CN216153924U - Storage container, storage container assembly and vehicle - Google Patents

Abstract

The embodiment of the utility model discloses a storage container, a storage container assembly and a vehicle. Therefore, when a rider places the helmet, the helmet can be conveniently placed at the correct position, and the phenomenon that the helmet is inverted is avoided. Meanwhile, the first positioning boss and the second positioning boss have a certain fixing effect on the helmet.

Description

Storage container, storage container assembly and vehicle

Technical Field

The utility model relates to the technical field of vehicles, in particular to a storage container, a storage container assembly and a vehicle.

Background

With the popularization of shared travel tools such as shared bicycles and shared electric vehicles, the life relationship between the shared travel tools and people is more and more compact. When a rider carelessly falls off from the walking tool, the safety protection of the head of the rider is particularly important, and therefore, the problem to be solved is that the helmet needs to be configured on the walking tool, and how to lock the helmet with the walking tool is solved.

SUMMERY OF THE UTILITY MODEL

In view of this, embodiments of the present invention provide a storage container, a storage container assembly, and a vehicle, in which a first positioning boss and a second positioning boss disposed in the storage container are used to define a position of a helmet, so as to simplify operations of taking and placing the helmet by a rider.

In a first aspect, an embodiment of the present invention provides a storage container, including:

a container wall; and

the container bottom is arranged at one end of the container wall and is provided with a first positioning boss and a second positioning boss opposite to the first positioning boss;

the first positioning boss and the second positioning boss are different in height, and are respectively in positioning fit with the front side structure and the rear side structure of the helmet correspondingly.

Further, the container bottom includes: and the supporting platforms are respectively arranged on two sides of the second positioning boss.

Further, the container bottom also comprises: the protrusion is arranged between the first positioning boss and the second positioning boss and provided with a first lock hole, and an opening of the first lock hole faces the container wall.

Further, the container wall includes the tool to lock groove, the tool to lock groove by one side orientation of container wall the inside of putting the thing container is sunken to be formed, the tool to lock groove with protruding relative setting just have with first lockhole concentric second lockhole.

Further, the storage container also comprises a lock arranged in the lock groove, wherein the lock is provided with a lock pin capable of telescopically moving, and the lock pin is configured to pass through the second lock hole and be inserted into the first lock hole.

Furthermore, the first lock hole is a blind hole or a through hole.

Further, the lockset comprises an identification module and a detection module, wherein the identification module and the detection module are arranged on one side of the lock pin, the detection module is used for detecting whether the helmet is in place, and the identification module is used for identifying the helmet.

Further, the detection module is a hall sensor, and the identification module is a radio frequency identifier.

In a second aspect, an embodiment of the present invention further provides a storage container assembly, where the storage container assembly includes:

the storage container of the first aspect; and

the helmet comprises a helmet top and a helmet wall surrounding the helmet top, wherein the helmet wall is provided with an outer edge arranged in a direction far away from the helmet top, and the outer edge is provided with a first positioning area and a second positioning area which are different in distance from the helmet top;

the first positioning area and the second positioning area are respectively used for being matched with the first positioning boss and the second positioning boss to fix the helmet.

Further, the first positioning area is located on the front side of the helmet and the second positioning area is located on the rear side of the helmet;

wherein the distance from the first positioning area to the top of the helmet is greater than the distance from the second positioning area to the top of the helmet.

Further, the first positioning area is a smooth portion, and the second positioning area is a recessed portion formed by the outer edge being recessed in a direction toward the helmet top.

Furthermore, the helmet wall is also provided with a third lock hole which is a through hole;

the outer surface of the helmet is provided with a mark used for indicating the position of the third lock hole.

Further, the helmet is provided with a triggering module and an authentication module, and the authentication module stores helmet identification.

Further, the triggering module is a magnetic part, and the authentication module is a radio frequency identification tag.

In a third aspect, an embodiment of the present invention further provides a vehicle, where the vehicle includes:

the storage container of the first aspect;

the storage container is arranged on the vehicle body.

In a fourth aspect, an embodiment of the present invention further provides another vehicle, where the vehicle includes:

the storage container assembly of the second aspect;

the storage container assembly is arranged on the vehicle body.

