CN222391213U - Double-pull faucet lock - Google Patents

Abstract

The utility model relates to a double-pull-wire faucet lock, comprising a lock shell, a lock core, a rotating shaft and a lock tongue assembly, wherein the lock core and the rotating shaft are rotatably arranged in the lock shell, the rotating shaft is connected to the lock core, a first cable slider and a second cable slider are slidably arranged on the lock shell, the first cable slider is provided with a first cable installation groove, the second cable slider is provided with a second cable installation groove, the lock shell is correspondingly provided with a first cable outlet groove and a second zipper outlet groove, a first cable toggle block is provided on the rotating shaft, during the reverse rotation of the lock core and the rotating shaft, the first cable toggle block drives the first cable slider to slide, a first reset spring driving the first cable slider to reset is provided in the lock shell, a second cable toggle block is provided on the lock core, during the forward rotation of the lock core and the rotating shaft, the second cable toggle block drives the second cable slider to slide, and a second reset spring driving the second cable slider to reset is also provided in the lock shell. By adopting the above technical scheme, the utility model provides a double-pull-wire faucet lock, which can also open the seat cover or the fuel tank cap when locking the faucet of a motorcycle or an electric vehicle. The seat cover is opened by forward rotation, and the fuel tank cap is opened by reverse rotation. The faucet is unlocked by pressing down and rotating forward, which is easy to operate.

Description

Double-pull-wire tap lock

Technical Field

The utility model relates to a tap lock applied to a motorcycle or an electric vehicle, in particular to a double-pull-wire tap lock.

Background

The tap lock is generally used for an electric vehicle or a motorcycle, and is mainly used for locking a tap of the electric vehicle or the motorcycle after the electric vehicle or the motorcycle is parked, so that the electric vehicle or the motorcycle is prevented from being stolen.

The general tap lock includes lock shell, lock core, pivot and spring bolt subassembly, lock core and pivot rotate respectively and set up in the lock shell, the pivot is connected with the lock core, be equipped with the spring bolt portion of stirring in the pivot, the spring bolt subassembly includes latch plate and locking lever, set up the hole that slides on the latch plate, the latch plate is located the pivot through the hole cover that slides and is located the below that the spring bolt stirred the portion, the one end of locking lever is installed on the latch plate, the other end stretches into in the spring bolt concertina, set up the trepan on the latch plate and the jack that corresponds with the spring bolt portion of stirring, be equipped with the spout on the lock shell, be equipped with the cable actuating block in the spout, be equipped with the zip fastener mounting groove on the cable actuating block, the cable is located to be equipped with the cable outlet groove corresponding to the cable actuating block, pivot rotation can make the cable actuating block drive to remove thereby open the cushion lid, be equipped with reset spring between cable actuating block and the spout. However, the faucet lock can only lock the faucet and the cushion cover, an unlocking device is additionally arranged on the fuel tank cover, and the cushion cover cannot be opened when the faucet of the motorcycle or the electric vehicle is locked, so that the operation is inconvenient.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides the double-pull-wire tap lock, which can open a cushion cover or an oil tank cover when a tap of a motorcycle or an electric vehicle is locked, and can unlock the tap by pressing down forward through opening the cushion cover and opening the oil tank cover by forward rotation and opening the oil tank cover by reverse rotation.

