CN211572938U - Lock shell assembly, lock structure and vehicle - Google Patents

Abstract

The present disclosure provides a lock case assembly, a lock structure and a vehicle. The lock case assembly includes: an upper housing having a first mounting area and a second mounting area; and the reinforcing component is arranged on the inner wall of the upper shell and comprises a first reinforcing piece and a second reinforcing piece, the first reinforcing piece is positioned in the first mounting area, and the second reinforcing piece is positioned in the second mounting area. The bearing capacity of the upper shell can be further improved, the upper shell is prevented from being damaged, the reliability of the upper shell is improved, and the use performance of the lock shell assembly is further guaranteed.

Description

Lock shell assembly, lock structure and vehicle

Technical Field

The disclosure relates to the technical field of traffic equipment, in particular to a lock shell assembly, a lock structure and a vehicle.

Background

For the shared bicycle, during use, the lock is unlocked by scanning the two-dimensional code of the body of the shared bicycle, and after use, the shared bicycle is locked by the lock, so that the use of a user is facilitated, and meanwhile, the safety is ensured. The reliability of the existing lockset is guaranteed by protecting each part in the lockset through a lock shell. However, when a user violently destroys the lock shell, the lock shell is damaged, the shared bicycle cannot be locked reliably, and the use safety is affected.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide a lock case assembly, a lock structure and a vehicle with a guaranteed bearing capacity to solve the problem that the lock case cannot be used due to damage caused by violence at present.

The above purpose is realized by the following technical scheme:

a lock housing assembly comprising:

an upper housing having a first mounting area and a second mounting area; and

and the reinforcing component is arranged on the inner wall of the upper shell and comprises a first reinforcing piece and a second reinforcing piece, the first reinforcing piece is positioned in the first mounting area, and the second reinforcing piece is positioned in the second mounting area.

In the lock shell assembly in the embodiment of the disclosure, the inner wall of the upper shell is provided with the reinforcing part, and the strength of the inner wall of the upper shell is improved through the reinforcing part, so that the bearing capacity of the upper shell is improved; moreover, the first installation area of epitheca inner wall sets up first reinforcement, and the second installation area of epitheca sets up the second reinforcement, sets up corresponding reinforcement respectively in first installation area and second installation area, can further improve the bearing capacity of epitheca, and effectual solution leads to the lock shell to damage the problem that can't use because of violence at present, avoids the epitheca impaired, improves the reliability of epitheca, and then guarantees the performance of lock shell subassembly.

In an embodiment of the present disclosure, the first reinforcement includes a plurality of first reinforcing ribs arranged at intervals, and the first reinforcing ribs extend in a direction of the first mounting region.

In an embodiment of the present disclosure, the first reinforcement further includes a plurality of second reinforcing ribs disposed at intervals, and the second reinforcing ribs intersect with the first reinforcing ribs.

In the disclosed embodiment, the distance between the first reinforcing ribs is the same and/or different, and the distance between the second reinforcing ribs may be the same or different.

In an embodiment of the present disclosure, the second reinforcement includes a plurality of closed reinforcement rings, and the plurality of reinforcement rings are circumferentially connected in sequence.

In the disclosed embodiment, the reinforcement ring is polygonal, circular or straight and/or curved.

In the disclosed embodiment, the reinforcement ring is a regular hexagon.

In the disclosed embodiment, the cross-sectional area of each of the reinforcement rings is the same and/or different.

In an embodiment of the present disclosure, the upper case, the first reinforcement, and the second reinforcement are an integral structure.

In the embodiment of the disclosure, the height of the first reinforcing member protruding from the inner wall of the upper shell is 0.5 to 0.8 times of the thickness of the upper shell;

the height of the second reinforcing piece protruding out of the inner wall of the upper shell is 0.5-1 time of the thickness of the upper shell.

In an embodiment of the present disclosure, the lock case assembly further includes a bottom case for mounting the upper case, and the first reinforcement and/or the second reinforcement are disposed on an inner wall of the bottom case.

