CN110145190B - Charging flap lock and vehicle - Google Patents

Abstract

The invention provides a charging cover lock and a vehicle, and relates to the technical field of vehicles. The charging port cover lock is used for locking or unlocking a charging port cover of an electric vehicle, is positioned at a charging port and is matched with the charging port cover, and the charging port cover is alternatively locked or unlocked when the charging port cover lock is pressed by the charging port cover in a controlled manner. Charging the flap lock in this application and directly should opening and locking charging flap in turn through pressing the mouth that charges, the flap that charges that both can be convenient switch, can pin the flap that charges when need not charging again, avoided the flap that charges to appear charging the flap and open at vehicle operation in-process, avoided the dust to enter into charging port department.

Description

Charging flap lock and vehicle

Technical Field

The invention relates to the technical field of vehicles, in particular to a charging cover lock and a vehicle.

Background

In recent years, the new energy vehicle is frequently innovative and highly available, and due to the appearance and model difference of the whole vehicle and the arrangement and the difference of the whole vehicle, the arrangement positions of charging ports are different, wherein more engine compartments are arranged, and the new energy vehicle is generally divided into two types:

the first type adopts one-way limit function, the flexible direction of swizzle is unanimous with the flap opening direction that charges, presses down to realize flexible spacing once or the second time. The first type of charging port cover lock only has a gear limiting function and cannot lock and pull the charging port cover, the charging port cover can be directly opened under the action of certain external force, or the charging port cover can shake in a bumpy road condition when the automobile runs; in addition, if the spring force of the reverse hinge of the charging port cover is durably attenuated, the charging port cover cannot be attached to the charging port cover lock, and the gap section difference between the charging port cover lock and the peripheral parts cannot be guaranteed.

And in the second type, the bolt is controlled to stretch by a motor to lock or unlock the charging opening cover, and the stretching direction of the charging opening cover is vertical to the opening direction of the charging opening cover. The second type of flap lock that charges belongs to the electronic lock, can effective locking hold the flap that charges to can only open through the switch from the driving position, the security is higher. But the shortcoming is that the cost is higher, and the pencil route is arranged complicacy, and the electronic lock is arranged and need whole car and can provide certain space, in addition because the lockpin moves the direction and not in a direction with the flap switching that charges, so its mounted position requires the precision height, otherwise leads to easily and charges the flap unable cooperation locking of flap, or can't guarantee after the locking to charge the flap and peripheral part the clearance section difference.

Disclosure of Invention

One object of the present invention is to provide a charging flap lock that solves the problem that the charging flap lock of the prior art has no lock pin and cannot lock and pull the charging flap.

Another object of the present invention is to solve the problems of high cost, complex arrangement and high precision requirement of the electronic lock in the prior art.

Another object of the present invention is to provide a vehicle having the charging flap lock.

In particular, the invention provides a charging port cover lock which is used for locking or unlocking a charging port cover of an electric vehicle,

the charging port cover lock is positioned at the charging port and matched with the charging port cover, and when the charging port cover is controlled to press the charging port cover lock, the charging port cover is alternately locked or unlocked.

Optionally, the charging flap lock comprises:

a lock body at the charging port, including a lock lever that is controllably rotated, the lock lever being rotated by a preset angle at a time: and

be located the meshing portion of the flap that charges, be provided with in the meshing portion with locking lever complex rodent to when the every rotatory preset angle of locking lever alternately with the rodent meshing or stagger, thereby the locking or open the flap that charges.

Optionally, the lock body further comprises:

the lock column is a hollow column body and is controlled to move back and forth along the opening and closing direction of the charging opening cover, and one end of the lock column is provided with a first helical tooth;

the lock bar comprises a pin head and a second helical tooth matched with the first helical tooth, the lock bar penetrates through the hollow part of the lock cylinder, the second helical tooth of the lock bar is positioned at one end of the lock cylinder, which is provided with the first helical tooth, and the pin head is positioned at the other end of the lock cylinder; when the lock cylinder is controlled to move back and forth, the first oblique teeth and the second oblique teeth are matched with each other, so that the lock lever rotates by taking the opening and closing direction of the charging opening cover as an axis, and the pin head is driven to rotate.

Optionally, the lock body further includes a spring, located at an end of the lock lever opposite to the pin head, for giving the lock lever a force in the opening and closing direction of the charging port cover to oppose the force given to the lock lever by the lock cylinder in the opening and closing direction of the charging port cover.