According to the storage container, the storage container assembly and the vehicle provided by the embodiment of the utility model, the helmet placed in the storage container is positioned by utilizing the first positioning boss and the second positioning boss which are arranged at the bottom of the storage container and have different heights. Therefore, when a rider places the helmet, the helmet can be conveniently placed at the correct position, and the phenomenon that the helmet is inverted is avoided. Meanwhile, the first positioning boss and the second positioning boss have a certain fixing effect on the helmet.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent from the following description of the embodiments of the present invention with reference to the accompanying drawings, in which:

FIG. 1 is a schematic view of a storage container according to an embodiment of the present invention;

FIG. 2 is a schematic top view of a storage container according to an embodiment of the utility model;

FIG. 3 is a rear view of the storage container of the present invention;

FIG. 4 is an exploded view of the storage container and lock of the present invention;

FIG. 5 is an exploded view of a lock according to an embodiment of the present invention;

fig. 6 is a schematic view of a helmet according to an embodiment of the utility model;

FIG. 7 is a rear view schematic of a helmet according to an embodiment of the present invention;

fig. 8 is a schematic left view of a helmet according to an embodiment of the utility model;

FIG. 9 is a front perspective schematic view of a storage container assembly according to an embodiment of the present invention;

fig. 10 is a schematic front perspective view of a helmet according to an embodiment of the present invention.

Description of reference numerals:

1-a helmet; 11-a helmet wall; 111-outer edge; 111 a-a first location area; 111 b-a second location area; 12-a helmet top; 13-labeling; 14-a trigger module; 15-an authentication module;

2-a storage container; 21-container bottom; 21 a-a first positioning boss; 21 b-a second positioning boss; 211-a support table; 212-a bump; 22-the container wall; 221-a lock groove; 23-a lock; 231-an identification module; 232-a detection module; 233-a locking pin;

a-a first keyhole; b-a second lock hole; c-third lock hole.

Detailed Description

The present invention will be described below based on examples, but the present invention is not limited to only these examples. In the following detailed description of the present invention, certain specific details are set forth. It will be apparent to one skilled in the art that the present invention may be practiced without these specific details. Well-known methods, procedures, components and circuits have not been described in detail so as not to obscure the present invention.

Further, those of ordinary skill in the art will appreciate that the drawings provided herein are for illustrative purposes and are not necessarily drawn to scale.

Unless the context clearly requires otherwise, throughout this specification, the words "comprise", "comprising", and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is, what is meant is "including, but not limited to".

In the description of the present invention, it is to be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

Unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are intended to be inclusive and mean that, for example, they may be fixedly connected or detachably connected or integrally formed; 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 meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

When the shared walk-substituting tool is used by a rider, the helmet is unlocked from the shared walk-substituting tool and taken out to be worn on the head, and when the use is finished, the helmet is taken off from the head and is placed back on the shared walk-substituting tool and locked with the shared walk-substituting tool.

Fig. 1-3 illustrate a storage container (i.e., a basket) that may be disposed on a shared transportation tool, the bottom region of the basket being asymmetrically disposed to provide a direction guide for a rider to place a helmet when the helmet is removed from the basket for wearing and returned to the basket after use.

Fig. 6-8 show the helmet that can be placed in the basket, the bottom of the helmet is configured to be a front-back asymmetrical form that can be matched with the bottom of the basket, when the helmet is correctly placed in the basket, the helmet can be just flatly placed in the basket, the helmet does not shake in the basket, and the lock can lock the helmet. If the helmet is placed incorrectly, for example, the helmet is placed upside down in the basket, the lock cannot lock the helmet, and the helmet is obviously inclined, so that a rider can conveniently observe whether the helmet is placed correctly.

Specifically, fig. 9 shows the fitting position relationship between the helmet and the basket after the helmet is placed in the basket, and at this time, the horizontal space of the basket is almost filled up by the side wall of the helmet, and in the height direction, the helmet is still a certain distance away from the bottom of the basket. The space can accommodate helmet accessories such as adjusting belts and wind-proof ropes on the helmet.