A lock assembly comprising a control assembly, a locking assembly and a housing assembly according to any one of the preceding features;

the control assembly is installed in a first installation area of the lock shell assembly, the locking assembly is installed in a second installation area of the lock shell assembly, and the control assembly is electrically connected with the locking assembly and controls the locking assembly to be locked or unlocked.

After the lock structure in the embodiment of the disclosure adopts the lock shell assembly, the bearing capacity of the lock structure can be improved, and the locking performance of the lock structure is ensured.

A vehicle comprising a vehicle body and a lock structure as described in the above features;

the lock structure is mounted on the tool body and used for locking or unlocking the tool body.

After the vehicle of the embodiment of the present disclosure adopts the lock structure of the above embodiment, the safety of the vehicle can be ensured, and the violent unlocking condition is avoided.

In an embodiment of the disclosure, the tool body is a bicycle.

Drawings

FIG. 1 is a perspective view of a lock housing assembly according to one embodiment of the present disclosure;

FIG. 2 is an angled perspective view of the upper housing of the lock housing assembly shown in FIG. 1;

FIG. 3 is a front view of the upper housing shown in FIG. 2;

fig. 4 is a perspective view of the upper housing of the lock housing assembly of fig. 2 from another angle.

Wherein: 100. a housing assembly; 110. an upper shell; 111. a first mounting area; 112. a second mounting area; 120. a bottom case; 130. a reinforcing member; 131. a first reinforcement; 1311. a first reinforcing rib; 1312. a second reinforcing rib; 132. a second reinforcement; 1321. a reinforcement ring.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present disclosure more comprehensible, embodiments accompanying the present disclosure are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present disclosure. This disclosure may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In the description of the present disclosure, it is to be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present disclosure and to simplify the description, but are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the present disclosure.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present disclosure, "a plurality" means at least two, e.g., two, three, etc., unless explicitly specifically limited otherwise.

In the present disclosure, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integral; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present disclosure can be understood by those of ordinary skill in the art as appropriate.

In the present disclosure, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Referring to fig. 1-4, the present disclosure provides a lock housing assembly 100. The lock shell assembly 100 is applied to a lock structure, and is used for protecting each part in the lock structure, ensuring the reliability of the work of the lock structure and avoiding the condition of violence unlocking. Further, the lock structure with the lock housing assembly 100 may be used in vehicles, including but not limited to bicycles, electric vehicles, automobiles, and the like, as well as other types of vehicles. Of course, in other embodiments of the present disclosure, the lock structure with the lock housing assembly 100 may be applied to other types of devices, such as a shared charger or other structures requiring locking.

It should be noted that the lock structure with the lock housing assembly 100 is applied to a vehicle, and further applied to a bicycle, and the working principle and structure thereof are substantially the same as those applied to other occasions, and the present disclosure only takes the example of applying the lock structure with the lock housing assembly 100 to a vehicle as an example, and the situation applied to other occasions is not repeated.

The lock case assembly 100 disclosed by the invention can have higher strength so as to ensure the impact resistance of the lock case assembly 100, improve the bearing capacity of the lock case assembly 100, avoid the damage to the lock case assembly 100 due to violence and improve the reliability of the operation of the lock case assembly 100. In this way, the lock housing assembly 100 can protect various components of the lock structure, and ensure that the lock structure can reliably operate, so that the lock structure can reliably lock the vehicle, and ensure the safety of the vehicle.

Referring to fig. 1-4, in one embodiment, the lock housing assembly 100 includes a bottom housing 120, an upper housing 110, and a reinforcement assembly. The upper case 110 is covered on the bottom case 120, and the upper case 110 has a first mounting region 111 and a second mounting region 112. The reinforcing member 130 is disposed on an inner wall of the upper case 110, and the reinforcing member 130 includes a first reinforcing member 131 and a second reinforcing member 132, the first reinforcing member 131 is located in the first mounting region 111, and the second reinforcing member 132 is located in the second mounting region 112.

