CN111577018A - Tap lock with key - Google Patents

Abstract

The invention provides a faucet lock with a key, and belongs to the technical field of safety anti-theft devices. A faucet lock with a key comprises a base, an upper cover, a lower cover, a pin shaft assembly, an electric unlocking structure, a key unlocking structure and a inhaul cable structure; according to the invention, the electric unlocking structure and the key unlocking structure are arranged on the base and are both connected to the pin shaft assembly, so that the faucet lock can be opened and locked through the electric unlocking structure and can also be opened and locked through the key unlocking structure, the control flexibility of the faucet lock is higher, and the risk that the faucet lock cannot be opened after the structure is damaged due to a single unlocking mode is effectively reduced; in addition, still be equipped with the cable structure in base and lower cover, control the cable structure through key unblock structure and slide, and cable structural connection has the cable that can open the seat isotructure of vehicle, and the product function is more various, and product utilization more does benefit to the use and the popularization of product.

Description

Tap lock with key

Technical Field

The invention relates to the technical field of safety anti-theft devices, in particular to a faucet lock with a key.

Background

With the popularization of vehicles, particularly motorcycles and electric bicycles, mounting a faucet lock on a vehicle has become a main means for preventing theft of the vehicle.

However, the faucet lock on the market has a single structure, and is divided into an electric unlocking mode and a key unlocking mode, if the faucet lock is the electric unlocking faucet lock, the faucet lock is locked and unlocked by controlling the rotation of the motor, if the faucet lock is the key unlocking mode, the key is inserted into the key hole, and the faucet lock is locked and unlocked by manually rotating the key.

Disclosure of Invention

To the above-mentioned problem that exists among the prior art, it aims at providing a take tap lock of key now, with be provided with electronic unlocking structure and key unlocking structure on the base, and simultaneously, be provided with the cable structure in the bottom of base, make both can realize electronic unblock, can realize the key unblock again, it is higher to control the flexibility, the risk of not opening after the structural damage because of single unblock mode has been reduced, and, the cable of accessible cable structural connection T type head, the realization is to opening of seat isotructure on the vehicle, the function is more various, the utilization ratio of tap lock has been improved, more do benefit to the use and the popularization of product.

The specific technical scheme is as follows:

a keyed faucet lock having the features of: the base, the upper cover, the lower cover, round pin axle subassembly, electronic unlocking structure, key unlocking structure and cable structure, upper cover and lower cover can dismantle respectively and connect in the top and the below of base, just be located on the base and be provided with round pin axle subassembly and electronic unlocking structure in the upper cover, and electronic unlocking structure is connected with round pin axle subassembly, the below of base just is located and is provided with cable structure in the lower cover, key unlocking structure sets up on the base, and key unlocking structure's upper portion is located the upper cover, key unlocking structure's lower part is located the lower cover, and key unlocking structure is connected with round pin axle subassembly, and simultaneously, key unlocking structure still with cable structural connection.

The utility model provides a foretell tap lock of taking key, wherein, the round pin axle subassembly includes the rotating pin, a slide block, bolt and spirochaeta, be provided with slider activity chamber in the upper cover, the slider sets up in slider activity intracavity and can slide at slider activity intracavity, be provided with smooth chamber on the slider, be provided with the spirochaeta in the smooth chamber, the one end of rotating pin stretches into in smooth chamber and inserts the spirochaeta, and the rotating pin inserts one of spirochaeta and serves and be provided with first lug, and between two adjacent helicoidal of spirochaeta are stretched into to first lug, the other end of rotating pin stretches out outside the slider activity chamber, and stretch out one of the outer slider activity chamber in the rotating pin and serve and be provided with from the driving wheel, and simultaneously, just be located on the slider and deviate from one side that the rotating pin stretches out.

The faucet lock with the key comprises an electric driver and a transmission gear, wherein the electric driver and the transmission gear are both arranged on a base, a driving wheel is arranged on an output shaft of the electric driver, the transmission gear is arranged between the electric driver and a driven wheel, and the transmission gear is meshed with the driving wheel and is also meshed with the driven wheel.

In the faucet lock with the key, the transmission gear is a secondary gear, a large gear of the transmission gear is meshed with the driving wheel, and a small gear of the transmission gear is meshed with the driven wheel.

