CN110930554A - Intelligent lock body with anti-prying function and door with intelligent lock body - Google Patents

Abstract

The invention discloses a smart lock body with a prying-resistant function, which comprises: the device comprises a shell, a lock tongue assembly arranged in the shell, an execution driving mechanism, a control system arranged in the shell and an induction driving system arranged in the shell or outside the shell; the bolt assembly comprises a moving member and a bolt arranged on the moving member; the execution driving mechanism comprises a motor, a locking mechanism in driving connection with the motor and a lock cylinder shifting peach pivotally connected with the shell; the lock cylinder shifting peach is used for shifting the moving piece to enable the lock tongue to stretch relative to the shell; the locking mechanism is used for locking the lock cylinder shifting peach; the control system is electrically connected with the motor, and the motor is controlled by the control system to start or stop; the induction driving system is in signal connection with the control system. Through the locking of locking mechanism to the lock core thumb wheel to and the protection control system is connected with the electricity of motor and is not destroyed, thereby guarantee that the spring bolt does not stir and keep the lock door state by the lock core thumb wheel, thereby guaranteed higher pick-proof ability. The invention also discloses a door.

Description

Intelligent lock body with anti-prying function and door with intelligent lock body

Technical Field

The invention relates to the technical field of lock bodies, in particular to an intelligent lock body with a prying-resistant function and a door with the intelligent lock body.

Background

The electronic lock needs to be controlled by supplying power through the power line, so that when the electronic lock is damaged, the front panel of the lock body is detached outside the door, part of the motor is exposed, the power line (namely the power supply line) of the motor is short-circuited again, and the motor-driven main lock bolt is retracted into the lock body, namely, the door is opened, so that the existing electronic lock is poor in anti-prying function.

Disclosure of Invention

In order to overcome the defects of the prior art, an object of the present invention is to provide a smart lock body with a prying-resistant function, which can not be unlocked even if the electrodes of the motor are short-circuited when a user is pryed, so as to further improve the prying-resistant capability of the lock body.

It is a second object of the present invention to provide a door.

One of the purposes of the invention is realized by adopting the following technical scheme:

wisdom lock body with pick-proof function includes:

a housing;

the bolt assembly is arranged in the shell and comprises a moving member and a bolt arranged on the moving member, and the bolt is movably inserted in the shell;

the actuating drive mechanism comprises a motor, a locking mechanism in driving connection with the motor and a lock cylinder shifting peach pivotally connected with the shell; the lock cylinder shifting peach is used for shifting the moving piece to enable the lock tongue to stretch relative to the shell; the locking mechanism is used for locking the lock cylinder shifting peach to prevent the lock cylinder shifting peach from rotating;

the control system is arranged in the shell and electrically connected with the motor, and the motor is controlled by the control system to start or stop;

and the induction driving system is arranged in the shell or outside the shell and is in signal connection with the control system.

Further, the control system is a single chip microcomputer, a single board computer or an embedded system.

Further, the induction driving system is one of a mechanical contact switch, a wireless proximity induction switch, an ultrasonic distance sensor, a photoelectric sensor and a magnetic control sensor.

Further, the induction driving system is a microswitch.

Further, the locking mechanism comprises a sliding block, one of the sliding block and the lock cylinder shifting block is provided with a clamping groove, the other one of the sliding block and the lock cylinder shifting block is provided with a clamping block, and the clamping block is suitable for being clamped with the clamping groove to lock the lock cylinder shifting block.

Furthermore, the lock cylinder shifting peach is further provided with a shifting rod, the moving piece is provided with a plurality of teeth which are linearly arranged, a groove is formed between every two adjacent teeth, and when the lock cylinder shifting peach rotates, the shifting rod is suitable for being embedded into the groove to push the teeth, so that the lock tongue can stretch relative to the shell.

Furthermore, the sliding block is movably sleeved with a rotating shaft of the motor; the locking mechanism also comprises a transmission spring which is arranged in the sliding block and movably sleeved with a rotating shaft of the motor; the rotating shaft of the motor is provided with a pressing rod which protrudes along the radial direction of the rotating shaft and penetrates through the transmission spring, and the pressing rod is used for driving the transmission spring to move linearly so as to enable the sliding block to move along the axial direction of the motor.