The bottom case 120 and the upper case 110 are enclosed to form a hollow cavity, and all components of the lock structure are installed in the hollow cavity enclosed by the bottom case 120 and the upper case 110. Various components of the latch structure are carried by the bottom housing 120. After the bottom shell 120 is covered by the upper shell 110, each part of the lock structure can be wrapped up, so that each part of the lock structure is located in the lock structure, damage caused by touching each part of the lock structure is avoided, and abnormal unlocking can be avoided.

The bottom of the bottom case 120 is fixedly mounted on the vehicle body of the vehicle. Alternatively, the bottom shell 120 may be secured to the tool body by screws, glue, etc. to ensure that the lock housing assembly 100 may be securely secured to the tool body, thereby facilitating a secure locking of the tool body by the lock mechanism. Moreover, the top of the upper case 110 is exposed upward, so that the unlocking operation is facilitated, and the use by a user is facilitated.

The upper shell 110 has a first mounting area 111 and a second mounting area 112 inside, a control component of the lock structure is mounted in the first mounting area 111, and a locking component of the lock structure is mounted in the second mounting area 112, and the locking or unlocking of the locking component is controlled by the control component. As shown in fig. 2 and 3, the first mounting region 111 of the upper case 110 has a square-like structure, and the second mounting region 112 of the upper case 110 is an arc-shaped extension extending downward. The bottom shell 120 is fixedly connected with the upper shell 110 through bolts, so that the lock shell assembly 100 is reliably connected.

For the lock on the current shared bicycle, the situation of violent unlocking often occurs. Specifically, the lock is unlocked by violently damaging the upper shell of the lock, so that the shared bicycle is abnormally unlocked. This can result in the lock not being able to lock the shared bicycle again, and can also affect the security of the shared bicycle. Referring to fig. 2 and 3, the lock case assembly 100 of the present disclosure is provided with a reinforcing member 130 on an inner wall of the upper case 110, and the reinforcing member 130 supports the upper case 110, thereby increasing strength of the upper case 110 and improving bearing capacity of the upper case 110, so that the upper case 110 is not easily damaged when the upper case 110 is subjected to a violent force, thereby ensuring protection performance of the lock case assembly 100 and improving reliability of operation of the lock structure.

Specifically, the reinforcing member 130 includes a first reinforcing member 131 and a second reinforcing member 132, the first reinforcing member 131 is disposed on an inner wall of the first mounting region 111 of the upper case 110 and abuts the control unit, and the second reinforcing member 132 is disposed on an inner wall of the second mounting region 112 of the upper case 110 and abuts the locking unit. That is, by disposing the first reinforcing member 131 and the second reinforcing member 132 in different regions, the two mounting regions of the upper shell 110 can have different strengths, so as to further improve the load-bearing capacity of the upper shell 110 and prevent the upper shell 110 from being damaged by violence.

Moreover, the first reinforcing member 131 reinforces and supports the portion of the upper shell 110 of the first mounting region 111, and the second reinforcing member 132 reinforces and supports the portion of the second upper shell 110, so that each portion of the upper shell 110 can be supported, weak points are avoided, the reliability of the support of the reinforcing member 130 to the upper shell 110 is ensured, the upper shell 110 is not easily damaged by violence, and the protection performance of the lock shell structure is ensured.

The lock case assembly 100 of the above embodiment improves the strength of the inner wall of the upper case 110 by the reinforcing member 130, thereby improving the bearing capacity of the upper case 110; moreover, the corresponding reinforcing members are respectively arranged in the first mounting area 111 and the second mounting area 112, so that the bearing capacity of the upper shell 110 can be further improved, the problem that the lock shell cannot be used due to damage caused by violence at present can be effectively solved, the upper shell 110 is prevented from being damaged, the reliability of the upper shell 110 is improved, and the service performance of the lock shell assembly 100 is further ensured.