Optionally, the lock body further includes a housing, the housing includes an upper cover, a housing body and a lower cover, the upper cover and the lower cover are respectively located at two ends of the housing body, and the lock cylinder, the lock lever and the spring are located inside the housing so as to be fixedly disposed at the charging port by using the housing; the end part of the lock cylinder without the first helical teeth is positioned at the upper cover and exposed outside the shell, the pin head also extends out of the upper cover and contacts with the shell, and the spring is propped between the lock lever and the lower cover.

Optionally, the lock body further includes a lock pin, a cavity is disposed in the lock bar, the lock pin is located in the cavity, the spring abuts between the lock pin and the lower cover, and the lock pin is configured to move together with the lock bar.

Optionally, a guide block parallel to the opening and closing direction of the charging port cover is arranged outside the lock cylinder, and a guide groove matched with the guide block is arranged on the inner wall of the shell body, so that the lock cylinder moves along the direction of the guide block.

Optionally, the engaging part includes a cylindrical boss having a hollow cavity at the charging port cover, and one end of the cylindrical boss is engaged with one end of the lock cylinder to push the lock cylinder through the cylindrical boss when the charging port cover is pressed.

Optionally, the pin head is a cross pin head, the number of the teeth is four, the teeth are located inside the hollow cavity, the preset angle is 45 degrees, and the cross pin head is meshed with or staggered with the teeth every 45 degrees of rotation.

Particularly, the invention also provides a vehicle which comprises the charging port cover lock, wherein the charging port cover lock is arranged at a charging port and is used for locking and unlocking the charging port cover.

The charging port cover lock is positioned at the charging port and matched with the charging port cover, and when the charging port cover lock is pressed under the control of the charging port cover, the charging port cover is locked or unlocked alternately. Charging the flap lock in this application and directly should opening and locking charging flap in turn through pressing the mouth that charges, the flap that charges that both can be convenient switch, can pin the flap that charges when need not charging again, avoided the flap that charges to appear charging the flap and open at vehicle operation in-process, avoided the dust to enter into charging port department.

The charging cover lock can be unlocked and locked by only utilizing the matching of the lock lever and the meshing part and pressing the charging cover, is a pure mechanical lock, does not need additional electric action, has simple structure, has small requirement on precision and is convenient to use.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter, by way of illustration and not limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

FIG. 1 is a schematic view of a charging port cover lock according to an embodiment of the present invention positioned at a charging port;

FIG. 2 is a schematic block diagram of a charging flap lock according to one embodiment of the present invention;

FIG. 3 is a schematic view of a lock body according to one embodiment of the present invention positioned at a charging port cover;

FIG. 4 is an enlarged partial schematic view of a lock body disposed at a charging port cover according to one embodiment of the present invention;

FIG. 5 is a perspective view of a lock body according to one embodiment of the present invention;

FIG. 6 is a side view of a lock body according to one embodiment of the present invention;

FIG. 7 is an exploded view of a lock body according to one embodiment of the present invention;

FIG. 8 is a schematic cross-sectional structural view of a lock body according to one embodiment of the present invention;

FIG. 9 is a schematic view of the cross pin head and the teeth of the charging port cover in an open state according to one embodiment of the present invention;

fig. 10 is a schematic view of the cross pin head and the rodent in a locked state of the charging port cover according to an embodiment of the invention.

Detailed Description

Fig. 1 is a schematic view of a charging port cover lock 100 according to an embodiment of the present invention at a charging port; fig. 2 is a schematic block diagram of a charging flap lock 100 according to an embodiment of the present invention; FIG. 3 is a schematic view of a lock body according to one embodiment of the present invention positioned at a charging port cover; FIG. 4 is an enlarged partial schematic view of a lock body positioned at a charge flap according to one embodiment of the present invention. Specifically, the charging port cover lock 100 of the present embodiment is used to lock or unlock the electric vehicle charging port cover 200. Specifically, current electric motor car is in charging port department for preventing inside to be infected with the dust, needs to set up charging flap 200 in charging port department, and charging flap 200 then need can open at any time charging to can close and the locking at any time when finishing using, in order to avoid opening at vehicle operation in-process is automatic. The charging port cover lock 100 of the present invention is located at the charging port and is engaged with the charging port cover 200, and alternately locks or unlocks the charging port cover 200 when the charging port cover lock 100 is controllably pressed by the charging port cover 200. Charging flap lock 100 in this application should be in turn opening and locking charging flap 200 through pressing the mouth that charges, and flap 200 that charges that both can be convenient switch, can pin charging flap 200 when need not charging again, has avoided charging flap 200 to rock to appear charging flap 200 opens at the vehicle operation in-process, avoided the dust to enter into charging port department.