The faucet lock with the key comprises a first rotating shaft and a gear disc, wherein one end of the first rotating shaft penetrates through the base and extends to the lower portion of the base, one end, located above the base, of the first rotating shaft is a key matching portion, the first end, located below the base, of the first rotating shaft is a first transmission matching portion, the gear disc is sleeved outside the first rotating shaft and meshed with the transmission gear, and meanwhile, a second transmission matching portion corresponding to the first transmission matching portion is arranged on the gear disc.

The faucet lock with the key is characterized in that a thread matching portion is arranged on the first rotating shaft and above the base, the thread matching portion is arranged between the key matching portion and the first transmission matching portion, and meanwhile, a thread sleeve connected with the thread matching portion in a threaded mode is arranged in the upper cover.

The above-mentioned tap lock with key, wherein, first transmission cooperation portion is the structure of gear form, and second transmission cooperation portion is the caulking groove structure of gear form.

The above-mentioned faucet lock with key, wherein, the guy cable structure includes the second spindle, the movable block, the first reset spring and the second reset spring, the second spindle is set under the base, the upper end of the second spindle has the chucking locating part, the lower end of the second spindle is covered with the first reset spring and is leaned against each other, and the other end of the first reset spring is leaned against the lower cover, meanwhile, the end of the first spindle and located at one end of the first transmission matching part is also set with the extending matching part matching with the chucking locating part, and, the second spindle and located between the chucking locating part and the first reset spring is set with the shifting block, and there is a movable block in the area beside the second spindle and corresponding to the shifting block, and the movable block is set in the lower cover along the direction perpendicular to the second spindle axial, and there is a second lug projecting towards one side of the second spindle and contacting with the shifting block with interval on the movable block, meanwhile, a clamping hole is formed in the moving block, a second reset spring is arranged on the moving block and in front of or behind the sliding direction of the moving block, and two ends of the second reset spring are respectively abutted against the moving block and the lower cover.

The faucet lock with the key further comprises a distance detection structure, wherein the distance detection structure is arranged between the pin shaft assembly and the upper cover or between the pin shaft assembly and the base.

The faucet lock with the key is characterized in that the distance detection structure comprises a magnetic pole and a Hall sensor for sensing the magnetic pole, the magnetic pole is arranged in the pin shaft assembly, and the Hall sensor is arranged on the upper cover or the base.

The positive effects of the technical scheme are as follows:

according to the faucet lock with the key, the electric unlocking structure and the key unlocking structure are arranged on the base and are connected to the pin shaft assembly, so that the faucet lock can be unlocked and locked through the electric unlocking structure and can also be unlocked and locked through the key unlocking structure, the control flexibility of the faucet lock is higher, and the risk that the faucet lock cannot be unlocked after the structure is damaged due to a single unlocking mode is effectively reduced; in addition, still be provided with the cable structure in base and lower cover, the cable of accessible cable structural connection T type head, open the seat isotructure of vehicle through the pulling cable, realized the diversification of function to improve the utilization ratio of tap lock, more do benefit to the use and the popularization of product.

Drawings

FIG. 1 is a block diagram of an embodiment of a keyed faucet lock of the present invention;

FIG. 2 is a view showing the structure of the upper and lower covers after the upper and lower covers are opened in accordance with a preferred embodiment of the present invention;

FIG. 3 is a block diagram of the top cover of the preferred embodiment of the present invention;

FIG. 4 is a block diagram of a lower cover of a preferred embodiment of the present invention;

FIG. 5 is a block diagram of a pin assembly in accordance with a preferred embodiment of the present invention;

FIG. 6 is a block diagram of a spiral according to a preferred embodiment of the present invention;

FIG. 7 is a structural diagram of an electric unlocking mechanism according to a preferred embodiment of the present invention;

FIG. 8 is a block diagram of a key unlocking structure in accordance with a preferred embodiment of the present invention;

FIG. 9 is a block diagram of the first shaft and gear plate of the preferred embodiment of the present invention;

FIG. 10 is a structural diagram of a cable structure according to a preferred embodiment of the present invention;

fig. 11 is a structural view of a second rotating shaft and a moving block according to a preferred embodiment of the present invention.