Furthermore, the sliding block comprises a first block and a second block which is connected with and synchronous with the first block, the clamping block is arranged in the first block, and the transmission spring is arranged in the second block; one of the first block and the second block is provided with a limiting groove, and the other block is provided with a limiting block which is embedded into the limiting groove.

Further, the shell is provided with a guide plate, and the guide plate is parallel to the movement direction of the first sub-block and is abutted against the first sub-block.

The second purpose of the invention is realized by adopting the following technical scheme:

the door comprises the intelligent lock body with the anti-prying function.

Compared with the prior art, the invention has the beneficial effects that:

1. in order to lock the bolt when prizing, thereby preventing the bolt from contracting into the shell. When the induction driving system triggers the control system, the control system then controls the motor to start, and the motor then drives the locking mechanism to prevent the lock cylinder from rotating. Therefore, even if the front panel has a hole site and can supply the member to insert the straight type groove (the hole promptly) of lock core thumb wheel, also can't rotate lock core thumb wheel to guaranteed that the spring bolt stretches out the state outside the casing, the pick-proof effect is better.

2. In addition, because the control system is arranged in the shell, the electric connection relationship between the control system and the motor is in a hidden state (namely, the control system is collected in the shell), so that an electric wire (a control wire) cannot be pulled out and damaged through a hole position of the front panel, namely, the electric connection relationship between the control system and the motor cannot be damaged, the control system always controls the starting and stopping of the motor, even if a power wire of the motor is taken out and short-circuited, the motor cannot be started, and the prying-proof effect is further upgraded.

3. Most importantly, the lock core is locked by the lock mechanism, and the electric connection between the control system and the motor is protected from being damaged, so that the situation that the lock tongue is not stirred by the lock core and keeps a door locking state is guaranteed, and higher anti-prying capability is guaranteed.

Drawings

FIG. 1 is a schematic structural diagram of a smart lock body with anti-prying function according to the present invention;

fig. 2 is a schematic structural diagram of the actuating driving mechanism shown in fig. 1.

In the figure: 1. a housing; 2. a latch bolt assembly; 21. a moving member; 211. teeth; 212. a groove; 22. a latch bolt; 3. an actuator drive mechanism; 31. a motor; 311. a pressure lever; 32. a locking mechanism; 321. a slider; 3211. a first block; 32111. a clamping block; 32112. a limiting block; 3212. second blocking; 32121. a limiting groove; 322. a transmission spring; 33. lock core shifting peach; 331. a card slot; 332. a deflector rod; 333. a straight-shaped groove; 34. a guide plate; 4. and (5) controlling the system.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "horizontal", "vertical", "top", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; either directly or indirectly through intervening media, or through both elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

It should be noted that, in the prior art, many general electronic locks have a true lock cylinder or a false lock cylinder in a lock body, and a key hole of the true lock cylinder needs to be matched with a key to rotate. The false lock core is driven by the chip and the motor (namely the chip controls the motor which controls the lock tongue to extend and retract). The lock core shifting peach 33 of the false lock core is generally provided with a straight-line-shaped groove 333 (namely an inner hole), and any rod piece can twist the straight-line-shaped groove 333 (namely the inner hole). When adopting false lock core, adopt the motor drive spring bolt to open the door or when locking the door promptly, be prized easily, its root lies in: as long as the front panel is removed, the straight-shaped groove 333 (i.e. the inner hole) is exposed in the external environment (a hole site on the shell 1 is over against the straight-shaped groove 333), so that the straight-shaped groove 333 (i.e. the inner hole) can be stirred to rotate only by a rod piece penetrating through the hole site on the shell 1, thereby unlocking and opening the door; i.e. generally less tamper-resistant.

In order to solve the disadvantage that the door can be opened by short-circuiting the motor 31, the control system 4 is arranged in the housing 1, and at this time, the connecting wire between the control system 4 and the motor 31 is positioned in the housing 1, so that the electrical connection relationship between the control system 4 and the motor 31 can be maintained (without being maliciously cut off the electrical connection relationship between the control system 4 and the motor 31. because if the control system 4 is arranged on the front panel or the rear panel of the lock body, after the front panel is violently removed, the electrical connection relationship between the control system 4 and the motor 31 can be cut off by pulling the wire, and at this time, the motor 31 can be rotated only by short-circuiting the motor 31). Therefore, the control system 4 is installed inside the housing 1, and the electrical connection between the control system 4 and the motor 31 can be prevented from being damaged maliciously, and at this time, even if the electrode of the motor 31 is short-circuited, the motor 31 does not cross the control system 4 and starts itself.