As a specific example, as shown in fig. 3 and 4, the charging port cover lock 100 may include a lock body 10 at the charging port and an engaging part 20 at the charging port cover 200. Wherein the lock body 10 may include a lock lever 11 controlled to rotate, the lock lever 11 rotating a preset angle at a time. The engaging portion 20 is provided with a mesh 21 engaged with the lock lever 11 to be alternately engaged with or misaligned from the mesh 21 every time the lock lever 11 is rotated by a predetermined angle, thereby locking or unlocking the charging port cover 200. The utility model provides a mouthful lid lock 100 that charges only utilizes the cooperation of locking lever 11 and meshing portion 20, can realize opening and the locking of mouthful lid lock 100 that charges through pressing the flap 200 that charges, is pure mechanical lock, need not extra electric action, and simple structure is also little to the requirement of precision, convenient to use.

FIG. 5 is a schematic perspective view of the lock body 10 according to one embodiment of the present invention; FIG. 6 is a side view of the lock body 10 according to one embodiment of the present invention; FIG. 7 is an exploded view of the lock body 10 according to one embodiment of the present invention; figure 8 is a cross-sectional structural view of the lock body 10 according to one embodiment of the present invention. As a more specific embodiment of the present invention, the lock body 10 of the present embodiment may further include a lock cylinder 12. The lock cylinder 12 is a hollow cylinder controlled to move back and forth along the opening and closing direction of the charging port cover 200, and one end of the lock cylinder is provided with a first helical tooth 121. The lock bar 11 includes a pin head 111 and a second helical tooth 112 engaged with the first helical tooth 121, the lock bar 11 passes through the hollow of the lock cylinder 12, the second helical tooth 112 of the lock bar 11 is located at one end of the lock cylinder 12 having the first helical tooth 121, and the pin head 111 is located at the other end of the lock cylinder 12. Specifically, as shown in fig. 7, the lock lever 11 includes three portions, a head portion, a middle portion, and a tail portion. The head of the lock lever 11 is provided with a pin head 111, the middle part passes through the lock column 12, and the outer side of the tail part is provided with a second helical tooth 112. The head and tail portions are located outwardly of the sides of the lock cylinder 12. The outer diameter of the middle portion is adapted to the inner diameter of the lock cylinder 12 so that the lock cylinder 12 and the lock bar 11 can rotate relative to each other. The outer diameter of the tail portion is adapted to the outer diameter of the lock cylinder 12. In addition, the second helical teeth 112 and the first helical teeth 121 are arranged oppositely and matched with each other. When the lock cylinder 12 is controlled to move back and forth, the first helical teeth 121 and the second helical teeth 112 are engaged with each other, so that the lock lever 11 rotates along the opening and closing direction of the charging port cover 200 as an axis, thereby rotating the pin head 111.

Specifically, the charging flap lock 100 of the present embodiment may further include a housing 30 and a spring 40. Wherein the spring 40 is located at an end of the lock lever 11 opposite to the pin head 111 for giving the lock lever 11 a force in a direction in which the lock lever 11 is opened and closed against the lock cylinder 12 to the charge flap 200. When the pressure applied to the lock cylinder 12 after the lock cylinder 11 is rotated disappears after the lock cylinder 12 is controllably pressed against the lock lever 11, the spring 40 gives a restoring force to the lock lever 11 and the lock cylinder 12, thereby ensuring the positional restoration between the lock lever 11 and the lock cylinder 12. The shell 30 of the application comprises an upper cover 31, a shell body 32 and a lower cover 33, wherein the upper cover 31 and the lower cover 33 are respectively located at two ends of the shell body 32, and the lock column 12, the lock lever 11 and the spring 40 are all located inside the shell 30 so as to be fixedly arranged at the charging port by utilizing the shell 30. The end of the lock cylinder 12 without the first helical teeth 121 is located at the upper cover 31 and exposed outside the housing 30, the pin head 111 also extends out of the housing 30 from the upper cover 31, and the spring 40 abuts between the lock lever 11 and the lower cover 33. A guide block 122 parallel to the opening and closing direction of the charging port cover 200 is disposed outside the lock cylinder 12, and a guide groove (not shown) engaged with the guide block 122 is disposed on the inner wall of the housing body 32, so that the lock cylinder 12 moves along the direction of the guide block 122. The housing 30 is connected to the charging port with fasteners such that the housing 30 is fixedly attached to the components of the charging port. The housing 30 is stationary as the lock cylinder 12 is forced back and forth and the lock lever 11 is rotated.