In the drawings: 1. a base; 2. an upper cover; 21. a slider active cavity; 22. a threaded sleeve; 3. a lower cover; 31. a jack; 4. a pin assembly; 41. a rotation pin; 42. a slider; 43. a bolt; 44. a helical body; 411. a first bump; 412. a driven wheel; 421. a slide chamber; 441. a pin; 5. an electric unlocking structure; 51. an electric drive; 52. a transmission gear; 53. a driving wheel; 6. a key unlocking structure; 61. a first rotating shaft; 62. a gear plate; 611. a key fitting portion; 612. a first transmission fitting part; 613. a screw-fit portion; 621. a second transmission matching part; 7. a cable structure; 71. a second rotating shaft; 72. a moving block; 73. a first return spring; 74. a second return spring; 711. clamping the positioning part; 712. a shifting block; 721. a second bump; 722. a clamping hole; 8. a key.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the present invention easy to understand, the following embodiments specifically describe the technical solutions provided by the present invention with reference to fig. 1 to 11, but the following contents are not to be taken as limitations of the present invention.

FIG. 1 is a block diagram of an embodiment of a keyed faucet lock of the present invention; FIG. 2 is a view showing the structure of the upper and lower covers after the upper and lower covers are opened in accordance with a preferred embodiment of the present invention; FIG. 3 is a block diagram of the top cover of the preferred embodiment of the present invention; fig. 4 is a structural diagram of a lower cover according to a preferred embodiment of the present invention. As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the faucet lock with a key provided in the present embodiment includes: a base 1, an upper cover 2, a lower cover 3, a pin shaft component 4, an electric unlocking structure 5, a key unlocking structure 6 and a guy cable structure 7, wherein the upper cover 2, the base 1 and the lower cover 3 form a shell with a cavity, an electric unlocking structure 5 and a key unlocking structure 6 are arranged to act on the pin shaft assembly 4 to drive the pin shaft assembly 4 to extend and retract, so that the locking and the unlocking of the faucet lock are realized, the faucet lock can be unlocked and locked electrically and also can be unlocked and locked by the key 8, the operation and the control are more flexible, moreover, the cable structure 7 can be driven to act through the key unlocking structure 6, so that the cable structure 7 can pull the cable with the T-shaped head, come the opening of seat isotructure on the vehicle through the cable for the tap lock possesses more functions, and the function is diversified, thereby has improved the utilization ratio of tap lock, more does benefit to the use and the popularization of this tap lock.

Specifically, the upper cover 2 and the lower cover 3 are detachably connected above and below the base 1, respectively, so that the base 1 is located between the upper cover 2 and the lower cover 3, and the base 1 serves as a mounting carrier for other components. And, be provided with round pin axle subassembly 4 and electronic unlocking structure 5 on the base 1 and be located upper cover 2, and electronic unlocking structure 5 is connected with round pin axle subassembly 4 for can drive round pin axle subassembly 4 through electronic unlocking structure 5 and stretch out or retract, realize the electronic locking and the unblock of tap lock promptly. In addition, a cable structure 7 is arranged below the base 1 and in the lower cover 3, the key unlocking structure 6 is arranged on the base 1, the upper part of the key unlocking structure 6 is arranged in the upper cover 2, the lower part of the key unlocking structure 6 is arranged in the lower cover 3, so that the key unlocking structure 6 can pass through the base 1, and the connection with the key 8, the pin shaft assembly 4 and the cable structure 7 is facilitated, at the moment, the key unlocking structure 6 is connected with the pin shaft assembly 4 and the key unlocking structure 6 is connected with the cable structure 7, so that the key unlocking structure 6 can drive the pin shaft assembly 4 to extend and retract, the locking and unlocking of the faucet lock are realized, the cable structure 7 can be driven to move by the key unlocking structure 6, the seat and other structures on the vehicle are opened by the cable structure 7, and a driver does not need to separately use the key 8 to open the seat and other structures, the multifunctional faucet lock realizes the function diversification of the faucet lock, reduces the manufacturing cost of vehicles, and is more beneficial to the use and popularization of products.