As shown in fig. 1 to 3, the storage container 2 includes a container wall 22 and a container bottom 21 disposed at one end of the container wall 22, and the container bottom 21 has a first positioning projection 21a and a second positioning projection 21b disposed opposite to the first positioning projection 21 a. The first positioning boss 21a and the second positioning boss 21b have different heights, and the first positioning boss 21a and the second positioning boss 21b are respectively in positioning fit with the front and rear side structures of the helmet 1.

The storage container 2 of the present embodiment positions the helmet 1 placed therein by using the first positioning bosses 21a and the second positioning bosses 21b provided on the container bottom 21 and having different heights. Therefore, when a rider places the helmet 1, the helmet 1 can be conveniently placed at the correct position to be locked, and the situation that the helmet 1 cannot be locked when being inverted is avoided. Meanwhile, the first positioning boss 21a and the second positioning boss 21b also play a certain fixing role in the helmet 1, so that the helmet 1 can be prevented from shaking.

Preferably, the first positioning projection 21a and the second positioning projection 21b may be disposed on the edge of the container bottom 21, i.e. when the first positioning projection 21a and the second positioning projection 21b are also in contact with the container wall 22. The inboard size of container wall 22 can set up to just leave a small amount of clearances with the helmet 1 outer fringe after helmet 1 is put into to can guarantee helmet 1's normal putting into and take out, also can utilize container wall 22 to make helmet 1 more stable in the position of putting thing container 2, avoid making the helmet rock because of the removal of putting thing container 2. Specifically, fig. 1-2 show a structure of a first positioning boss 21a and a second positioning boss 21 b. Taking the right area of the object container 2 in fig. 2 as an example, which is disposed on the handle bar of the sharing bicycle, the first positioning protrusion 21a and the second positioning protrusion 21b are disposed on two opposite sides of the advancing direction of the sharing bicycle. Therefore, when the rider takes the helmet 1 off the head and puts it into the basket, it is necessary to rotate the helmet 1 by 90 ° clockwise or counterclockwise in the horizontal direction, that is, the helmet 1 faces the left or right side of the shared bicycle in the basket. The first positioning projection 21a is longer than the second positioning projection 21b, and the first positioning projection 21a is disposed along the container wall 22 and has a certain curvature. The first positioning projection 21a also has a curved surface in the middle area of the side wall, which can be engaged with the lower edge of the front or rear part of the helmet 1 to guide the helmet 1 to be placed at a predetermined position.

In some embodiments, the container bottom 21 further comprises a protrusion 212, the protrusion 212 is disposed between the first positioning boss 21a and the second positioning boss 21b, the protrusion 212 has a first locking hole a, and the opening of the first locking hole a faces the container wall 22. The present embodiment can further limit the position of the helmet 1 by the positioning gap formed by the protrusion 212 and the container wall 22, so that the third locking hole C of the helmet 1 is concentric with the first locking hole a. The lock pin 233 of the lock 23 can pass through the third lock hole C of the helmet 1 and then be inserted into the first lock hole a of the protrusion 212, so as to lock the helmet 1 and the storage container 2 together, thereby preventing the helmet 1 from being stolen. When the helmet 1 is placed in the storage container 2, the first locking hole a facing the container wall 22 faces the sidewall of the helmet 1, so that a third locking hole C corresponding to the first locking hole a can be formed at a corresponding position on the sidewall of the helmet 1, thereby locking the helmet 1 and the storage container 2 together.

Fig. 4 is an exploded view of the storage container 2 and the lock 23, and fig. 5 is an exploded view of the lock 23, as shown in fig. 1-5, further, the container wall 22 includes a lock groove 221, the lock groove 221 is formed by a side of the container wall 22 being recessed toward the interior of the storage container 2, and the lock groove 221 is disposed opposite to the protrusion 212 and has a second lock hole B concentric with the first lock hole a. In the embodiment, the lock groove 221 is used to accommodate the lock, and the second lock hole B can allow the lock pin 233 to pass through, so as to be matched with the first lock hole a to directly fix the helmet 1.