Specifically, fig. 1-2 show a smart lock body with anti-picking function according to a preferred embodiment of the present invention, including: the motor comprises a shell 1, a bolt assembly 2 arranged in the shell 1, an execution driving mechanism 3, a control system 4 arranged in the shell 1 (so as to ensure that the electrical connection relationship between the control system 4 and the motor 31 is not maliciously cut off), and an induction driving system (not shown in the figure) arranged in the shell 1 or outside the shell 1.

The latch bolt assembly 2 includes a moving member 21 (the moving member 21 is preferably a thin plate type part, that is, may be a part of other structure), and a latch bolt 22 installed (fixedly installed or installed through elastic activity) on the moving member 21, and the latch bolt 22 is movably inserted into the housing 1 to realize a door locking state or a door unlocking state.

The actuating drive mechanism 3 comprises a motor 31, a locking mechanism 32 in driving connection with the motor 31, and a lock cylinder dial 33 pivotally connected with the housing 1 (i.e. the lock cylinder dial 33 of the false lock cylinder, the lock cylinder dial 33 has a straight-line groove 333); the lock cylinder shifting peach 33 is used for shifting the moving piece 21 so as to enable the bolt 22 to extend and retract relative to the shell 1; the locking mechanism 32 is used to lock the lock cylinder picks 33 to prevent the lock cylinder picks 33 from rotating.

The control system 4 is electrically connected with the motor 31, and the motor 31 is controlled by the control system 4 to start or stop.

The induction driving system is in signal connection with the control system 4.

When the induction driving system detects that the lock body is pried (for example, the lock body is pried or the door plate is pried), the induction driving system inputs a signal to the control system 4, so that the control system 4 controls the motor 31 to start, and the locking mechanism 32 locks the lock core dial 33. When the lock core shift lug 33 is locked and can not rotate, the lock core shift lug 33 can not shift the moving member 21 to retract into the housing 1, i.e. the lock tongue 22 is kept extending out of the housing 1 to ensure the door locking state.

More importantly, it is repeated that the lock tongue 22 is locked when prizing, so that the lock tongue 22 is prevented from being retracted into the housing 1. When the induction drive system triggers the control system 4, the control system 4 in turn controls the motor 31 to start, and the motor 31 in turn drives the locking mechanism 32 to prevent the lock cylinder dial 33 from rotating. Therefore, even if a hole position exists on the front panel, a rod piece can be inserted into the straight-line-shaped groove 333 (namely an inner hole) of the lock cylinder shifting peach 33, the lock cylinder shifting peach 33 cannot be rotated, so that the state that the lock bolt 22 extends out of the shell 1 is ensured, and the anti-prying effect is better. In addition, because the control system 4 is arranged inside the casing 1, the electrical connection between the control system 4 and the motor 31 is in a hidden state (i.e. the control line is collected inside the casing 1), so that the electric wire (control line) cannot be pulled out and damaged through the hole of the front panel, i.e. the electrical connection between the control system 4 and the motor 31 cannot be damaged, so that the control system 4 always controls the motor 31 to be started and stopped, even if the power line of the motor 31 is taken out and short-circuited, the motor 31 cannot be started, and the anti-prying effect is further improved.