The technical scheme includes that the double-stay-wire tap lock comprises a lock shell, a lock core, a rotating shaft and a lock tongue assembly, wherein the lock core and the rotating shaft are rotatably arranged in the lock shell, the rotating shaft is connected with the lock core, the lock tongue assembly is slidably arranged in the lock shell, the lock tongue assembly comprises a lock rod and a lock plate, one end of the lock rod extends out of the lock shell, a first stay rope sliding block and a second stay rope sliding block are slidably arranged on the lock shell, a first stay rope installation groove is formed in the first stay rope sliding block, a second stay rope installation groove is formed in the second stay rope sliding block, a first stay rope outlet groove and a second stay rope outlet groove are correspondingly formed in the lock shell, a first stay rope shifting block is arranged on the rotating shaft, a first stay rope sliding block is driven to slide by the first stay rope shifting block in a process of reversely rotating the lock core, a second stay rope shifting block is arranged on the lock core, a second stay rope sliding block is driven by the second stay rope sliding block in a process of positively rotating the lock core, a second stay rope sliding block is driven by the second stay rope sliding block in a process of axially rotating the lock shell, a second stay rope sliding block is driven by the second stay rope sliding block in a process of reversely rotating the lock core, and a second stay rope sliding block can be driven by the second stay rope sliding block to be axially separated from the second stay rope sliding block in a process of the rotating shaft, and the lock core is driven by the second stay rope sliding block to be axially rotated by the second core, and the first stay rope sliding block is driven by the first and the second return spring is driven by the reset block.

By adopting the technical scheme, when the key is inserted into the lock core and rotated, the lock core and the rotating shaft are driven to rotate, and when the key rotates reversely, the first inhaul cable shifting block on the rotating shaft drives the first inhaul cable sliding block to slide, so that the oil tank cover is opened, when the key rotates positively, the second inhaul cable shifting block on the lock core drives the second inhaul cable sliding block to slide, so that the cushion cover can be opened, the lock core is pressed downwards, the lock core slides towards the rotating shaft, the second inhaul cable shifting block slides downwards to the position below the second inhaul cable sliding block, and at the moment, the lock core is rotated positively, the lock rod can be driven to retract into the lock shell, so that the faucet is unlocked, various unlocking can be realized, and the opening of the oil tank cover and the cushion cover can be performed even when the faucet is locked.

The first cable sliding block and the second cable sliding block are oppositely arranged at two sides of the lock shell, the first cable sliding block is lower than the second cable sliding block, a first pressing block is arranged on the inner side of the first cable sliding block and positioned on the moving track of the first cable stirring block, and when the rotating shaft reversely rotates, the first cable stirring block is contacted with the first pressing block, so that the first cable sliding block is driven to slide.

By adopting the further arrangement, the structure layout is reasonable, the lock cylinders can not be mutually influenced when in positive and negative rotation, and when in negative rotation, the first inhaul cable poking block is contacted with the first propping block to drive the first inhaul cable to slide, so that the oil tank cover is opened, the transmission structure is simple, and the operation is convenient.

The lock cylinder is further provided with a rotating sleeve which rotates synchronously with the lock cylinder, the rotating sleeve is provided with the second inhaul cable poking block, the inner side of the second inhaul cable sliding block is provided with a second propping block, and when the lock cylinder rotates forwards, the second inhaul cable poking block is contacted with the second propping block, so that the second inhaul cable sliding block is driven to slide.

By adopting the further arrangement, when the second inhaul cable poking block is abutted against the second abutting block, the lock cylinder rotates to drive the second inhaul cable sliding block to slide, so that the cushion cover is opened, the driving structure is simple, and the operation is convenient.

The utility model is further provided with a positioning boss at the upper end of the rotating shaft, the third reset spring is sleeved on the periphery of the lock cylinder, the upper end of the third reset spring is in contact with the rotating sleeve, and the lower end of the third reset spring is abutted against the positioning boss.

By adopting the further arrangement, the third reset spring has stable structure and better drive of the lock cylinder to reset.

The lock is characterized in that the lock shell is provided with a mounting cavity, a first chute and a second chute which are positioned at two sides of the mounting cavity and communicated with the mounting cavity, the lock cylinder and the rotating shaft are rotatably arranged in the mounting cavity, a first inhaul cable sliding block is slidably arranged in the first chute, a first accommodating cavity is arranged on the first inhaul cable sliding block, one end of a first reset spring is positioned in the first accommodating cavity, the other end of the first reset spring is in contact with the side wall of the first chute, and a first pressing block extends into the mounting cavity.