FIG. 5 is a block diagram of a pin assembly in accordance with a preferred embodiment of the present invention; fig. 6 is a structural diagram of a spiral according to a preferred embodiment of the present invention. As shown in fig. 1 to 4 and fig. 5 and 6, the pin shaft assembly 4 disposed on the base 1 and located in the upper cover 2 further includes a rotating pin 41, a slider 42, a plug pin 43, and a spiral body 44, a slider moving cavity 21 is disposed in the upper cover 2, and the slider 42 is disposed in the slider moving cavity 21 and can slide in the slider moving cavity 21, that is, a space for installation and movement of the slider 42 is provided for the slider moving cavity 21 on the upper cover 2, so that a moving track of the slider 42 is ensured to be stable. Meanwhile, a sliding cavity 421 is arranged on the sliding block 42, a spiral body 44 is arranged in the sliding cavity 421, one end of the rotating pin 41 extends into the sliding cavity 421 and is inserted into the spiral body 44, a first protruding block 411 is arranged on one end of the rotating pin 41 inserted into the spiral body 44, and the first protruding block 411 extends between two adjacent spiral turns of the spiral body 44, so that when the rotating pin 41 rotates, the first protruding block 411 on the rotating pin 41 can slide along the spiral direction of the spiral body 44, thereby pushing the spiral body 44 to move along the axial direction of the rotating pin 41, and enabling the spiral body 44 to drive the sliding block 42 to slide in the sliding block moving cavity 21 on the upper cover 2. And, the other end of the rotating pin 41 extends out of the slider activity cavity 21, and a driven wheel 412 is arranged at one end of the rotating pin 41 extending out of the slider activity cavity 21, that is, the rotating pin 41 can be driven to rotate through the driven wheel 412, so as to drive the driving slider 42 to slide in the slider activity cavity 21, meanwhile, a bolt 43 is arranged on one side of the slider 42 extending away from the rotating pin 41, and one end of the bolt 43 extends out of the upper cover 2, so that when the slider 42 slides in the slider activity cavity 21 of the upper cover 2, the bolt 43 can move along with the slider 42, so that the bolt 43 can extend out of the upper cover 2 or retract into the upper cover 2, thereby realizing locking and unlocking of the faucet lock. Preferably, the spiral body 44 is of a spring structure, two ends of the spiral body 44 are both disposed on the L-shaped pins 441, the L-shaped pins 441 are disposed on the same side of the spiral body 44, meanwhile, the sliding block 42 and the bottom of the sliding cavity 421 are provided with guide sliding grooves along the axial direction of the rotating pin 41, the L-shaped pins 441 on two ends of the spiral body 44 are both slidably disposed in the guide sliding grooves, so that when the rotating pin 41 rotates, the spiral body 44 does not rotate, and the spiral body 44 is compressed or extended along the axial direction of the steering shaft by the first protrusion 411, so that the spiral body 44 pushes the sliding block 42 to move in the sliding block movable cavity 21 of the upper cover 2, and the locking and unlocking of the faucet lock are realized, and the spiral body 44 of the spring structure can play a role of buffering, thereby preventing the problem that the spiral body 44, the sliding block 42 and the plug pin 43 are jammed to cause the spiral body, the structural design is more reasonable.

Fig. 7 is a structural diagram of an electric unlocking structure according to a preferred embodiment of the invention. As shown in fig. 1 to 5 and fig. 7, the electric unlocking structure 5 disposed on the base 1 further includes an electric driver 51 and a transmission gear 52, the electric driver 51 and the transmission gear 52 are both disposed on the base 1, an output shaft of the electric driver 51 is provided with a driving wheel 53, so that the electric driver 51 can drive the driving wheel 53 to rotate, the transmission gear 52 is disposed between the electric driver 51 and the driven pulley 412, and the transmission gear 52 meshes with the driving pulley 53 and also meshes with the driven pulley 412, when the electric driver 51 drives the driving wheel 53 to rotate, the driving wheel 53 can drive the transmission gear 52 engaged with the driving wheel to rotate, and the driven wheel 412 is driven to rotate through the transmission gear 52, so that the rotating pin 41 rotates, the plug pin 43 can be driven to extend or retract by the forward rotation and the reverse rotation of the electric driver 51, so that the locking and the unlocking of the faucet lock are realized.