In one embodiment, the supporting strength of the second reinforcement member 132 is greater than or equal to the supporting strength of the first reinforcement member 131. That is, the upper case 110 of the second mounting region 112 is supported by the second reinforcing member 132 and has a greater supporting strength than the upper case 110 of the first mounting region 111 of the first reinforcing member 131, so as to ensure that the strength of the upper case 110 corresponding to the locking component is greater than the strength of the upper case 110 corresponding to the control component.

This can greatly improve the strength of the upper case 110, and even if the external force is large, the damaged portion of the upper case 110 corresponding to the first mounting region 111 cannot damage the upper case 110 at the second mounting region 112. At this time, since the upper case 110 of the second mounting region 112 still protects the locking assembly, the locking assembly is not exposed, and the locking assembly cannot be unlocked by violence, so that the lock structure can reliably lock the vehicle body of the vehicle, and further, the locking performance of the lock structure can be ensured.

In an embodiment, the first stiffener 131 and/or the second stiffener 132 are disposed on an inner wall of the bottom case 120. After the first reinforcing member 131 and/or the second reinforcing member 132 are disposed on the inner wall of the bottom case 120, the strength of the bottom case 120 can be improved, the bottom case 120 can be prevented from being damaged, the reliability of the operation of the bottom case 120 can be improved, and the protection performance of the lock case assembly 100 can be ensured. Alternatively, only the first stiffener 131 may be provided to the inner wall of the bottom case 120. Alternatively, only the second stiffener 132 may be provided to the inner wall of the bottom case 120. Optionally, the inner wall of the bottom case 120 is provided with a first stiffener 131 and a second stiffener 132. It should be noted that the layout of the bottom case 120 with the first stiffener 131 and/or the second stiffener 132 is substantially the same as the layout of the top case 110 with the first stiffener 131 and the second stiffener 132, which is not repeated herein.

Referring to fig. 2 and 3, in an embodiment, first reinforcement member 131 includes a plurality of first reinforcing ribs 1311 arranged at intervals, and first reinforcing ribs 1311 extend in a direction of first mounting region 111. A plurality of first reinforcing ribs 1311 are installed on the inner wall of the upper shell 110 corresponding to the first installation region 111, and the plurality of first reinforcing ribs 1311 are arranged at intervals and then reliably support the upper shell 110 corresponding to the first installation region 111, so that the strength of the upper shell 110 is ensured. Optionally, the first reinforcing rib 1311 is a support rib having a length. In this way, after the first reinforcing ribs 1311 are arranged in the upper case 110 to extend in one direction, the strength of the upper case 110 in one direction can be ensured.

Optionally, the length of the first reinforcement rib 1311 is slightly less than or equal to the length of the upper shell 110 in one direction. This can further improve the supporting strength of the first reinforcing beads 1311 to the upper case 110, and improve the bearing capacity of the upper case 110. As shown in fig. 3, the first reinforcing bead 1311 extends in the vertical direction shown in fig. 3, and the length of the first reinforcing bead 1311 in the vertical direction is equal to the length of the upper shell 110 in the vertical direction at the first mounting region 111.

In an embodiment, the first reinforcement 131 further comprises a plurality of spaced second reinforcing ribs 1312, the second reinforcing ribs 1312 intersecting the first reinforcing ribs 1311. The plurality of second reinforcing ribs 1312 are installed on the inner wall of the upper case 110 corresponding to the first installation region 111 along a direction different from the first reinforcing ribs 1311, and the plurality of second reinforcing ribs 1312 are arranged at intervals to reliably support the upper case 110 corresponding to the first installation region 111, thereby ensuring the strength of the upper case 110. Optionally, the second reinforcing ribs 1312 are support ribs having a length. In this way, after the second reinforcing ribs 1312 are arranged in the upper case 110 to extend in the other direction, the strength of the upper case 110 in the other direction can be ensured.