By adopting the further arrangement, the structure layout is reasonable, and when the lock cylinder is reversed, the first inhaul cable sliding block slides in the first sliding groove, so that the structure is stable.

The utility model further provides that the second inhaul cable sliding block is arranged in the second sliding groove in a sliding mode, a second accommodating cavity is formed in the second inhaul cable sliding block, one end of the second reset spring is located in the second accommodating cavity, and the other end of the second reset spring is in contact with the side wall of the second sliding groove.

By adopting the further arrangement, the second reset spring is stable in structure, the second inhaul cable sliding block is driven to reset better, the second inhaul cable sliding block slides in the second sliding groove when the lock cylinder rotates positively and abuts against the second reset spring, and after the lock cylinder is loosened, the second reset spring resets the second inhaul cable sliding block.

The lock is characterized in that the lock shell is also internally provided with a driving component for driving the lock rod to move, the driving component comprises a sliding block, a motor, an eccentric wheel, a driving block and a spring, the motor is fixed in the lock shell, the eccentric wheel is rotationally arranged in the lock shell, the motor drives the eccentric wheel to rotate, the eccentric wheel is provided with an eccentric shaft at a position deviating from the center of the eccentric wheel, the driving block is slidingly arranged on the lock shell, the driving block is provided with a jack for inserting the eccentric shaft, the eccentric wheel drives the eccentric shaft to do eccentric motion so as to drive the driving block to move, and the driving block can drive the sliding block to move through the spring so as to realize the extension or retraction of the lock rod.

By adopting the further arrangement, the motor can be controlled to work through the remote controller, so that the lock rod is driven to extend out of or retract into the lock shell, the automatic locking or unlocking of the faucet is realized, and the automatic locking or unlocking is not limited by manual locking or unlocking.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present utility model;

FIG. 2 is a schematic view illustrating the installation of a first cable slider according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a first chute according to an embodiment of the utility model;

FIG. 4 is a schematic diagram illustrating the installation of a second cable slider according to an embodiment of the present utility model;

FIG. 5 is a schematic view of a second chute according to an embodiment of the utility model;

FIG. 6 is a schematic diagram of the internal structure of an embodiment of the present utility model;

FIG. 7 is an enlarged view of portion A of FIG. 6;

FIG. 8 is an enlarged view of portion B of FIG. 6;

FIG. 9 is a schematic view of a first cable slider in accordance with an embodiment of the present utility model;

FIG. 10 is a schematic view of a second cable slider according to an embodiment of the present utility model;

FIG. 11 is a schematic view of a lock cylinder and spindle according to an embodiment of the present utility model;

FIG. 12 is a schematic diagram of a driving assembly according to an embodiment of the present utility model.

Detailed Description

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

It should be noted that all directional indicators (such as upper, lower, front, and rear) in the description of the present utility model are merely used to explain the relative positional relationship, movement conditions, and the like between the components in a certain specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

Furthermore, descriptions such as those referred to as "first," "second," and the like, are provided for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implying an order of magnitude of the indicated technical features in the present disclosure. In the description of the present utility model, "a number" means at least two, for example, two, three, etc., unless specifically defined otherwise.

In addition, the technical solutions of the embodiments of the present utility model may be combined with each other, but it is necessary to base the implementation on the basis of those skilled in the art, and when the technical solutions are contradictory or cannot be implemented, it should be considered that the combination of the technical solutions does not exist, and is not within the scope of protection claimed by the present utility model.