More specifically, the transmission gear 52 arranged between the driving wheel 53 and the driven wheel 412 is a secondary gear, a large gear of the transmission gear 52 is meshed with the driving wheel 53, and a small gear of the transmission gear 52 is meshed with the driven wheel 412, so that the transmission ratio of gear transmission is adjusted, the requirement for rotation of the rotating pin 41 is met, and the structural design is more reasonable. Preferably, the lower part of the gearwheel in the transmission gear 52, which is engaged with the driving wheel 53, passes through the base 1 and extends to the bottom of the base 1, so that the subsequent engagement with the gearwheel disc 62 on the key unlocking structure 6 is facilitated, and the spatial arrangement is more reasonable.

FIG. 8 is a block diagram of a key unlocking structure in accordance with a preferred embodiment of the present invention; fig. 9 is a structural view of the first rotating shaft and the gear plate according to a preferred embodiment of the present invention. As shown in fig. 1 to 5 and 7 to 9, the key unlocking structure 6 disposed on the base 1 further includes a first rotating shaft 61 and a gear plate 62, one end of the first rotating shaft 61 passes through the base 1 and extends to the lower side of the base 1, one end of the first rotating shaft 61 located above the base 1 is a key matching portion 611, a first end of the first rotating shaft 61 located below the base 1 is a first transmission matching portion 612, that is, the key matching portion 611 of the first rotating shaft 61 is disposed above the base 1, so that a key 8 for unlocking is inserted into the upper cover 2 and is matched with the key matching portion 611, the first rotating shaft 61 can be rotated after the key 8 is connected with the key matching portion 611 of the first rotating shaft 61, and the gear plate 62 is sleeved outside the first rotating shaft 61 and is engaged with the transmission gear 52, so that when the gear plate 62 rotates, the gear plate 62 can drive the transmission gear 52 to rotate, thereby it rotates to drive the driven wheel 412 on the rotating pin 41 through the drive gear 52, drive the bolt 43 and do and stretch out and retract the motion, realize opening and closing of tap lock, simultaneously, be provided with the second transmission cooperation portion 621 that corresponds with first transmission cooperation portion 612 on the toothed disc 62, make only can make first pivot 61 drive toothed disc 62 and rotate when first transmission cooperation portion 612 cooperates with second transmission cooperation portion 621, and when first transmission cooperation portion 612 and second transmission cooperation portion 621 separate, toothed disc 62 can rotate on first pivot 61, thereby guaranteed when driving drive gear 52 and rotating through electronic unlocking structure 5, first pivot 61 can not rotate, prevented the damage to key unlocking structure 6, structural design is more reasonable.

More specifically, a thread matching portion 613 is disposed on the first rotating shaft 61 and above the base 1, the thread matching portion 613 is disposed between the key matching portion 611 and the first transmission matching portion 612, and meanwhile, the threaded sleeve 22 screwed with the thread matching portion 613 is disposed in the upper cover 2, and when the electric unlocking structure 5 is used, a gap is disposed between a thread on the thread matching portion 613 and the threaded sleeve 22, so that the first rotating shaft 61 can freely rotate in the threaded sleeve 22, at this time, the first transmission matching portion 612 on the first rotating shaft 61 is separated from the second transmission matching portion 621 on the gear plate 62, and the operation of the electric unlocking structure 5 does not interfere with the first rotating shaft 61. When the key unlocking structure 6 is used, a user presses the first rotating shaft 61 downwards through the key 8, so that the threads on the thread matching part 613 on the first rotating shaft 61 are screwed into the threads in the thread sleeve 22, when the first rotating shaft 61 is rotated, the first rotating shaft 61 moves downwards along the axial direction thereof, so that the first transmission matching part 612 on the first rotating shaft 61 contacts with the second transmission matching part 621 on the gear disc 62, that is, the gear disc 62 is driven to rotate through the rotation of the first rotating shaft 61, and the transmission gear 52 is driven to rotate through the gear disc 62, so that the transmission gear 52 drives the rotating pin 41 to rotate, so that the bolt 43 performs extending and retracting movements, thereby realizing the locking and unlocking of the tap lock, and when the first rotating shaft 61 is rotated reversely, the first rotating shaft 61 moves upwards along the axial direction thereof under the action of the thread matching part 613 and the thread sleeve 22, so that the first transmission matching part 612 on the first rotating shaft 61 is separated from the second transmission matching part 621 on the gear disc 62, the problem that the bolt 43 moves due to the rotation of the first rotating shaft 61 after the key 8 is withdrawn is solved, the safety is higher, and the structural design is more reasonable.