Preferably, the lock groove 221 in this embodiment may be disposed at a connection position of the container wall 22 and the shared bicycle body, such as a handlebar, a handlebar stand or a seat post (a connection region of a seat and a bicycle body). At this moment, the opening of the lock groove 221 is tightly attached to the vehicle body, so that the lock 23 is protected by the vehicle body and the lock groove 221, and the lock 23 placed in the lock groove is prevented from being stolen. Meanwhile, the situation that snow water flows into the lock groove 221 in rainy and snowy weather is avoided to a certain extent.

In some embodiments, the container bottom 21 includes a plurality of support stages 211, and the plurality of support stages 211 are respectively disposed at both sides of the second positioning boss 21 b. Helmet 1 need fix when wearing, and the rider can use the size of adjusting band regulation helmet 1 inner wall according to the head circumference of oneself this moment to utilize the rope of preventing wind to fix at the head. When the helmet 1 is put into the storage container 2, accessories such as an adjusting band and a wind-proof rope of the helmet 1 are located under the helmet 1 and thus stacked in an area between the helmet and the container bottom 21. Utilize brace table 211 in this embodiment, support the lower limb of helmet 1 for 21 has certain reservation space at the bottom of helmet 1 lower limb and the container, and the space of this reservation can hold accessories such as the regulation band of helmet 1 and wind-proof rope, avoids the accessory of helmet 1 to with helmet 1 lower limb jack-up, makes third lockhole C on the helmet 1 unable and first lockhole A and second lockhole B to adjust well. Meanwhile, the support table 211 is disposed on two sides of the second positioning boss 21b and has a certain interval with the second positioning boss 21b, so that the support table can be matched with the second positioning boss 21b to fix the shape of the lower edge of the helmet 1, and further position the helmet 1. The helmet 1 is prevented from shaking in the storage container 2.

Further, the first lock hole a is a blind hole or a through hole. The latch 233 may be configured to penetrate the protrusion 212 when the first latch hole a is a through hole in this embodiment. At this time, the length of the locking pin 233 may not be considered in the case where the first locking hole a is a blind hole and interferes with the side wall of the protrusion 212 because the locking pin 233 is too long.

As shown in fig. 4-5, the lock 23 further includes an identification module 231 and a detection module 232, the identification module 231 and the detection module 232 are disposed on one side of the locking pin 233, the detection module 232 is used for detecting whether the helmet is in place, and the identification module 231 is used for identifying the helmet identifier. In order to improve the automation level of the storage container 2, the lock 23 in this embodiment is configured with an identification module 231 and a detection module 232, the identification module 231 can detect the helmet identifier inside the helmet 1 to determine whether the storage container 2 is correspondingly configured to the helmet 1, and the detection module 232 can detect whether the helmet 1 is located at a predetermined position in the storage container 2.

Further, the detecting module 232 is a hall sensor, and the identifying module 231 is a radio frequency identifier. The Hall sensor indirectly judges whether the helmet is positioned at the designated position in the storage container 2 by monitoring the change condition of the magnetic flux. Radio Frequency Identification (Radio Frequency Identification, abbreviated as RFID in english) is one of automatic Identification technologies, and performs non-contact bidirectional data communication in a Radio Frequency manner, and reads and writes a recording medium (an electronic tag or a Radio Frequency card) in the Radio Frequency manner, thereby achieving the purposes of identifying a target and exchanging data. Whether the helmet 1 is matched with the storage container 2 or not can be judged through the radio frequency identifier.

The hall sensor and the rfid in the above embodiments may be operated in such a way that, taking the storage container 2 disposed on a shared bicycle as an example, in some embodiments, the helmet 1 is provided with a magnetic field generating component and a rfid tag cooperating with the hall sensor and the rfid. The Hall sensor and the radio frequency identifier are also connected with an electronic control unit of the shared bicycle. When a rider rents a car by scanning a code, the Hall sensor and/or the radio frequency identifier can judge whether the rider takes away the helmet or not, and then the rider can be reminded to wear the helmet through equipment such as an electronic control unit. After a rider rides the bicycle, the Hall sensor can judge whether the helmet 1 is placed back to the designated position, after the helmet 1 is placed to the designated position, the Hall sensor transmits an in-place instruction of the helmet 1 to the electronic control unit of the shared bicycle, the electronic control unit sends an instruction to the radio frequency identifier, and whether the placed helmet 1 is matched with the storage container 2 is further judged. When the detection is correct, the electronic control unit sends an instruction to the lock 23 to lock the helmet 1.

