CN109519057B - Lock control device and lock head - Google Patents

Abstract

The invention relates to a control device and a lock head of a lock, comprising a controller and a clutch device; the clutch device comprises a driving assembly, a connecting gear, a lock gear and a sliding assembly; the sliding component is sleeved on the transmission shaft of the lock and drives the transmission shaft to rotate along the direction perpendicular to the axial direction of the transmission shaft; the connecting gear is sleeved on the transmission shaft, and when the connecting gear is in a connecting state with the sliding assembly, the sliding assembly is driven to rotate along the direction vertical to the axial direction of the transmission shaft; the driving device is connected with the sliding component and controls the sliding component to axially move along the transmission shaft; the lock head gear is fixedly connected with the lock cylinder; the connecting gear is meshed with the lock gear; the controller is connected with the driving device. When the unlocking signal is not received, the sliding component moves upwards, the motion of the lock core cannot be transmitted to the transmission shaft, and even if someone bypasses a key or technical mode for unlocking a mechanical lock hole, the lock cannot be opened, and the anti-theft effect is good.

Description

Lock control device and lock head

Technical Field

The invention relates to the technical field of theft prevention, in particular to control equipment of a lock and a lock head.

Background

The existing door locks comprise a password door lock, a fingerprint door lock and the like besides the traditional mechanical lock, but no matter which door lock is additionally provided with a door opening mode, such as password opening, fingerprint opening and the like, on the basis of a mechanical lock body, and a mechanical key hole is reserved for emergency use. The mechanical lock body is used for preventing burglary by improving the complexity of the internal structure of the lock, such as a plurality of rows of pins, a single row of composite pins, blades or levers, but only prolonging the technical unlocking time, according to the GA/T73-2015 mechanical anti-theft lock standard, the A-level lock technology is opened for 1 minute, the B-level lock technology is opened for 5 minutes and the C-level lock technology is opened for 10 minutes, so that if a key is lost or technical unlocking is encountered, the door lock still cannot be prevented from being opened by other people, and the safety anti-theft effect is poor.

Disclosure of Invention

Therefore, the invention aims to provide a control device of a lock and a lock head, so as to solve the problems that the door lock can not be prevented from being opened by other people if a key is lost or technical unlocking is encountered at present, and the safety anti-theft effect is poor.

In order to achieve the above purpose, the invention adopts the following technical scheme:

a control device for a lock, which is provided with a control device,

comprises a controller and a clutch device;

the clutch device comprises a driving assembly, a connecting gear, a lock gear and a sliding assembly;

the sliding component is sleeved on a transmission shaft of the lock and drives the transmission shaft to rotate along the direction perpendicular to the axial direction of the transmission shaft;

the connecting gear is sleeved on the transmission shaft, and when the connecting gear is in a connecting state with the sliding assembly, the sliding assembly is driven to rotate along the direction perpendicular to the axial direction of the transmission shaft;

the sliding assembly is connected with a driving device, and the driving device controls the sliding assembly to axially move along the transmission shaft;

the lock head gear is fixedly connected with the lock cylinder; the connecting gear is meshed with the lock gear; the controller is connected with the driving device;

the controller sends an instruction to the driving assembly, the driving assembly controls the sliding assembly to move towards the direction of the connecting gear and is connected with the connecting gear, when the lock cylinder rotates, the lock cylinder drives the lock cylinder gear to rotate, the lock cylinder gear drives the connecting gear to rotate and then drives the sliding assembly to rotate, and then drives the transmission shaft to rotate along the direction perpendicular to the axial direction of the transmission shaft, and the transmission shaft drives the lock tongue to realize opening and closing of the lock.

Further, in the above device, a first meshing tooth is arranged on a surface of the connecting gear opposite to the sliding component;

the surface of the sliding component, which is opposite to the connecting gear, is provided with a second meshing tooth, and the first meshing tooth is meshed with the second meshing tooth.

Further, in the above apparatus, the driving device includes a driver and a driving gear;

the driver is connected with the driving gear.