More specifically, the first transmission matching part 612 on the first rotating shaft 61 is a gear-shaped structure, the second transmission matching part 621 on the gear plate 62 is a gear-shaped caulking groove structure, so that when the first rotating shaft 61 moves downwards, the first transmission matching part 612 of the gear-shaped structure on the first rotating shaft 61 can be clamped into the second transmission matching part 621 of the gear-shaped caulking groove structure on the gear disc 62, so that the first rotating shaft 61 can drive the gear disc 62 to rotate, after moving up the first rotating shaft 61, the first transmission matching part 612 of the gear-shaped structure on the first rotating shaft 61 can be disengaged from the second transmission matching part 621 of the gear-shaped caulking groove structure on the gear plate 62, so that the rotational movement of the transmission gear 52 transmitted to the gear plate 62 in the electrically unlocked state does not interfere with the first rotating shaft 61, the motion that key unlocking structure 6 can not influence electronic unlocking structure 5 promptly, and structural design is more reasonable.

FIG. 10 is a structural diagram of a cable structure according to a preferred embodiment of the present invention; fig. 11 is a structural view of a second rotating shaft and a moving block according to a preferred embodiment of the present invention. As shown in fig. 1 to 4 and fig. 8 to 11, the cable structure 7 disposed in the lower cover 3 further includes a second rotating shaft 71, a moving block 72, a first return spring 73, and a second return spring 74, the second rotating shaft 71 is disposed below the base 1, at this time, an insertion hole 31 for placing the second rotating shaft 71 is disposed in the lower cover 3, so that the lower end of the second rotating shaft 71 can be inserted into the insertion hole 31, and a space is provided for installing the second rotating shaft 71 through the insertion hole 31. And, the upper end of the second rotating shaft 71 is provided with a clamping positioning part 711, which facilitates the connection between the subsequent second rotating shaft 71 and the first rotating shaft 61, and meanwhile, the lower end of the second rotating shaft 71 is sleeved with a first return spring 73 and abutted against each other, and the other end of the first return spring 73 is abutted against the lower cover 3, so that when the first rotating shaft 61 is pressed down, the first return spring 73 is compressed by the second rotating shaft 71 due to the downward pressing of the first rotating shaft 61, so that after the unlocking or locking operation is completed, the first rotating shaft 61 can be pushed to move upwards through the second rotating shaft 71 under the action of the restoring force of the first return spring 73, so that the first transmission matching part 612 on the first rotating shaft 61 is separated from the second transmission matching part 621 on the gear plate 62, and the resetting of the key unlocking structure 6 is facilitated. Meanwhile, an extending matching portion matched with the clamping positioning portion 711 is further arranged on the end of the first rotating shaft 61 and located at the end where the first transmission matching portion 612 is arranged, that is, the first rotating shaft 61 and the second rotating shaft 71 are connected through the matching of the extending matching portion on the first rotating shaft 61 and the clamping positioning portion 711 on the second rotating shaft 71, so that the first rotating shaft 61 can drive the second rotating shaft 71 to rotate. And a toggle block 712 is provided on the second rotation shaft 71 between the chucking positioning part 711 and the first return spring 73, a moving block 72 is disposed at a region corresponding to the moving block 712 and beside the second rotating shaft 71, the moving block 72 is slidably disposed in the lower cover 3 along a direction perpendicular to the axial direction of the second rotating shaft 71, and the moving block 72 is provided with a second protrusion 721 protruding toward one side of the second rotating shaft 71 and contacting with the moving block 712 at intervals, when the first rotating shaft 61 drives the second rotating shaft 71 to rotate, the second protrusion 721 can be moved by the moving block 712 on the second rotating shaft 71 during the rotation process, the second protrusion 721 drives the moving block 72 connected thereto to slide in the lower cover 3, and after the second protrusion 721 moves a distance, the dial block 712 is separated from the second protrusion 721, the moving block 72 is allowed to have a reset condition in which the user can slide the moving block 72 in the lower cover 3 by driving the key 8. When the first rotating shaft 61 is not pressed down, the moving block 712 on the first rotating shaft 61 and the second protrusion 721 on the moving block 72 are in the same horizontal plane, so that the moving block 712 can alternately move the second protrusion 721 to slide the moving block 72, at this time, the first transmission matching part 612 on the first rotating shaft 61 and the second transmission matching part 621 on the gear plate 62 are separated, that is, when the function of the cable structure 7 is used, the key 8 unlocking function is not used, and when the first rotating shaft 61 is pressed down and the key 8 unlocking function is needed, the second rotating shaft 71 moves down along with the first rotating shaft 61, so that the moving block 712 on the second rotating shaft 71 and the second protrusion 721 on the moving block 72 are in two planes which are staggered in the axial direction of the second rotating shaft 71, the moving block 712 cannot contact with the second protrusion 721, and the moving block 72 cannot slide in the lower cover 3 due to the rotation of the first rotating shaft 61, namely, the function of the inhaul cable structure 7 can not be used when the key 8 is used for unlocking the function, and the structural design is more reasonable. Meanwhile, a clamping hole 722 is formed in the moving block 72, so that a T-shaped head of a T-shaped head cable for controlling the opening of the seat and other structures on the vehicle can be clamped into the clamping hole 722, when the first rotating shaft 61 is rotated to drive the second rotating shaft 71 to rotate, the poking block 712 on the second rotating shaft 71 can poke the second bump 721 on the moving block 72 to move, so that the moving block 72 slides in the lower cover 3, the moving block 72 can pull the T-shaped head cable to move, the opening of the seat and other structures on the vehicle is realized, and the faucet lock has more functions. In addition, a second return spring 74 is arranged on the moving block 72 and in front of or behind the moving block in the sliding direction, and two ends of the second return spring 74 respectively abut against the moving block 72 and the lower cover 3, so that when the moving block 712 shifts the second bump 721 to move and the moving block 72 slides in the lower cover 3, the moving block 72 can be reset under the action of the second return spring 74 after the shifting block 712 and the second bump 721 are separated, and conditions are provided for the next start.