In addition, the lock body 10 in this embodiment further includes a lock pin 50, the lock bar 11 is provided with a cavity at the rear portion thereof, the lock pin 50 is located in the cavity, and the spring 40 is abutted between the lock pin 50 and the lower cover 33, and the lock pin 50 is configured to move together with the lock bar 11. Specifically, the lock pin 50 has a cross-shaped cross section and a stopper 51 in the middle. The cavity is a stepped cavity, one side of the lock pin 50 is inserted into the cavity, the stopping part 51 abuts on the step, and the other side of the lock pin 50 is inserted into the spring 40. The spring 40 has one end abutting on the stopper 51 and the other end abutting on the lower cover 33. To ensure that the latch pin 50 and the lock bar 11 can move together, the latch pin 50 is engaged with the lock bar 11 at the connection point, so that the latch pin 50 and the lock bar 11 cannot rotate relatively. Specifically, if the end surface of the spring 40 and the lock lever 11 are directly contacted and rubbed to cause the lock lever 11 to be rotationally jammed, the lock pin 50 is interposed therebetween to prevent the spring 40 from being directly contacted with the lock lever 11, thereby preventing this problem.

As a specific example, the outer ring of the middle position of the lock lever 11 is provided with a ring of grooves 113, and a sealing ring 60 is provided at the groove 113 to seal when the lock lever 11 is used with the lock cylinder 12.

As another embodiment of the present invention, the engaging part 20 of the present invention includes a cylindrical boss 22 having a hollow cavity at the charging port cover 200, and one end of the cylindrical boss 22 is engaged with one end of the lock post 12 to push the lock post 12 through the cylindrical boss when the charging port cover 200 is pressed.

Specifically, the pin head 111 of the present invention is a cross pin head 111, and the teeth 21 are four, and are located inside the hollow cavity, and the predetermined angle is 45 degrees, so that the cross pin head 111 is engaged with or misaligned with the teeth 21 every 45 degrees of rotation.

Fig. 9 is a schematic structural view of the cross pin head 111 and the rodent 21 when the charging port cover 200 is in an open state according to an embodiment of the invention; fig. 10 is a schematic structural view of the cross pin head 111 and the rodent 21 when the charging port cover 200 is in a locked state according to an embodiment of the invention. The principle of the movement of the entire charging flap lock 100 is: the charging port cover lock 100 is provided at the charging port, wherein the lock body 10 of the charging port cover lock 100 is provided at the charging port, and the engaging portion 20 is provided at the charging port cover 200. When the charging port cover 200 is closed, the cross pin 111 of the lock body 10 and the teeth 21 of the engaging portion 20 are completely engaged, and the charging port cover 200 cannot be opened. When the charging port cover 200 needs to be opened, the charging port cover 200 needs to be lightly pressed, the cylindrical boss 22 on the charging port cover 200 can push the lock cylinder 12 of the lock body 10 to move towards the pushing direction, the first helical tooth 121 on the lock cylinder 12 is matched with the second helical tooth 112 on the lock lever 11, the lock lever 11 is subjected to the reaction force of the spring 40, and therefore the lock lever 11 can start to rotate, and the lock lever 11 rotates to enable the cross pin head 111 to also rotate. When the cross pin head 111 is rotated to 45 degrees, it is just the cross pin head 111 that is completely misaligned with the teeth 21 of the engaging portion 20, as shown in fig. 9. At this time, the charging port cover 200 is released, and the charging port can be opened directly. When the charging port cover 200 is to be locked after charging is completed, the charging port cover 200 is only required to be pressed, the cylindrical boss 22 on the charging port cover 200 pushes the lock cylinder 12 of the lock body 10 to move towards the pushing direction, the first helical tooth 121 on the lock cylinder 12 is matched with the second helical tooth 112 on the lock lever 11, the lock lever 11 receives the reaction force of the spring 40, and therefore the lock lever 11 starts to rotate, and the lock lever 11 rotates to enable the cross pin head 111 to also rotate. When the cross pin head 111 is rotated to be completely engaged with the rodent 21, as shown in fig. 10, the charging port cover 200 is locked and cannot be opened. Since each rotation is exactly 45 degrees, the charging port cover 200 can be alternately opened and closed by simply pressing the charging port cover 200.