Further, the apparatus described above, the sliding assembly comprising a sliding cover and a slider;

a first spring is arranged between the sliding cover and the sliding piece;

and a second spring is arranged between the sliding piece and the connecting gear.

Further, in the above device, a third engaging tooth is provided on the sliding cover;

the third meshing teeth mesh with the drive gear.

Further, the device further comprises a fixed bracket;

the fixed bracket is provided with a first sleeve and a second sleeve;

the lock cylinder is placed in the first sleeve;

the sliding assembly is disposed within the second sleeve.

Further, in the above device, the clutch device further includes a clutch sensing device and a clutch sensing device;

the separation sensing device and the combination sensing device are respectively connected with the controller;

the sliding component slides to the position where the separation sensing device is located, and the separation sensing device sends a separation signal to the controller;

the sliding component slides to the position of the closing sensing device, and the closing sensing device sends a closing signal to the controller.

Further, the above apparatus, the controller comprising a signal generator and/or an emergency start assembly;

the signal generator sends a first working signal to the driver;

the emergency start assembly sends a second operating signal to the driver.

Further, the device further comprises an indicator light;

the indicator light is connected with the controller.

The invention also provides a lock head, which comprises a lock body and the control equipment of the lock.

The invention adopts the technical scheme that the control equipment and the lock head of the lock comprise a controller and clutch equipment; the clutch device comprises a driving assembly, a connecting gear, a lock gear and a sliding assembly; the clutch device sliding component is sleeved on the transmission shaft of the lock and drives the clutch device transmission shaft to rotate along the direction perpendicular to the axial direction of the clutch device transmission shaft; the clutch device connecting gear is sleeved on the clutch device transmission shaft, and when the clutch device connecting gear is in a connection state with the clutch device sliding assembly, the clutch device sliding assembly is driven to rotate along the direction perpendicular to the axial direction of the clutch device transmission shaft; the clutch device driving device is connected with the clutch device sliding component and controls the clutch device sliding component to axially move along the clutch device transmission shaft; the lock head gear of the clutch device is fixedly connected with the lock cylinder; the clutch device connecting gear is meshed with the clutch device tapered end gear; the clutch device controller is connected with the clutch device driving device. When the lock is controlled to be opened or closed, the clutch device controller firstly sends an instruction to the clutch device driving assembly, and the clutch device driving assembly controls the clutch device sliding assembly to move towards the direction of the clutch device connecting gear and is connected with the clutch device connecting gear. When the unlocking signal is not received, the sliding component moves upwards, the motion of the lock core cannot be transmitted to the transmission shaft, and even if someone bypasses a key or technical mode for unlocking a mechanical lock hole, the lock cannot be opened, and the anti-theft effect is good.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is an exploded view provided by one embodiment of the control device of the lock of the present invention;

FIG. 2 is a cross-sectional view provided in FIG. 1;

FIG. 3 is a flow chart providing one embodiment of the control device of the lock of the present invention;

FIG. 4 is a flow chart provided by another embodiment of the control device of the lock of the present invention;

FIG. 5 is a flow chart provided by another embodiment of the control device of the lock of the present invention;

fig. 6 is a schematic view of an embodiment of a lock cylinder of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, based on the examples herein, which are within the scope of the invention as defined by the claims, will be within the scope of the invention as defined by the claims.

Fig. 1 is an exploded view of one embodiment of the control device of the lock of the present invention. As shown in fig. 1, the control device of the lock of the present embodiment may include a controller 11 and a clutch device 12, and the controller 11 of the present embodiment may include a control chip, and the model of the control chip is preferably SC92F7321. The clutch device 12 includes a drive assembly 121, a connecting gear 122, a lock gear 123, and a slip assembly 124.