More specifically, the second rotating shaft 71 is arranged at one end of the insertion hole 31 in the lower cover 3 in a stepped shape, so that one end of the first return spring 73 can be abutted against the step of the stepped structure of the second rotating shaft 71, the first return spring 73 is convenient to mount, the abutting reference is provided for the end portion of the first return spring 73, and the structural design is more reasonable.

More specifically, be provided with apart from detecting structure between round pin axle subassembly 4 and the upper cover 2 or between round pin axle subassembly 4 and the base 1, and, apart from detecting structure again including the hall sensor of magnetic pole and response magnetic pole, the magnetic pole sets up on the slider 42 in round pin axle subassembly 4, hall sensor sets up on upper cover 2 or base 1, make can judge that the tap lock is locked or the unblock through the produced pulse signal of hall sensor of magnetic pole process, provide audio-visual reference information for the user, it is more convenient to use, structural design is more reasonable.

The faucet lock with the key provided by the embodiment comprises a base 1, an upper cover 2, a lower cover 3, a pin shaft assembly 4, an electric unlocking structure 5, a key unlocking structure 6 and a inhaul cable structure 7; the electric unlocking structure 5 and the key unlocking structure 6 are arranged on the base 1, the electric unlocking structure 5 and the key unlocking structure 6 are both connected to the pin shaft assembly 4, the pin shaft assembly 4 is driven to move by the electric unlocking structure 5, or the pin shaft assembly 4 is driven to move by the key unlocking structure 6, so that the faucet lock can be opened and locked by the electric unlocking structure 5 and can also be opened and locked by the key unlocking structure 6, the control flexibility of the faucet lock is higher, and the risk that the faucet lock cannot be opened after the structure is damaged due to a single unlocking mode is effectively reduced; in addition, still be provided with cable structure 7 in base 1 and lower cover 3, control cable structure 7 through key unblock structure 6 and slide, and cable structure 7 connects the cable that can open the seat isotructure of vehicle, has realized the diversification of tap lock function to improve the utilization ratio of tap lock, more do benefit to the use and the popularization of product.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims (10)

1. A faucet lock with a key, comprising: the upper cover and the lower cover are detachably connected to the upper portion and the lower portion of the base respectively, the base is located on the upper cover and is provided with the pin shaft assembly and the electric unlocking structure, the electric unlocking structure is connected with the pin shaft assembly, the lower portion of the base is located in the lower cover and is provided with the cable structure, the key unlocking structure is arranged on the base, the upper portion of the key unlocking structure is located in the upper cover, the lower portion of the key unlocking structure is located in the lower cover, the key unlocking structure is connected with the pin shaft assembly, and meanwhile the key unlocking structure is further connected with the cable structure.