It is understood that the first reinforcing rib 1311 and the second reinforcing rib 1312 are disposed at the rear of the inner wall of the first mounting region 111 corresponding to the upper shell 110 in different directions, and the first reinforcing rib 1311 and the second reinforcing rib 1312 intersect. The strength of the upper shell 110 can be further improved by the mutual support of the first reinforcing rib 1311 and the second reinforcing rib 1312, so that the bearing capacity of the upper shell 110 is ensured, and the upper shell 110 is prevented from being damaged under the impact.

Optionally, first reinforcing rib 1311 is disposed perpendicular to second reinforcing rib 1312. That is, first reinforcing rib 1311 and second reinforcing rib 1312 may form a grid-like structure. The first reinforcing ribs 1311 and the second reinforcing ribs 1312 staggered in the grid can ensure the strength of the upper shell 110, and improve the impact resistance of the upper shell 110. Of course, in other embodiments of the present disclosure, the first reinforcing rib 1311 may be disposed obliquely with respect to the second reinforcing rib 1312, so that the strength of the upper case 110 can be ensured.

In an embodiment, the distance between the first reinforcement ribs 1311 is the same and/or different, and the distance between the second reinforcement ribs 1312 may be the same or different. That is, the arrangement density of the first reinforcing beads 1311 and the second reinforcing beads 1312 in the first reinforcement 131 varies according to the shape and the bearing capacity of the upper case 110. That is, the density of the first reinforcing rib 1311 and the second reinforcing rib 1312 may be adjusted according to the external force required to be received by different positions of the upper housing 110 and the shape change of the upper housing 110, so that different positions of the upper housing 110 have different receiving capacities, and the locking performance of the locking assembly is ensured while the protection performance of the lock housing assembly 100 is ensured.

It can be understood that when the distance between two adjacent first reinforcing ribs 1311 is smaller, the first reinforcing ribs 1311 are arranged in a dense manner, which can improve the supporting strength of the upper shell 110; when the distance between two adjacent first reinforcing beads 1311 is large, the first reinforcing beads 1311 are arranged in a more sparse manner, and the supporting strength for the upper case 110 can be reduced. For example, a first reinforcing rib 1311 and a second reinforcing rib 1312 that are relatively thin may be provided at a position without a component, and a first reinforcing rib 1311 and a second reinforcing rib 1312 that are relatively dense may be provided at a position with a component.

In one embodiment, the second reinforcement member 132 includes a plurality of closed reinforcement rings 1321, and the plurality of reinforcement rings 1321 are connected in a circumferential sequence. The reinforcement ring 1321 is internally an enclosed area, and a plurality of reinforcement rings 1321 are provided at the upper case 110 at the corresponding second mounting area 112. After the closed reinforcing ring 1321 supports the upper case 110, the respective corresponding regions of the reinforcing ring 1321 can be supported, so that the strength of the upper case 110 can be increased, and the bearing capacity of the upper case 110 can be improved. Furthermore, the outer circumference of each reinforcement ring 1321 connects a portion of the outer circumference of the plurality of reinforcement rings 1321, and the radial connection of the plurality of reinforcement rings 1321 is achieved in such a way that the respective reinforcement rings 1321 are supported by each other, which significantly improves the strength of the upper shell 110 at the second mounting region 112.

Optionally, the second mounting region 112 of the upper shell 110 is filled with a reinforcement ring 1321 to ensure the strength of the upper shell 110 at the second mounting region 112 to ensure the bearing capacity of the upper shell 110. Therefore, the upper shell 110 can better protect the locking assembly, the upper shell 110 is prevented from being damaged due to external force, the locking assembly in the upper shell 110 is further prevented from being unlocked abnormally, and the working reliability of the lock shell assembly 100 is ensured.

In principle, the shape of the reinforcement ring 1321 is limited in principle in steps, as long as a reliable support of the upper shell 110 is ensured. In order to further improve the supporting performance of the second reinforcing member 132 to the upper shell 110, the reinforcing ring 1321 has a polygonal shape, a circular shape, a straight line shape and/or a curved line splicing shape, etc. Further, the reinforcement ring 1321 has a regular hexagonal shape. That is, the reinforcement ring 1321 is a hexagonal structure simulating a honeycomb. The edge of each reinforcement ring 1321 can be connected with six reinforcement rings 1321, in this way, the second reinforcement member 132 is formed into a honeycomb structure, and the strength of the upper shell 110 is increased.