As another embodiment of the present invention, there is also provided a vehicle including the charging flap lock described above. The charging port cover lock is arranged at the charging port of the vehicle and matched with the charging port cover for locking and opening the charging port cover. Charging flap lock 100 in this application should be in turn opening and locking charging flap 200 through pressing the mouth that charges, and flap 200 that charges that both can be convenient switch, can pin charging flap 200 when need not charging again, has avoided charging flap 200 to rock to appear charging flap 200 opens at the vehicle operation in-process, avoided the dust to enter into charging port department.

The utility model provides a mouthful lid lock 100 that charges only utilizes the cooperation of locking lever 11 and meshing portion 20, can realize opening and the locking of mouthful lid lock 100 that charges through pressing the flap 200 that charges, is pure mechanical lock, need not extra electric action, and simple structure is also little to the requirement of precision, convenient to use.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been illustrated and described in detail herein, many other variations or modifications consistent with the principles of the invention may be directly determined or derived from the disclosure of the present invention without departing from the spirit and scope of the invention. Accordingly, the scope of the invention should be understood and interpreted to cover all such other variations or modifications.

Claims (9)

1. A charging port cover lock is used for locking or unlocking a charging port cover of an electric vehicle and is characterized in that,

the charging port cover lock is positioned at the charging port and matched with the charging port cover, and when the charging port cover lock is pressed under the control of the charging port cover, the charging port cover is alternately locked or unlocked; the opening and the locking of the charging port cover lock can be realized by pressing the charging port cover;

the charging flap lock includes:

a lock body at the charging port, including a lock cylinder and a lock lever controlled to rotate; and

the meshing part is positioned on the charging opening cover, and a meshing tooth matched with the locking lever is arranged in the meshing part;

wherein, the lock post is hollow cylinder, when the flap that charges was pressed, the meshing portion is pressed the lock post, the lock post along the direction that the flap that charges opened and shut comes the translation, makes the rotatory preset angle of lock bar, and when every rotatory preset angle of lock bar, the lock bar alternately with the rodent meshing or stagger to the locking is perhaps opened the flap that charges.

2. The charging flap lock of claim 1,

one end of the lock cylinder is provided with a first helical tooth;

the lock bar comprises a pin head and a second helical tooth matched with the first helical tooth, the lock bar penetrates through the hollow part of the lock cylinder, the second helical tooth of the lock bar is positioned at one end of the lock cylinder, which is provided with the first helical tooth, and the pin head is positioned at the other end of the lock cylinder; when the lock cylinder is controlled to move back and forth, the first oblique teeth and the second oblique teeth are matched with each other, so that the lock lever rotates by taking the opening and closing direction of the charging opening cover as an axis, and the pin head is driven to rotate.

3. The charging flap lock of claim 2,

the lock body further includes a spring, which is located at an end of the lock lever opposite to the pin head, for giving the lock lever a force in the charging port cover opening and closing direction against a force given to the lock lever by the lock cylinder in the charging port cover opening and closing direction.

4. The charging flap lock of claim 3,

the lock body further comprises a shell, the shell comprises an upper cover, a shell body and a lower cover, the upper cover and the lower cover are respectively located at two ends of the shell body, and the lock column, the lock lever and the spring are located inside the shell so as to be fixedly arranged at the charging port through the shell; the end part of the lock cylinder without the first helical teeth is positioned at the upper cover and exposed outside the shell, the pin head also extends out of the upper cover and contacts with the shell, and the spring is propped between the lock lever and the lower cover.

5. The charging flap lock of claim 4,

the lock body further comprises a lock pin, a cavity is arranged in the lock lever, the lock pin is located in the cavity, the spring abuts against the space between the lock pin and the lower cover, and the lock pin is configured to move together with the lock lever.

6. The charging flap lock of claim 4 or 5,

the locking post is externally provided with a guide block parallel to the opening and closing direction of the charging opening cover, and the inner wall of the shell body is provided with a guide groove matched with the guide block so as to enable the locking post to move along the direction of the guide block.

7. The charging flap lock of claim 6,

the engaging part comprises a cylindrical boss with a hollow cavity, which is positioned at the charging port cover, one end of the cylindrical boss is matched with one end of the lock column, so that the lock column is pushed by the cylindrical boss when the charging port cover is pressed.

8. The charging flap lock of claim 7,

the pin head is a cross pin head;

the number of the rodent teeth is four, and the rodent teeth are positioned on the inner side of the hollow cavity;

the preset angle is 45 degrees, and the cross pin head is meshed with or staggered with the rodent every time the cross pin head rotates 45 degrees.

9. A vehicle characterized by comprising the charging port cover lock according to any one of claims 1 to 8, provided at a charging port for locking and unlocking the charging port cover.

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