It is easy to understand that in this embodiment, before the rider returns the helmet 1, the rfid is in a standby state (the detection function is not turned on), and only after the hall sensor detects that the helmet 1 is placed back to the predetermined position, the electronic control unit controls the rfid to identify the helmet identifier, so as to save the power consumption caused by continuously turning on the rfid.

Fig. 10 is a front perspective schematic view of a helmet, as shown in fig. 4-10, in an alternative implementation, the storage container 2 in the above embodiment is further applied to a storage container assembly, the storage container assembly further includes a helmet 1, the helmet 1 includes a helmet top 12 and a helmet wall 11 surrounding the helmet top 12, the helmet wall 11 has an outer edge 111 facing away from the helmet top 12, and the outer edge 111 has a first positioning region 111a and a second positioning region 111b at different distances from the helmet top 12. The first positioning area 111a and the second positioning area 111b are respectively adapted to the first positioning boss 21a and the second positioning boss 21b to fix the helmet 1.

The article container assembly of this embodiment utilizes the first positioning projection 21a and the second positioning projection 21b to cooperate with the first positioning area 111a and the second positioning area 111b, respectively, so that the article container 2 is positioned to the helmet 1 placed therein. Therefore, when a rider places the helmet 1, the helmet 1 can be conveniently placed at the correct position to be locked, and the situation that the helmet 1 cannot be locked when being inverted is avoided. Meanwhile, the first positioning boss 21a and the second positioning boss 21b also play a certain fixing role in the helmet 1, so that the helmet 1 can be prevented from shaking.

Further, the first positioning area 111a is located on the front side of the helmet 1, and the second positioning area 111b is located on the rear side of the helmet 1. Wherein, the distance from the first positioning area 111a to the helmet top 12 is larger than the distance from the second positioning area 111b to the helmet top 12. In this embodiment, the lower edge of the second positioning region 111b is higher than the lower edge of the first positioning region 111a, and for this purpose, the height of the first positioning projection 21a associated therewith is lower than the height of the second positioning projection 21b, so that the helmet 1 can be placed in the storage container 2.

As shown in fig. 6 to 8, the first positioning region 111a is a smooth portion, and the second positioning region 111b is a recessed portion formed by the outer edge 111 being recessed toward the helmet top 12. The first positioning projection 21a in the above-mentioned embodiment is arranged along the container wall 22 and has a certain curvature, and the first positioning projection 21a in this form can cooperate with the smooth portion in this embodiment. Meanwhile, the second positioning bosses 21b and the supporting platforms 211 disposed on both sides of the second positioning bosses 21b in the above embodiment may be matched with the structures on both sides of the recessed portion, wherein the top surface of the second positioning bosses 21b may be supported on the top area of the recessed portion, the area where the top of the recessed portion is connected to the outer edge 111 is clamped on the side wall of the second positioning bosses 21b, and the outer edges 111 on both sides of the recessed portion are located on the top surface of the supporting platforms 211. Therefore, the helmet 1 is positioned in the horizontal direction, and the shaking of the helmet 1 is further avoided. Meanwhile, the configuration of the first positioning area 111a and the second positioning area 111b located at the front and the rear in this embodiment can make the helmet 1 more beautiful on the premise of meeting the positioning requirement of the helmet 1.

In some embodiments, the helmet wall 11 further has a third locking hole C, and the third locking hole C is a through hole. The helmet 1 is provided with a mark 13 on the outer surface, and the mark 13 is used for indicating the position of the third lock hole C. When the helmet 1 is placed in the storage container 2, a partial region of the helmet wall 11 is located in a region between the projection 212 and the lock groove 221 corresponding to the projection 212. The third locking hole C in this embodiment is provided in the area of the helmet wall 11, while the third locking hole C is arranged concentrically with the first locking hole a and the second locking hole B, so that the positioning of the helmet 1 is accomplished by means of the lock 23. The mark 13 indicating the position of the third locking hole C is arranged on the outer surface of the helmet 1 to prompt a rider of the locking position of the helmet 1, so that the rider can conveniently and quickly take and place the helmet 1.