As shown in fig. 1-12, a dual-pull tap lock comprises a lock shell 1, a lock core 2, a rotating shaft 3 and a lock tongue component, wherein the lock core 2 and the rotating shaft 3 are rotatably arranged in the lock shell 1, the rotating shaft 3 is connected with the lock core 2, the lock tongue component is slidably arranged in the lock shell 1, the lock tongue component comprises a lock rod 41 and a lock plate 42, one end of the lock rod 41 extends out of the lock shell 1, a first cable sliding block 5 and a second cable sliding block 6 are slidably arranged on the lock shell 1, a first cable installation groove 50 is arranged on the first cable sliding block 5, a second cable installation groove 60 is arranged on the second cable sliding block 6, a first cable wire outlet groove 11 and a second cable wire outlet groove 12 are correspondingly arranged on the lock shell 1, a first cable shifting block 31 is arranged on the rotating shaft 3, and in the process of reversely rotating the lock core 2 and the rotating shaft 3, the first cable shifting block 31 drives the first cable sliding block 5 to slide, the lock shell 1 is internally provided with a first reset spring 13 for driving the first cable slide block 5 to reset, the lock core 2 is provided with a second cable poking block 21, the second cable poking block 21 drives the second cable slide block 6 to slide in the forward rotation process of the lock core 2 and the rotating shaft 3, the lock shell 1 is internally provided with a second reset spring 14 for driving the second cable slide block 6 to reset, the lock core 2 can axially slide relative to the rotating shaft 3, the lock core 2 presses the second cable poking block 21 to separate from the second cable slide block 6, at the moment, the forward rotation lock core 2 drives the lock rod 41 to retract into the lock shell 1, a third reset spring 7 for driving the lock core 2 to reset upwards is arranged between the lock core 2 and the rotating shaft 3, when the key is inserted into the lock core 2 and rotates the key, the lock core 2 and the rotating shaft 3 are driven to rotate, and the first cable poking block 31 on the rotating shaft 3 drives the first cable slide block 5 to slide in the reverse rotation, so as to open an oil tank cover, when the lock cylinder 2 rotates positively, the second inhaul cable poking block 21 on the lock cylinder 2 drives the second inhaul cable sliding block 6 to slide, so that the cushion cover can be opened, the lock cylinder 2 is pressed downwards, the lock cylinder 2 slides towards the direction of the rotating shaft 3, the second inhaul cable poking block 21 slides downwards to the position below the second inhaul cable sliding block 6, at the moment, the lock cylinder 2 rotates positively, the lock rod 41 can be driven to retract into the lock shell 1, so that tap unlocking is realized, multiple unlocking can be realized, and the unlocking can be realized, even when the tap is locked, the opening of the oil tank cover and the cushion cover can be carried out, and the locking or unlocking structure of the tap lock belongs to the prior art, so that the application is not specifically developed.

The first cable slider 5 and second cable slider 6 set up in lock shell 1 both sides relatively, first cable slider 5 is less than second cable slider 6 and sets up, the inboard that first cable slider 5 is located is equipped with first butt briquetting 51 on the motion trail of first cable stirring piece 31, when pivot 3 reverse rotation, first cable stirring piece 31 contacts with first butt briquetting 51 to drive first cable slider 5 and slide, structural layout is reasonable, can not influence each other when the lock core is just reversing, and during reversing, first cable stirring piece contacts with first butt briquetting, drives first cable and slides, realizes opening of fuel tank cap, and transmission structure is simple, convenient operation.

The lock core 2 is sleeved with a rotating sleeve 22 which rotates synchronously with the lock core, the rotating sleeve 22 is provided with a second inhaul cable shifting block 21, the inner side of the second inhaul cable sliding block 6 is provided with a second propping block 61, when the lock core 2 rotates forwards, the second inhaul cable shifting block 21 is contacted with the second propping block 61, so that the second inhaul cable sliding block 6 is driven to slide, and when the second inhaul cable shifting block 21 is in conflict with the second propping block 61, the lock core 2 rotates to drive the second inhaul cable sliding block 6 to slide, so that the opening of a cushion cover is realized, and the lock core is simple in driving structure and convenient to operate. The upper end of the rotating shaft 3 is provided with a positioning boss 32, the third reset spring 7 is sleeved on the periphery of the lock cylinder 2, the upper end of the third reset spring contacts with the rotating sleeve 22, the lower end of the third reset spring is abutted against the positioning boss 32, and the third reset spring 7 is stable in structure and can drive the lock cylinder 2 to reset better.