Most importantly, the lock mechanism 32 locks the lock core shift block 33 and protects the electric connection between the control system 4 and the motor 31 from being damaged, so that the lock tongue 22 is ensured not to be shifted by the lock core shift block 33 to keep a door locking state, and higher anti-prying capability is ensured. That is, the unlocking is performed on the premise that the moving member 21 of the lock tongue 22 is shifted by the lock cylinder shift peg 33, and the lock cylinder shift peg 33 rotates on the premise that the motor 31 drives the locking mechanism 32 to unlock the lock cylinder shift peg 33, and the motor 31 is controlled by the control system 4; while the electrical connection of the motor 31 to the control system 4 is concealed inside the housing 1. Therefore, even if the front panel is removed according to the existing violent lock picking method to expose the straight-line-shaped groove 333 (i.e. the inner hole) of the lock core shifting peach 33, the lock core shifting peach cannot be unlocked, and the anti-picking capability of the lock body is greatly improved. In addition, it should be mentioned that in the present invention, the motor 31 is used to drive the locking mechanism 32 to lock the lock cylinder shift drum 33, so as to prevent the lock cylinder shift drum 33 from being rotated when picking. Compared with the prior art in which the motor drives the bolt 22 to extend and retract, the invention substantially changes the concept of how the lock body is prevented from being prized. The difference lies in that: in essence, even if the control system 4 is disposed in the housing 1 in the prior art, when the front panel of the lock body is removed, the horizontal groove 333 (i.e., the inner hole) of the lock cylinder dial 33 is exposed to the external environment, i.e., the door can be opened only by inserting any rod into the horizontal groove 333, i.e., the motor in the prior art only functions to provide driving of the lock tongue 22 to automatically lock or unlock; the pick-proof ability is poor.

Preferably, the control system 4 is a single chip, a single board computer, an embedded system or other conventional control system 4.

Preferably, the inductive driving system is one of a mechanical contact switch, a wireless proximity inductive switch, an ultrasonic distance sensor, a photoelectric sensor and a magnetic control sensor.

Preferably, the inductive drive system is a microswitch.

Preferably, the locking mechanism 32 includes a sliding block 321, one of the sliding block 321 and the lock cylinder dial 33 has a locking groove 331, and the other has a locking block 32111, and the locking block 32111 is adapted to be locked with the locking groove 331 to lock the lock cylinder dial 33. By the arrangement, the locking mode can be convenient, the driving of the motor 31 is facilitated, and the manufacturing is convenient. Obviously, besides the arrangement mode, the lock cylinder can also be limited by direct abutting, namely, the lock block 32111 interferes with the rotation of the lock cylinder dial 33 (namely, the clamping groove 331 is not needed); the lock core shift peach 33 can also be fixed with a gear, namely, the motor 31 drives other rod pieces or racks to lock the lock core shift peach.

Preferably, the lock cylinder shift knob 33 is further provided with a shift lever 332, the moving member 21 is provided with a plurality of teeth 211 arranged linearly, a groove 212 is formed between adjacent teeth 211, and when the lock cylinder shift knob 33 rotates, the shift lever 332 is adapted to engage with the groove 212 to push the teeth 211, so that the lock tongue 22 extends and contracts relative to the housing 1. The arrangement is that the shifting rod 332 of the lock cylinder shifting peach 33 directly shifts the moving piece 21, and the structure of the lock body is simplified. It should be added that the mode of the lock core dial 33 for dialing the moving member 21 may be that the dial 332 dials directly, or may be that the dial is toggled indirectly on the basis of adding conventional transmission members such as gears and racks. For example, a gear rack set may be added, the gear is fixed to the lock cylinder dial 33, and the rack is fixedly connected to the moving member 21.

Preferably, the sliding block 321 is movably sleeved on the rotating shaft of the motor 31; the locking mechanism 32 further comprises a transmission spring 322, and the transmission spring 322 is arranged in the sliding block 321 and movably sleeved with the rotating shaft of the motor 31; the rotating shaft of the motor 31 has a pressing rod 311 protruding along its radial direction and penetrating through the transmission spring 322, and the pressing rod 311 is used for driving the transmission spring 322 to make a linear movement (i.e. the pressing rod 311 rotates to force the transmission spring 322 to make a linear movement), so that the sliding block 321 moves along the axial direction of the motor 31. That is, when the transmission spring 322 is moved, the movement can be made by the elastic force. Set up like this, can make slider 321 remove the process more gentle, the low impact force of noise is little, does benefit to the protection lock body. Obviously, besides this arrangement, it is possible to use a combination of the motor 31 and the lead screw, a combination of the motor 31 and the gear and the rack, and the like.