In some embodiments, the helmet 1 has a triggering module 14 and an authentication module 15, the authentication module 15 storing a helmet identification. The triggering module 14 and the authentication module 15 in this embodiment can be matched with the identification module 231 and the detection module 232 arranged in the lock 23 in the above embodiment to determine whether the helmet 1 is put in place and identify whether the helmet 1 is matched with the storage container 2. For this purpose, the positions of the triggering module 14 and the authentication module 15 can be configured to correspond to the positions of the detection module 232 and the identification module 231, respectively, when the helmet 1 is placed in the storage container 2. Specifically, the triggering module 14 and the authentication module 15 may be disposed on the helmet wall 11 and between the third locking hole C and the outer edge 111.

Further, the trigger module 14 is a magnetic member, and the authentication module 15 is a radio frequency identification tag. The magnetic member and the rfid tag in this embodiment can be used in cooperation with the hall sensor and the rfid in the storage container 2 of the above embodiment to determine the matching relationship between the helmet 1 and the storage container 2 according to the magnetic field strength change information and the rfid information.

Specifically, when the hall sensor detects that the magnetic flux gradually decreases to a certain value, it can be judged that the helmet 1 has been taken out of the storage container 2. After the user rides, place helmet 1 in putting thing container 2 after, when hall sensor detected the magnetic flux and increased to certain value gradually, can judge that helmet 1 has been placed in place. The radio frequency identifier starts to read the radio frequency identification tag of the helmet 1, the electronic control unit of the shared bicycle judges whether the helmet 1 is placed in the storage container 2 correctly or not according to the signal of the radio frequency identifier, and controls the lock 23 to lock the helmet 1 when the correct helmet 1 is judged to be placed in place, so that the helmet 1 is prevented from being stolen.

In an alternative implementation, the storage container 2 in the above embodiment may be applied to a vehicle including a vehicle body and the storage container 2 disposed on the vehicle body. The storage container 2 of the present embodiment positions the helmet 1 placed therein by using the first positioning bosses 21a and the second positioning bosses 21b provided on the container bottom 21 and having different heights. Therefore, when a rider places the helmet 1, the helmet 1 can be conveniently placed at the correct position to be locked, and the situation that the helmet 1 cannot be locked when being inverted is avoided. Meanwhile, the first positioning boss 21a and the second positioning boss 21b also play a certain fixing role in the helmet 1, so that the helmet 1 can be prevented from shaking.

In another alternative implementation, the storage container assembly in the above embodiments may also be applied to a vehicle, which includes a vehicle body and a storage container assembly disposed on the vehicle body. The article container assembly of this embodiment utilizes the first positioning projection 21a and the second positioning projection 21b to cooperate with the first positioning area 111a and the second positioning area 111b, so that the article container 2 is positioned to the helmet 1 placed therein. Therefore, when a rider places the helmet 1, the helmet 1 can be conveniently placed at the correct position to be locked, and the situation that the helmet 1 cannot be locked when being inverted is avoided. Meanwhile, the first positioning boss 21a and the second positioning boss 21b also play a certain fixing role in the helmet 1, so that the helmet 1 can be prevented from shaking.

It is easily understood that the vehicles in the above two embodiments include, but are not limited to, vehicles such as two-wheel vehicles or three-wheel vehicles. The driving mode of the vehicle includes, but is not limited to, a manual driving mode, an electric driving mode or an internal combustion engine driving mode. Taking the shared bicycle as an example, the lock groove 221 in the storage container 2 and the storage container assembly in the above embodiments may be disposed at a connection position of the storage container 2 and the storage container assembly with the shared bicycle body, for example, a position such as a handlebar, a stand, or a seat post (a connection region of a seat and a vehicle body). At this moment, the opening of the lock groove 221 is tightly attached to the vehicle body, so that the lock 23 is protected by the vehicle body and the lock groove 221, and the lock 23 placed in the lock groove is prevented from being stolen. Meanwhile, the situation that snow water flows into the lock groove 221 in rainy and snowy weather is avoided to a certain extent.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (16)