The sliding component 124 is sleeved on the transmission shaft 13 of the lock and drives the transmission shaft 13 of the lock to rotate along the direction perpendicular to the axial direction of the transmission shaft 13. In this embodiment, in order to enable the sliding component 124 to drive the transmission shaft 13 to rotate, a sliding component 124 with a square hole in the center is preferred; the connecting gear 122 is also sleeved on the transmission shaft 13, and the transmission shaft 13 is not directly driven by the movement of the connecting gear 122, but when the connecting gear 122 is in a connection state with the sliding component 124, the sliding component 124 is driven to rotate along the direction perpendicular to the axial direction of the transmission shaft 13, and then the transmission shaft 13 is driven to rotate along the direction perpendicular to the axial direction of the transmission shaft 13.

The driving assembly 121 is connected with the sliding assembly 124, and the driving assembly 121 controls the sliding assembly 124 to axially move along the transmission shaft 13; the lock head gear 123 is fixedly connected with the lock cylinder 14; the connecting gear 122 is meshed with the lock gear 123; the controller 11 is connected to the drive assembly 121.

Specifically, the control device of the lock of the present embodiment may be powered by an external power source or a charging device, and may also be provided with a built-in storage battery, and when no external power source is connected, the power is supplied by the storage battery as a backup battery.

When controlling the opening and closing of the lock, first, the controller 11 sends a command to the driving unit 121, and the driving unit 121 controls the sliding unit 124 to move in the direction of the connecting gear 122 and to be connected to the connecting gear 122. When the lock cylinder 14 rotates, the lock head gear 123 is driven to rotate, the lock head gear 123 drives the connecting gear 122 to rotate, the sliding component 124 is driven to rotate, the transmission shaft 13 is driven to rotate along the direction perpendicular to the axial direction of the transmission shaft 13, and the transmission shaft 13 drives the lock tongue to realize opening and closing of the lock.

The invention adopts the technical proposal, and the control equipment of the lock comprises a controller 11 and a clutch device 12; clutch device 12 the clutch device 12 comprises a drive assembly 121, a connecting gear 122, a lock gear 123, a slip assembly 124 assembly; the clutch device 12 sliding component 124 is sleeved on the transmission shaft 13 of the lock and drives the transmission shaft 13 of the clutch device 12 to rotate along the direction perpendicular to the axial direction of the transmission shaft 13 of the clutch device 12; the clutch device 12 connecting gear 122 is sleeved on the clutch device 12 transmission shaft 13, and when the clutch device 12 connecting gear 122 is in a connection state with the clutch device 12 sliding component 124, the clutch device 12 sliding component 124 is driven to rotate along the direction perpendicular to the clutch device 12 transmission shaft 13; the clutch device 12 driving assembly 121 is connected with the clutch device 12 sliding assembly 124, and the clutch device 12 driving assembly 121 controls the clutch device 12 sliding assembly 124 to axially move along the clutch device 12 transmission shaft 13; the lock gear 123 of the clutch device 12 is connected with the lock cylinder 14; the clutch device 12 connecting gear 122 is meshed with the lock gear 123 of the clutch device 12; the clutch device 12 controller 11 is connected to a clutch device 12 drive assembly 121. When the lock is controlled to be opened or closed, the clutch device 12 controller 11 firstly sends an instruction to the clutch device 12 driving assembly 121, and the clutch device 12 driving assembly 121 controls the clutch device 12 sliding assembly 124 to move towards the direction of the clutch device 12 connecting gear 122 and is connected with the clutch device 12 connecting gear 122. In the lock control device of the present embodiment, when the unlocking signal is not received, the sliding component 124 moves upwards, the motion of the lock core 14 cannot be transmitted to the transmission shaft 13, and even if someone bypasses the unlocking mode with greater difficulty such as password and fingerprint, the lock cannot be unlocked by directly using a key or technical mode for a mechanical lock hole, so that the anti-theft effect is higher.