The slider 321 is easy to manufacture and assemble. Preferably, the sliding block 321 includes a first segment 3211 and a second segment 3212 connected and synchronized with the first segment 3211, the latch 32111 is disposed on the first segment 3211, and the transmission spring 322 is disposed in the second segment 3212. Preferably, one of the first segment 3211 and the second segment 3212 is provided with a limiting groove 32121, the other is provided with a limiting block 32112, and the limiting block 32112 is embedded in the limiting groove 32121. By this arrangement, the first segment 3211 and the second segment 3212 can be easily assembled and coupled together.

In order to make the slider 321 relatively firm after locking. Preferably, the housing 1 is provided with a guide plate 34, the guide plate 34 being parallel to the direction of movement of the first segment 3211 and abutting the first segment 3211.

In addition, it should be added that the existing driving false lock cylinder can be used to unlock normally to open the door in the actual normal use process of the intelligent lock body with the anti-prying function. That is, when the proper key is used to unlock the proper lock cylinder, the proper lock cylinder is linked with the transmission strip, so that the transmission strip moves the linear groove 333 (i.e. the inner hole) of the lock cylinder shifting block 33 to rotate, and normal door opening is realized.

The invention also comprises a door which comprises the intelligent lock body with the anti-prying function.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (10)

1. Wisdom lock body with pick-proof function, its characterized in that includes:

a housing;

the bolt assembly is arranged in the shell and comprises a moving member and a bolt arranged on the moving member, and the bolt is movably inserted in the shell;

the actuating drive mechanism comprises a motor, a locking mechanism in driving connection with the motor and a lock cylinder shifting peach pivotally connected with the shell; the lock cylinder shifting peach is used for shifting the moving piece to enable the lock tongue to stretch relative to the shell; the locking mechanism is used for locking the lock cylinder shifting peach to prevent the lock cylinder shifting peach from rotating;

the control system is arranged in the shell and electrically connected with the motor, and the motor is controlled by the control system to start or stop;

and the induction driving system is arranged in the shell or outside the shell and is in signal connection with the control system.

2. A smart lock body with anti-pry function as recited in claim 1, wherein: the control system is a single chip microcomputer, a single board computer or an embedded system.

3. A smart lock body with anti-pry function as recited in claim 1, wherein: the induction driving system is one of a mechanical contact switch, a wireless proximity induction switch, an ultrasonic distance sensor, a photoelectric sensor and a magnetic control sensor.

4. A smart lock body with anti-pry function according to claim 3, wherein: the induction driving system is a microswitch.

5. A smart lock body with anti-pry function as recited in claim 1, wherein: the locking mechanism comprises a sliding block, one of the sliding block and the lock cylinder shifting peach is provided with a clamping groove, the other of the sliding block and the lock cylinder shifting peach is provided with a clamping block, and the clamping block is suitable for being clamped with the clamping groove to lock the lock cylinder shifting peach.

6. A smart lock body with anti-pry function as recited in claim 1, wherein: the lock core shifting peach is further provided with a shifting rod, the moving member is provided with a plurality of teeth which are linearly arranged, a groove is formed between every two adjacent teeth, and when the lock core shifting peach rotates, the shifting rod is suitable for being embedded into the groove to push the teeth, so that the lock tongue can stretch relative to the shell.

7. An anti-pry smart lock body as defined in claim 5, wherein: the sliding block is movably sleeved with a rotating shaft of the motor; the locking mechanism also comprises a transmission spring which is arranged in the sliding block and movably sleeved with a rotating shaft of the motor; the rotating shaft of the motor is provided with a pressing rod which protrudes along the radial direction of the rotating shaft and penetrates through the transmission spring, and the pressing rod is used for driving the transmission spring to move linearly so as to enable the sliding block to move along the axial direction of the motor.

8. A smart lock body with anti-pry function as recited in claim 7, wherein: the sliding block comprises a first block and a second block which is connected with and synchronous with the first block, the clamping block is arranged in the first block, and the transmission spring is arranged in the second block; one of the first block and the second block is provided with a limiting groove, and the other block is provided with a limiting block which is embedded into the limiting groove.

9. A smart lock body with anti-pry function as recited in claim 8, wherein: the shell is provided with a guide plate, and the guide plate is parallel to the moving direction of the first sub-block and is abutted against the first sub-block.

10. A door, characterized in that: a smart lock body with anti-prying function comprising any one of claims 1-9.

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