The lock is characterized in that the lock shell 1 is provided with a mounting cavity 15, a first chute 16 and a second chute 17 which are positioned at two sides of the mounting cavity 15 and communicated with the mounting cavity 15, the lock cylinder 2 and the rotating shaft 3 are rotatably arranged in the mounting cavity 15, the first inhaul cable sliding block 5 is slidably arranged in the first chute 16, the first inhaul cable sliding block 5 is provided with a first accommodating cavity 52, one end of the first reset spring 13 is positioned in the first accommodating cavity 52, the other end of the first reset spring is in contact with the side wall of the first chute 16, the first pressing block 51 extends into the mounting cavity 15, the structure layout is reasonable, and when the lock cylinder 2 is reversed, the first inhaul cable sliding block 5 slides in the first chute 16, and the structure is stable. The second cable slider 6 slides and sets up in second spout 17, is equipped with second holding chamber 62 on the second cable slider 6, and second reset spring 14 one end is located second holding chamber 62, and the other end is inconsistent with second spout 16 lateral wall, and second reset spring stable in structure, better drive second cable slider resets, and the second cable slider slides in the second spout when the lock core is corotation to support and press second reset spring, after loosening the lock core, second reset spring resets second cable slider. The novel sliding cable sliding block is characterized by further comprising a first cover plate 9 and a second cover plate 10, wherein the first cover plate 9 and the second cover plate 10 are connected with the lock shell 1 through screws, the first cover plate 9 is positioned at the outer side of the first sliding groove 16, the second cover plate 10 is positioned at the outer side of the second sliding groove 17, so that the sliding cable sliding block and the reset spring are convenient to install, and the sliding cable sliding block is prevented from being separated from the corresponding sliding groove when sliding.

The lock is characterized in that a driving component for driving the lock rod 41 to move is further arranged in the lock shell 1, the driving component comprises a sliding block 81, a motor 82, an eccentric wheel 83, a driving block 84 and a spring, the motor 82 is fixed in the lock shell 1, the eccentric wheel 83 is rotatably arranged in the lock shell 1, the motor 82 drives the eccentric wheel 83 to rotate, a transmission component 85 is arranged between the motor and the eccentric wheel, an eccentric shaft is arranged at a position deviating from the central axis of the eccentric wheel 83, the driving block 84 is slidably arranged on the lock shell, a jack for inserting the eccentric shaft is arranged on the driving block 84, the eccentric wheel 83 drives the eccentric shaft to eccentrically move so as to drive the driving block 84 to move, the driving block 84 can drive the sliding block 81 to move through the spring so as to realize that the lock rod 41 stretches out of or retracts into the lock shell 1, and the motor can be controlled through a remote controller so as to drive the lock rod to stretch out of or retract into the lock shell, automatic locking or unlocking of a tap is not limited by manual locking or unlocking. The applicant has previously filed related patents for specific automatic locking and unlocking structures, and therefore will not be explained in detail.

Claims (7)

1. The utility model provides a two stay wire tap locks, includes lock shell (1), lock core (2), pivot (3) and spring bolt subassembly, lock core (2) and pivot (3) set up in lock shell (1), and pivot (3) synchronous rotation under the drive of lock core (2), spring bolt subassembly slides and sets up in lock shell (1), spring bolt subassembly includes locking lever (41) and latch plate (42), outside lock shell (1) are stretched out to locking lever (41) one end, its characterized in that, slide on lock shell (1) and be equipped with first cable slider (5) and second cable slider (6), be equipped with first cable mounting groove (50) on first cable slider (5), be equipped with second cable mounting groove (60) on second cable slider (6), correspond on lock shell (1) and be equipped with first cable wire outlet groove (11) and second cable outlet groove (12), in-process that pivot (3) are reverse rotated is stirred in first cable (2) and pivot (3), first cable slider (31) drive slider (1) is equipped with reset spring wire (13) in-back to-drive cable (1), in the forward rotation process of the lock cylinder (2) and the rotating shaft (3), the second inhaul cable poking block (21) drives the second inhaul cable sliding block (6) to slide, a second reset spring (14) for driving the second inhaul cable sliding block (6) to reset is further arranged in the lock shell (1), the lock cylinder (2) can axially slide relative to the rotating shaft (3), the lock cylinder (2) downwards presses the second inhaul cable poking block (21) to separate from the second inhaul cable sliding block (6), at the moment, the lock cylinder (2) is rotated forward to drive the lock rod (41) to retract into the lock shell (1), and a third reset spring (7) for driving the lock cylinder (2) to reset upwards is arranged between the lock cylinder (2) and the rotating shaft (3).