On the basis of the above embodiment, the present invention also provides another embodiment, and fig. 2 is a sectional view provided in fig. 1. Referring to fig. 1 and 2, based on the above embodiments, the connecting gear 122 of the present embodiment may be connected to the sliding assembly 124 through meshing teeth. Specifically, the face of the connecting gear 122 opposite to the sliding component 124 in this embodiment is provided with first engaging teeth 1221, the face of the sliding component 124 opposite to the connecting gear 122 is provided with second engaging teeth 1241, and the first engaging teeth 1221 are engaged with the second engaging teeth 1241. When the first engagement 1221 tooth is engaged with the second engagement tooth 1241, the connecting gear 122 rotates to rotate the sliding assembly 124. Specifically, the connection gear 122 and the sliding assembly 124 of the present embodiment may be further connected by a spline or other manners, which is not described herein.

Specifically, the driving assembly 121 of the present embodiment may include a driver 1211 and a driving gear 1212, and the driving gear 1212 is connected to the driver 1211. The driver 1211 may control the rotation of the drive gear 1212. Specifically, the driver 1211 in the present embodiment is preferably a motor.

Specifically, the sliding assembly 124 of the present embodiment may include a sliding cover 1242 and a sliding member 1243, with a first spring 1244 disposed between the sliding cover 1242 and the sliding member 1243; a second spring 1245 is provided between the slider 1243 and the connecting gear 122. In this embodiment, the first spring 1244 and the second spring 1245 may accelerate the movement of the slider 1243. In this embodiment, when the driver 1211 controls the driving gear 1212 to rotate clockwise, the third meshing teeth 12421 mesh with the driving gear 1212 to drive the sliding cover 1242 and the sliding part 1243 to move along the axial direction of the transmission shaft 13 towards the direction of the connecting gear 122, so that the sliding part 1243 is connected with the connecting gear 122; when the driver 1211 controls the driving gear 1212 to rotate counterclockwise, the third engaging tooth 12421 engages with the driving gear 1212 to drive the sliding cover 1242 and the sliding member 1243 axially along the transmission shaft 13, in a direction away from the connecting gear 122, so that the sliding member 1243 is separated from the connecting gear 122.

Specifically, the control device of the lock of the present embodiment may further include a fixing bracket 15, and the fixing bracket 15 may be provided with a first sleeve 151 and a second sleeve 152, and the lock cylinder 14 is placed in the first sleeve 151; the slide assembly 124 is disposed within the second sleeve 152.

Specifically, the clutch apparatus 12 of the present embodiment further includes a clutch sensing device 1251 and a clutch sensing device 1252; the separation sensing device 1251 and the combination sensing device 1252 are respectively connected with the controller 11; when the slide assembly 124 moves to the position of the off-sensing device 1251, the off-sensing device 1251 sends an off-signal to the controller 11; when the slide assembly 124 is moved to the position of the closing sensing means 1252, the closing sensing means 1252 sends a closing signal to the controller 11.

Specifically, the control device of the lock of the embodiment may further include an indicator light; the indicator light is connected to the controller 11. Specifically, the red and blue indicator lamps are preferably provided in this embodiment.

Specifically, the controller 11 of the present embodiment may further include a signal generator and/or an emergency starting component.

Fig. 3 is a flow chart provided by one embodiment of the control device of the lock of the present invention. Referring to fig. 3, in order to perform the opening and closing of the lock, the driver 1211 and the driving gear 1212 are rotated clockwise, and at this time, the slide cover 1242 and the slide 1243 are slid downward, and the slide 1243 and the connection gear 122 are engaged. The control device of the lock is now engaged with the lock cylinder 14, and the lock can be opened and closed using a key.

Fig. 4 is a flow chart provided by another embodiment of the control device of the lock of the present invention. Referring to fig. 4, in the off-operation state, the control device of the lock of the present embodiment cannot be engaged with the lock core 14, and cannot use a key to open and close the lock, and the specific flow is opposite to that shown in fig. 3, and reference is made to fig. 4, which is not repeated herein.