2. The faucet lock with the key according to claim 1, wherein the pin assembly comprises a rotation pin, a slider, a plug pin and a spiral body, a slider moving cavity is provided in the upper cover, the slider is disposed in the slider moving cavity and can slide in the slider moving cavity, a sliding cavity is provided on the slider, the spiral body is disposed in the sliding cavity, one end of the rotation pin extends into the sliding cavity and is inserted into the spiral body, a first protruding block is provided on one end of the rotation pin inserted into the spiral body, the first protruding block extends between two adjacent spiral rings of the spiral body, the other end of the rotation pin extends out of the slider moving cavity, a driven wheel is provided on one end of the rotation pin extending out of the slider moving cavity, and the plug pin is provided on one side of the slider opposite to the side of the rotation pin extending out, and one end of the bolt extends out of the upper cover.

3. The faucet lock with the key as recited in claim 2, wherein the electric unlocking structure comprises an electric driver and a transmission gear, the electric driver and the transmission gear are both disposed on the base, an output shaft of the electric driver is provided with a driving wheel, the transmission gear is disposed between the electric driver and the driven wheel, and the transmission gear is engaged with the driving wheel and also engaged with the driven wheel.

4. A keyed tap lock as claimed in claim 3, wherein the drive gear is a secondary gear, and wherein the large gear of the drive gear meshes with the drive wheel and the small gear of the drive gear meshes with the driven wheel.

5. The faucet lock with the key of claim 3, wherein the key unlocking structure comprises a first rotating shaft and a gear disc, one end of the first rotating shaft penetrates through the base and extends to the lower portion of the base, one end of the first rotating shaft, which is located above the base, is a key matching portion, a first end of the first rotating shaft, which is located below the base, is a first transmission matching portion, the gear disc is sleeved outside the first rotating shaft and meshed with the transmission gear, and meanwhile, a second transmission matching portion corresponding to the first transmission matching portion is arranged on the gear disc.

6. The keyed faucet lock of claim 5, wherein a threaded engagement portion is disposed on the first shaft above the base, the threaded engagement portion being disposed between the key engagement portion and the first drive engagement portion, and a threaded sleeve is disposed within the upper cover in threaded engagement with the threaded engagement portion.

7. The keyed faucet lock of claim 5, wherein the first drive engagement portion is a gear-like structure and the second drive engagement portion is a gear-like, slotted structure.

8. The faucet lock with a key of claim 5, wherein the cable structure comprises a second rotating shaft, a moving block, a first return spring and a second return spring, the second rotating shaft is disposed below the base, a clamping and positioning portion is disposed at an upper end of the second rotating shaft, the first return spring is sleeved outside a lower end of the second rotating shaft and abutted against each other, and the other end of the first return spring abuts against the lower cover, meanwhile, an extending and matching portion matched with the clamping and positioning portion is further disposed on the first rotating shaft and on an end head of one end provided with the first transmission matching portion, a shifting block is disposed on the second rotating shaft and between the clamping and positioning portion and the first return spring, and the moving block is disposed at a region beside the second rotating shaft and corresponding to the shifting block, and the moving block is slidably arranged in the lower cover along a direction perpendicular to the axial direction of the second rotating shaft, a second lug protruding towards one side of the second rotating shaft and in spaced contact with the shifting block is arranged on the moving block, meanwhile, a clamping hole is formed in the moving block, a second reset spring is arranged on the moving block and in front of or behind the moving block in the sliding direction, and two ends of the second reset spring are respectively abutted against the moving block and the lower cover.

9. The keyed faucet lock of claim 1, further comprising a distance detection structure disposed between the pin assembly and the upper cover or between the pin assembly and the base.

10. The keyed faucet lock of claim 9, wherein the distance detection structure includes a magnetic pole and a hall sensor that senses the magnetic pole, the magnetic pole is disposed within the pin assembly, and the hall sensor is disposed on the upper cover or the base.

Images