The second reinforcing member 132, which simulates a honeycomb, is added to the upper case 110, so that the strength of the upper case 110 is greatly increased. Compared with the upper shell 110 in the current lock, the upper shell 110 in the lock shell assembly 100 of the present disclosure can obtain the bearing capacity of the upper shell 110 of the present disclosure is more than six times of the bearing capacity of the upper shell 110 in the current lock through the impact resistance tests such as the hammering resistance test and the drop resistance test, and is much larger than the upper shell 110 in the current lock, so that the reliability of the operation of the lock shell assembly 100 can be improved.

In one embodiment, the cross-sectional area of each reinforcement ring 1321 is the same and/or different. That is, the arrangement density of the reinforcement rings 1321 in the second reinforcement 132 varies according to the shape and the load-bearing capacity of the upper case 110. That is, the edge size of the reinforcing ring 1321 can be adjusted according to the external force required to be borne by the upper shell 110 at different positions and the shape change of the upper shell 110, so that the upper shell 110 has different bearing capacities at different positions, and the locking performance of the locking assembly is ensured while the protection performance of the lock housing assembly 100 is ensured.

It can be understood that when the edge size of the reinforcement ring 1321 is shorter, the reinforcement ring 1321 is arranged in a denser manner, which can improve the supporting strength of the upper shell 110; when the edge size of the reinforcement ring 1321 is long, the reinforcement ring 1321 is provided in a sparser manner, which may reduce the supporting strength to the upper case 110. Illustratively, a relatively sparse reinforcement ring 1321 may be provided at locations without components and a relatively dense reinforcement ring 1321 may be provided at locations with components.

In one embodiment, the upper shell 110, the first stiffener 131 and the second stiffener 132 are an integral structure. That is, the upper shell 110, the first reinforcing member 131 and the second reinforcing member 132 may be integrally formed, so that the number of parts and the number of assembly processes may be reduced, and the use is facilitated; meanwhile, the connection reliability between the upper case 110 and the first and second reinforcing members 131 and 132 can be ensured, and the first and second reinforcing members 131 and 132 can reliably support the upper case 110. Optionally, the upper shell 110 is made of a plastic material. Optionally, the bottom case 120 is made of a plastic material.

In one embodiment, the height of the first reinforcement member 131 protruding from the inner wall of the upper shell 110 is 0.5 to 0.8 times the thickness of the upper shell 110. The height dimension of the first reinforcement member 131 within the above range can satisfy the strength requirement of the upper shell 110 corresponding to the first mounting region 111, and at the same time, it can ensure that the control assembly has enough mounting space without increasing the volume of the lock shell structure.

In one embodiment, the height of the second reinforcement member 132 protruding from the inner wall of the upper shell 110 is 0.5 to 1 times the thickness of the upper shell 110. The height of the second reinforcement member 132 within the above range can improve the strength of the upper case 110 corresponding to the second mounting region 112, ensure the bearing capacity of the upper case 110, and at the same time ensure that the locking assembly has enough mounting space without increasing the volume of the lock case structure.

The present disclosure also provides a lock arrangement comprising a control assembly, a locking assembly and a lock housing assembly 100 as in the above embodiments. The control assembly is mounted to a first mounting area 111 of the lock housing assembly 100 and the locking assembly is mounted to a second mounting area 112 of the lock housing assembly 100, the control assembly being electrically connected to the locking assembly to control the locking or unlocking of the locking assembly. The control assembly is in transmission connection with external handheld equipment such as a mobile phone, and an unlocking signal is transmitted to the control assembly through the handheld equipment, so that the locking assembly is unlocked. When the control assembly does not receive the unlocking signal, the locking assembly always keeps the locking state. Alternatively, the control assembly and the locking assembly in the lock structure can be realized by the structure of the current lock.