Fig. 5 is a flow chart provided by another embodiment of the control device of the lock of the present invention. Referring to fig. 5, in this embodiment, the working process of the control device of the lock in the normal state is scheme B, the signal generator may send a first working signal to the control chip, after the control chip receives the first working signal, the first working signal is sent to the driver 1211, the driver 1211 rotates clockwise to drive the motor teeth to rotate, the motor teeth rotate to drive the sliding cover 1242 to slide downwards, when the sliding piece 1243 is connected with the connecting gear 122, the sliding component 124 moves to the position where the separation sensing device 1251 is located, the separation sensing device 1251 sends a separation signal to the control chip to start the separation operation, at this time, the blue light flashes 3S, and the key is inserted into the lock cylinder 14, and the lock cylinder 14 drives the square shaft to unlock, so as to realize the key door opening. After waiting for 10 seconds, the control chip sends an effective command to the driver 1211 to rotate anticlockwise, the motor teeth are driven to rotate reversely, the motor rotates reversely to drive the sliding cover 1242 to slide upwards until the clutch sliding piece 1243 is separated from the connecting gear 122, at this time, the sliding component 124 moves the position of the closing sensing device 1252, the closing sensing device 1252 sends a closing signal to the control chip, the closing operation is started, the red light flashes for three seconds, the key unlocking function of the lock cylinder 14 is canceled, and a period of action is completed.

Specifically, this embodiment also provides a way, referring to scheme a of fig. 5, in a state that the user forgets to connect to the power supply and the power consumption of the backup battery is low, or in a state that the signal generator or the control chip cannot work normally due to a fault, the emergency component needs to be started to control the driver 1211. In this embodiment, the emergency component may include an emergency power port and a control button, where 2 conditions need to be met when the emergency component is started, and first, the emergency power port of the emergency component is powered, preferably 5V in this embodiment, and the second condition is that the control button is pressed for a long time, at this time, if in an off state, the on operation is started, and if in an on state, the off operation is started. However, red flashing three seconds indicates that the on operation was performed and blue flashing three seconds indicates that the off operation was performed. The state of charge indicates that the red and blue lamps are on together.

Specifically, in order to ensure that the control device of the lock of the present embodiment can be used normally, the control apparatus of the lock of the present embodiment may further include a face cover 16 and a base 17.

On the basis of the above embodiment, the connecting gear 122 of the present embodiment may be connected with the sliding component 124 through the engaging teeth, and the connecting gear 122 may drive the sliding component 124 to rotate; the driving assembly 121 may include a driver 1211 and a driving gear 1212, wherein the driving gear 1212 is fixedly connected with the driver 1211, and the driving gear 1212 is driven by the driver 1211 to rotate; the sliding assembly 124 may include a sliding cover 1242 and a sliding member 1243, with a first spring 1244 disposed between the sliding cover 1242 and the sliding member 1243; a second spring 1245 is provided between the slider 1243 and the connecting gear 122. A third engaging tooth 12421 may be disposed at one end of the sliding cover 1242, where the third engaging tooth 12421 may engage with the driving gear 1212, and the driving gear 1212 rotates to drive the sliding cover 1242 and the sliding element 1243 to move; may further include a fixing bracket 15, where 2 sleeves 151 may be disposed on the fixing bracket 15, one sleeve 151 being used for placing the lock cylinder 14, and another sleeve 151 being used for placing the sliding assembly 124; the clutch device 12 of the present embodiment further includes a separation sensing device 1251 and a closing sensing device 1252, and transmits a position signal of the slider 1243 to the controller 11 through the separation sensing device 1251 and the closing sensing device 1252; and the controller 11 is connected with the indicating lamp to indicate the working state; the control device of the lock of the present embodiment may further include a signal generator and/or a power and control button; the control instruction is sent to the driver 1211. In the lock control device of the present embodiment, when the unlocking signal is not received, the sliding component 124 moves upwards, the motion of the lock core 14 cannot be transmitted to the transmission shaft 13, and even if someone bypasses the unlocking mode with greater difficulty such as password and fingerprint, the lock cannot be unlocked by directly using a key or technical mode for a mechanical lock hole, so that the anti-theft effect is higher.

