locking mechanism 4 restriction pivot 3 rotates, and pivot 3 is in the shutting position, and intelligent panel lock is in the shutting state.

The lock state feedback assembly includes a hall element 10, a permanent magnet 20, and a circuit board 30.

The back side of the housing 40 of the electronic locking mechanism 4 is provided with a circuit board receiving groove, and the circuit board 30 is mounted in the circuit board receiving groove and used for supplying power to the hall element 10. The circuit board 30 has a circuit interface 301 for connecting with a control circuit component of the smart panel lock, the control circuit component provides a power supply and a main control signal for the circuit board 30, the circuit interface 301 is electrically connected with an electronic driving element of the electronic locking mechanism, and specifically, the circuit interface 301 is electrically connected with a bolt locking mechanism (for example, a solenoid) of the electronic driving element.

The rotating shaft 3 is provided with a permanent magnet mounting groove, a permanent magnet 20, such as magnetic steel, is fixed in the permanent magnet mounting groove, and the permanent magnet 20 can move synchronously along with the rotating shaft 3. The nearest distance between the outer surface of the permanent magnet 20 and the surface of the rotating shaft 3 in the radial direction of the rotating shaft is 0-2mm, the distance can prevent the permanent magnet 20 from influencing the rotation of the rotating shaft 3, and the permanent magnet 20 is prevented from being embedded into the rotating shaft 3 too deeply to influence the detection of the Hall element 10.

The hall element 10 is disposed on the circuit board 30, electrically connected to the circuit interface 301, and configured to detect the permanent magnet 20. When the rotating shaft 3 is in the locked position, the hall element 10 and the permanent magnet 20 are correspondingly close to each other, in other words, when the rotating shaft 3 is in the unlocked position, the distance between the permanent magnet 20 and the hall element 10 is greater than the distance between the rotating shaft 3 and the hall element when the rotating shaft 3 is in the locked position.

Preferably, the permanent magnet 20 and the latch groove 31 are arranged side by side along the axial direction of the rotating shaft 3, and/or when the rotating shaft 3 is in the locked position, the distance between the hall element 10 and the permanent magnet 20 is the smallest, more preferably, the hall element 10 faces the permanent magnet 20, and the "facing" means that the connecting line between the hall element 10 and the permanent magnet 20 is substantially perpendicular to the rotating shaft 3. When the connecting line of the hall element 10 and the permanent magnet 20 and the connecting line of the bolt 41 and the bolt groove 31 are parallel to each other, the action consistency can be ensured, and the detection of the lock state is consistent and reliable.

The distance between the hall element 10 and the permanent magnet 20 is 1-10mm, preferably 3-8mm, most preferably 5-6mm when the spindle 3 is in the locked position. This distance is a distance between the hall element 10 and the closest surface of the permanent magnet 20, and referring to fig. 5, the distance between the lower surface of the hall element 10 and the upper surface of the permanent magnet 20 is shown in fig. 5.

The intelligent panel lock further comprises a storage device used for storing the lock state fed back by the Hall element.

The intelligent panel lock further comprises a signal sending device used for uploading the lock state to a computer key.

The working principle of the embodiment is as follows: when the rotating shaft 3 is in a locking state, the permanent magnet 20 on the rotating shaft 3 is close to the Hall element 10 on the lock body, the Hall element 10 detects a magnetic signal, the Hall element outputs an electric signal, and the information that the lock is in the locking state is fed back; when the rotating shaft 3 is in the unlocking state, the permanent magnet 20 on the rotating shaft is far away from the hall element 10, and at the moment, the hall element 10 cannot detect a magnetic signal and feed back information that the lockset is in the unlocking state.

in another embodiment, a smart panel lock includes a handle and an electronic latching mechanism capable of latching the handle. The handle is in driving connection with the rotating shaft and can drive the rotating shaft to perform pivoting motion; the electronic locking mechanism can be matched with the handle in a clamping way; the rotating shaft is also provided with a locking position and an unlocking position, when the handle is locked, the rotating shaft in driving connection with the handle is located at the locking position, and when the handle is unlocked, the handle can drive the rotating shaft to rotate, so that the rotating shaft can be located at the unlocking position. This kind of panel lock is the panel lock of shutting handle, and its structure is irrelevant with the essential spirit of the utility model, no longer gives unnecessary details. Although the locking state and the unlocking state of the lock can be generally distinguished visually, a permanent magnet mounting groove can be formed in a rotating shaft of the intelligent panel lock of the locking handle, the permanent magnet is fixed in the permanent magnet mounting groove and can move synchronously along with the rotating shaft, a Hall element is correspondingly arranged with the permanent magnet, and the lock state can be fed back.