1. A storage container, comprising:

a container wall (22); and

a container bottom (21) arranged at one end of the container wall (22), wherein the container bottom (21) is provided with a first positioning boss (21a) and a second positioning boss (21b) opposite to the first positioning boss (21 a);

the first positioning boss (21a) and the second positioning boss (21b) are different in height, and the first positioning boss (21a) and the second positioning boss (21b) are respectively in positioning fit with the front side structure and the rear side structure of the helmet correspondingly.

2. The storage container of claim 1, wherein the container bottom (21) comprises: and the supporting platforms (211), wherein the supporting platforms (211) are respectively arranged at two sides of the second positioning boss (21 b).

3. The storage container of claim 1, wherein the container bottom (21) further comprises: a protrusion (212) disposed between the first positioning boss (21a) and the second positioning boss (21b), the protrusion (212) having a first locking hole (A) opening toward the container wall (22).

4. The storage container according to claim 3, wherein the container wall (22) comprises a lock groove (221), the lock groove (221) being formed by a side of the container wall (22) being recessed towards an interior of the storage container, the lock groove (221) being disposed opposite the protrusion (212) and having a second locking hole (B) concentric with the first locking hole (A).

5. The storage container according to claim 4, wherein the storage container (2) further comprises a lock (23) disposed in the lock slot (221), the lock (23) having a telescopically movable locking pin (233), the locking pin (233) configured to be inserted through the second locking hole (B) and into the first locking hole (A).

6. The storage container as claimed in claim 3, wherein the first locking hole (A) is a blind hole or a through hole.

7. The storage container according to claim 5, wherein the lock (23) comprises an identification module (231) and a detection module (232), the identification module (231) and the detection module (232) are disposed on a side of the lock (23) near the protrusion (212), the detection module (232) is used for detecting whether the helmet (1) is in place, and the identification module (231) is used for identifying a helmet identification.

8. The storage container of claim 7, wherein the detection module (232) is a hall sensor and the identification module (231) is a radio frequency identifier.

9. A storage container assembly, the storage container assembly comprising:

a storage container as defined in any one of claims 1-8; and

a helmet (1) comprising a helmet top (12) and a helmet wall (11) surrounding the helmet top (12), the helmet wall (11) having an outer edge (111) arranged in a direction away from the helmet top (12), the outer edge (111) having a first positioning region (111a) and a second positioning region (111b) at different distances from the helmet top (12);

wherein the first positioning area (111a) and the second positioning area (111b) are adapted to the first positioning boss (21a) and the second positioning boss (21b), respectively, for fixing the helmet (1).

10. The storage container assembly of claim 9, wherein the first positioning region (111a) is located on a front side of the helmet (1) and the second positioning region (111b) is located on a rear side of the helmet (1);

wherein the distance of the first positioning area (111a) to the helmet top (12) is greater than the distance of the second positioning area (111b) to the helmet top (12).

11. The storage container assembly of claim 9, wherein the first positioning region (111a) is smooth and the second positioning region (111b) is a recess formed by the outer edge (111) that is concave in a direction toward the helmet top (12).

12. The storage container assembly of claim 9, wherein the helmet wall (11) further comprises a third locking hole (C), the third locking hole (C) being a through hole;

the outer surface of the helmet (1) is provided with a mark (13), and the mark (13) is used for indicating the position of the third lock hole (C).

13. The storage container assembly according to claim 9, characterized in that the helmet (1) has a triggering module (14) and an authentication module (15), the authentication module (15) storing a helmet identification.

14. The storage container assembly of claim 13, wherein the triggering module (14) is a magnetic member and the authentication module (15) is a radio frequency identification tag.

15. A vehicle, comprising:

the storage container (2) according to any one of claims 1 to 8;

the storage container (2) is arranged on the vehicle body.

16. A vehicle, comprising:

the storage container assembly of any of claims 9-14;

the storage container assembly is arranged on the vehicle body.

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