Fig. 6 is a schematic view of an embodiment of a lock cylinder of the present invention. Referring to fig. 6, the lock cylinder of the present embodiment may include a lock cylinder 14 and the control device 18 of the lock of the above embodiments. The lock cylinder 14 is connected to a lock gear 123. When the key is used for controlling the opening and closing of the lock, the lock cylinder 14 rotates to drive the lock head gear 123 to rotate. Specifically, in this embodiment, the drive shaft 13 may use a 6mm×6mm square shaft, and the lock cylinder 14 may use a super C-stage lock cylinder.

The controller 11 sends an instruction to the driving unit 121, and the driving unit 121 controls the sliding unit 124 to move in the direction of the connecting gear 122 and is connected to the connecting gear 122. When the lock cylinder 14 rotates, the lock head gear 123 is driven to rotate, the lock head gear 123 drives the connecting gear 122 to rotate, the sliding component 124 is driven to rotate, the transmission shaft 13 is driven to rotate along the direction perpendicular to the axial direction of the transmission shaft 13, and the transmission shaft 13 drives the lock tongue to realize opening and closing of the lock.

The tapered end of this embodiment simultaneously adaptation left side is opened the door and is opened the door with the right side, thereby the tapered end of this embodiment is applicable to split type lock body, and the lock body is little simple to operate. The tapered end is installed according to the actual conditions of the door body when installing, specifically, the tapered end of this embodiment needs to be opened on the door body, can be covered by the lock surfaces such as 6058, 6078, 6098 after opening the hole, can change ordinary lock body at any time. The lock head of the embodiment occupies less positions of the door, and solves the problem that the lock head greatly influences the appearance of the door, thereby reducing the grade of the door. In addition, the embodiment is provided with a handle from the appearance design function, and is used for pulling the door open when the door is opened, and the tapered end has high cost performance.

Specifically, the lock cylinder of the present embodiment may include the lock cylinder 14 and the control device 18 of the lock of the above embodiment on the basis of the above embodiments. The lock cylinder 14 is connected with the lock head gear 123, and when the lock cylinder 14 rotates, the lock cylinder 14 drives the lock head gear 123 to rotate when rotating. The controller 11 sends an instruction to the driving unit 121, and the driving unit 121 controls the sliding unit 124 to move in the direction of the connecting gear 122 and is connected to the connecting gear 122. When the lock cylinder 14 rotates, the lock head gear 123 is driven to rotate, the lock head gear 123 drives the connecting gear 122 to rotate, the sliding component 124 is driven to rotate, the transmission shaft 13 is driven to rotate along the direction perpendicular to the axial direction of the transmission shaft 13, and the transmission shaft 13 drives the lock tongue to realize opening and closing of the lock. The lock head of this embodiment, when not receiving the unlocking signal, the sliding component 124 moves upwards, and the motion of the lock core 14 can't be transmitted to the transmission shaft 13, even someone bypasses the mode of opening with great difficulty such as password, fingerprint, directly unblanks with key or technical mode to mechanical lockhole, can't open the lock, and the theftproof effect is better.

It is to be understood that the same or similar parts in the above embodiments may be referred to each other, and that in some embodiments, the same or similar parts in other embodiments may be referred to.

It should be noted that in the description of the present invention, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Furthermore, in the description of the present invention, unless otherwise indicated, the meaning of "plurality" means at least two.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and further implementations are included within the scope of the preferred embodiment of the present invention in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the present invention.

It is to be understood that portions of the present invention may be implemented in hardware, software, firmware, or a combination thereof. In the above-described embodiments, the various steps or methods may be implemented in software or firmware stored in a memory and executed by a suitable instruction execution system. For example, if implemented in hardware, as in another embodiment, may be implemented using any one or combination of the following techniques, as is well known in the art: discrete logic circuits having logic gates for implementing logic functions on data signals, application specific integrated circuits having suitable combinational logic gates, programmable Gate Arrays (PGAs), field Programmable Gate Arrays (FPGAs), and the like.