The embodiments of the present invention have been described above. However, the present invention is not limited to the above embodiment. 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 (15)

1. The utility model provides an intelligent panel lock, includes electronic locking mechanism, mechanical locking mechanism, control circuit subassembly and tool to lock state feedback subassembly, electronic locking mechanism can with mechanical locking mechanism locks spacing cooperation, its characterized in that:

The electronic locking mechanism comprises a circuit board, the circuit board is fixedly connected to the electronic locking mechanism, the circuit board is provided with a circuit interface, the control circuit assembly is electrically connected with the circuit interface, and the circuit interface is electrically connected with an electronic driving element of the electronic locking mechanism;

The lock state feedback assembly comprises a Hall element and a permanent magnet, the Hall element is arranged on the circuit board and is electrically connected with the circuit interface, and the Hall element is close to the mechanical locking mechanism and is arranged at intervals with the mechanical locking mechanism; the permanent magnet is arranged on the mechanical locking mechanism, can act along with the mechanical locking mechanism, and can be opposite to the Hall element in an induction mode.

2. The intelligent panel lock of claim 1, wherein the electronic locking mechanism is provided with a locking tongue that is telescopically movable towards the mechanical locking mechanism, and the hall element is disposed opposite the locking tongue.

3. The intelligent panel lock of claim 2, wherein the mechanical locking mechanism is provided with a locking tongue groove corresponding to the locking tongue, the locking tongue is in limit fit with the locking tongue groove, the locking tongue groove and the permanent magnet are arranged side by side along an axial direction of the mechanical locking mechanism, and an outward direction of the permanent magnet is consistent with a direction of a notch of the locking tongue groove.

4. The smart panel lock of claim 1 wherein the electronic locking mechanism has a housing with a circuit board receiving slot for receiving the circuit board.

5. The smart panel lock of claim 4, wherein the circuit board receiving slot is an integral mechanism with a housing of the electronic locking mechanism.

6. The intelligent panel lock of any one of claims 1 to 5, wherein the mechanical locking mechanism is a spindle, the intelligent panel lock comprises a lock body, a spindle mounting hole is formed in the lock body, the spindle is pivotally disposed in the spindle mounting hole, and the spindle switches between a locked state and an unlocked state by switching between a locked position and an unlocked position; the rotating shaft is fixedly provided with a permanent magnet, and when the rotating shaft is located at a locking position, the Hall element is correspondingly close to the permanent magnet.

7. The intelligent panel lock of claim 6, wherein the electronic locking mechanism comprises a housing and a locking bolt, a locking bolt return spring and a locking bolt locking mechanism housed within the housing; the lock tongue is provided with a lock tongue groove, the rotating shaft and the lock tongue are correspondingly provided with the lock tongue groove, and the lock tongue can be limited in the lock tongue groove; the lock bolt locking mechanism is provided with a limiting part capable of reciprocating, and the limiting part can reciprocate between a locking position and an unlocking position of the limiting part so as to limit the lock bolt or relieve the limit of the lock bolt.

8. The smart panel lock of claim 7, wherein the deadbolt lock-out mechanism is a solenoid including a solenoid spindle as the stop, the solenoid spindle being reciprocally movable in its axial direction between its latched and unlatched positions.

9. The intelligent panel lock of claim 7, wherein the deadbolt lock-out mechanism is a dual solenoid disposed in opposition, comprising a first solenoid and a second solenoid having a first spindle and a second spindle, respectively, the spindles being reciprocally movable in their axial directions between their unlocked and locked positions.

10. The smart panel lock of any one of claims 7-9, wherein a distance between the hall element and the permanent magnet is minimized when the spool is in the latched position.

11. The intelligent panel lock of claim 10, wherein the hall element faces the permanent magnet when the spindle is in the locked position.

12. The intelligent panel lock of claim 10, wherein the hall element is 1-10mm from the permanent magnet when the spindle is in the locked position.

13. The intelligent panel lock of claim 12, wherein the hall element is 3-8mm from the permanent magnet when the spindle is in the locked position.

14. The intelligent panel lock of claim 13, wherein when the spindle is in the locked position, the hall element is 5-6mm from the permanent magnet, which is magnetic steel.

15. The intelligent panel lock of claim 1, wherein the outer surface of the permanent magnet is spaced from the surface of the shaft by a distance of 0-2mm closest in the radial direction of the shaft.