2. The dual-pull tap lock according to claim 1, wherein the first cable sliding block (5) and the second cable sliding block (6) are oppositely arranged at two sides of the lock shell (1), the first cable sliding block (5) is lower than the second cable sliding block (6), a first pressing block (51) is arranged on a movement track of the first cable stirring block (31) on the inner side of the first cable sliding block (5), and when the rotating shaft (3) reversely rotates, the first cable stirring block (31) is contacted with the first pressing block (51) so as to drive the first cable sliding block (5) to slide.

3. The double-pull-cord tap lock according to claim 1 or 2, wherein a rotating sleeve (22) synchronously rotating with the lock core (2) is sleeved on the lock core (2), the rotating sleeve (22) is provided with a second cable shifting block (21), the inner side of the second cable sliding block (6) is provided with a second abutting block (61), and when the lock core (2) rotates forwards, the second cable shifting block (21) is contacted with the second abutting block (61) so as to drive the second cable sliding block (6) to slide.

4. A dual pull tap lock according to claim 3, wherein a positioning boss (33) is provided at an upper end of the rotating shaft (3), the third return spring (7) is sleeved on the outer periphery of the lock cylinder (2), the upper end is contacted with the rotating sleeve (22), and the lower end is abutted against the positioning boss (33).

5. The double-pull-cord tap lock according to claim 1 or 2, wherein the lock shell (1) is provided with a mounting cavity (15), a first sliding groove (16) and a second sliding groove (17) which are positioned on two sides of the mounting cavity (15) and are communicated with the mounting cavity (15), the lock cylinder (2) and the rotating shaft (3) are rotatably arranged in the mounting cavity (15), the first cable sliding block (5) is slidably arranged in the first sliding groove (16), the first cable sliding block (5) is provided with a first accommodating cavity (52), one end of the first return spring (13) is positioned in the first accommodating cavity (52), the other end of the first return spring is in contact with the side wall of the first sliding groove (16), and the first pressing block (51) extends into the mounting cavity (15).

6. The dual pull faucet lock of claim 5, wherein the second cable slider (6) is slidably disposed in the second chute (17), a second accommodating cavity (62) is disposed on the second cable slider (6), one end of the second return spring (14) is disposed in the second accommodating cavity (62), and the other end of the second return spring is in contact with a side wall of the second chute (17).

7. The dual-pull tap lock according to claim 1 or 2, wherein a driving component for driving the lock rod (41) to move is further arranged in the lock shell (1), the driving component comprises a sliding block (81), a motor (82), an eccentric wheel (83), a driving block (84) and a spring, the motor (82) is fixed in the lock shell (1), the eccentric wheel (83) is rotationally arranged in the lock shell (1), the motor (82) drives the eccentric wheel (83) to rotate, the eccentric wheel (83) is provided with an eccentric shaft at a position deviating from the central axis of the eccentric wheel, the driving block (84) is slidably arranged on the lock shell (1), a jack for inserting the eccentric shaft is arranged on the driving block (84), the eccentric wheel (83) drives the eccentric shaft to eccentrically move so as to drive the driving block (84) to move, and the driving block (84) can be moved through the spring to drive the sliding block (81) to move so as to extend or retract the lock rod (41) into the lock shell (1).