Those of ordinary skill in the art will appreciate that all or a portion of the steps carried out in the method of the above-described embodiments may be implemented by a program to instruct related hardware, where the program may be stored in a computer readable storage medium, and where the program, when executed, includes one or a combination of the steps of the method embodiments.

In addition, each functional unit in the embodiments of the present invention may be integrated in one processing module, or each unit may exist alone physically, or two or more units may be integrated in one module. The integrated modules may be implemented in hardware or in software functional modules. The integrated modules may also be stored in a computer readable storage medium if implemented in the form of software functional modules and sold or used as a stand-alone product.

The above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, or the like.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the invention, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the invention.

Claims (10)

1. A control device for a lock, characterized in that,

comprises a controller and a clutch device;

the clutch device comprises a driving assembly, a connecting gear, a lock gear and a sliding assembly;

the sliding component is sleeved on a transmission shaft of the lock and drives the transmission shaft to rotate along the direction perpendicular to the axial direction of the transmission shaft;

the connecting gear is sleeved on the transmission shaft, and when the connecting gear is in a connecting state with the sliding assembly, the sliding assembly is driven to rotate along the direction perpendicular to the axial direction of the transmission shaft;

the sliding assembly is connected with a driving device, and the driving device controls the sliding assembly to axially move along the transmission shaft;

the lock head gear is fixedly connected with the lock cylinder; the connecting gear is meshed with the lock gear; the controller is connected with the driving device;

the controller sends an instruction to the driving assembly, the driving assembly controls the sliding assembly to move towards the direction of the connecting gear and is connected with the connecting gear, when the lock cylinder rotates, the lock cylinder drives the lock cylinder gear to rotate, the lock cylinder gear drives the connecting gear to rotate and then drives the sliding assembly to rotate, and then drives the transmission shaft to rotate along the direction perpendicular to the axial direction of the transmission shaft, and the transmission shaft drives the lock tongue to realize opening and closing of the lock.

2. The lock control device according to claim 1, wherein,

a first meshing tooth is arranged on the surface of the connecting gear, which is opposite to the sliding assembly; the surface of the sliding component, which is opposite to the connecting gear, is provided with a second meshing tooth, and the first meshing tooth is meshed with the second meshing tooth.

3. The lock control device according to claim 1, wherein,

the driving device comprises a driver and a driving gear;

the driver is connected with the driving gear.

4. A control device for a lock according to claim 3,

the sliding assembly comprises a sliding cover and a sliding piece;

a first spring is arranged between the sliding cover and the sliding piece; and a second spring is arranged between the sliding piece and the connecting gear.

5. The lock control device according to claim 4, wherein,

the sliding cover is provided with a third meshing tooth; the third meshing teeth mesh with the drive gear.

6. The lock control device according to claim 1, wherein,

the device also comprises a fixed bracket;

the fixed bracket is provided with a first sleeve and a second sleeve; the lock cylinder is placed in the first sleeve;

the sliding assembly is disposed within the second sleeve.

7. The lock control device according to claim 1, wherein,

the clutch device also comprises a clutch sensing device and a clutch sensing device;

the separation sensing device and the combination sensing device are respectively connected with the controller;

the sliding component slides to the position where the separation sensing device is located, and the separation sensing device sends a separation signal to the controller;

the sliding component slides to the position of the closing sensing device, and the closing sensing device sends a closing signal to the controller.

8. A control device for a lock according to claim 3,

the controller comprises a signal generator and/or an emergency starting component;

the signal generator sends a first working signal to the driver; the emergency start assembly sends a second operating signal to the driver.

9. The lock control device according to claim 1, wherein,

the device also comprises an indicator lamp; the indicator light is connected with the controller.

10. A lock head is characterized in that,

control device comprising a lock body and a lock according to any of claims 1-9.