After the lock structure of the present disclosure adopts the lock housing assembly 100 in the above embodiments, the lock housing assembly 100 is installed with the control assembly and the locking assembly, and the locking assembly and the control assembly are protected by the lock housing assembly 100. Moreover, the lock shell assembly 100 has strong bearing capacity, so that damage caused by external force can be avoided, abnormal unlocking of the locking assembly is further avoided, the locking performance of the lock structure is guaranteed, and the lock is convenient to use.

The present disclosure also provides a vehicle including a vehicle body and the lock structure in the above embodiments. The lock structure is mounted to the tool body for locking or unlocking the tool body. The vehicle disclosed by the invention realizes the reliable locking of the vehicle main body through the lock structure, and the safety of the vehicle main body is ensured.

In one embodiment, the tool body is a bicycle. After the bicycle is locked by the lock structure with the lock shell assembly 100, the bicycle can be reliably locked, the violent unlocking condition caused by violently damaging the lock shell assembly 100 can be avoided, and the safety performance of the bicycle is ensured.

The technical features of the embodiments described above can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present disclosure, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present disclosure. It should be noted that, for those skilled in the art, various changes and modifications can be made without departing from the concept of the present disclosure, and these changes and modifications are all within the scope of the present disclosure. Therefore, the protection scope of the present disclosure should be subject to the appended claims.

Claims (14)

1. A lock housing assembly, comprising:

an upper housing having a first mounting area and a second mounting area; and

and the reinforcing component is arranged on the inner wall of the upper shell and comprises a first reinforcing piece and a second reinforcing piece, the first reinforcing piece is positioned in the first mounting area, and the second reinforcing piece is positioned in the second mounting area.

2. A lock housing assembly according to claim 1, wherein the first reinforcement comprises a plurality of first reinforcement bars arranged at intervals, which first reinforcement bars extend in a direction of the first mounting area.

3. The lock housing assembly according to claim 2, wherein the first reinforcement further comprises a plurality of spaced apart second reinforcement bars intersecting the first reinforcement bars.

4. A lock housing assembly according to claim 3, wherein the distance between the first reinforcement bars is the same and/or different, and the distance between the second reinforcement bars is the same or different.

5. Lock case assembly according to claim 1, wherein the second reinforcement comprises a plurality of closed reinforcement rings, which reinforcement rings are connected in circumferential sequence.

6. Lock housing assembly according to claim 5, characterized in that the reinforcement ring is polygonal, circular or straight and/or curved in a split shape.

7. Lock housing assembly according to claim 6, characterized in that the reinforcement ring is regular hexagonal.

8. Lock housing assembly according to claim 5, characterized in that the cross-sectional area of the reinforcement rings is identical and/or different.

9. A lock housing assembly according to any of the claims 1 to 8, wherein the upper housing, the first reinforcement and the second reinforcement are of one piece construction.

10. A lock housing assembly according to any one of the claims 1-8, wherein the first reinforcement member projects from the inner wall of the upper housing by a height of 0.5-0.8 times the thickness of the upper housing;

the height of the second reinforcing piece protruding out of the inner wall of the upper shell is 0.5-1 time of the thickness of the upper shell.

11. A lock housing assembly according to any of the claims 1-8, further comprising a bottom shell to which the upper shell is mounted, an inner wall of the bottom shell being provided with the first reinforcement and/or the second reinforcement.

12. A lock arrangement comprising a control assembly, a locking assembly and a lock housing assembly according to any one of claims 1 to 11;

the control assembly is installed in a first installation area of the lock shell assembly, the locking assembly is installed in a second installation area of the lock shell assembly, and the control assembly is electrically connected with the locking assembly and controls the locking assembly to be locked or unlocked.

13. A vehicle comprising a vehicle body and a lock arrangement according to claim 12;

the lock structure is mounted on the tool body and used for locking or unlocking the tool body.

14. The vehicle of claim 13, wherein the vehicle body is a bicycle.

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