CN215944770U - Helmet positioning piece, helmet accommodating assembly and two-wheeled vehicle - Google Patents

Abstract

The embodiment of the utility model discloses a helmet positioning piece, a helmet accommodating component and a two-wheeled vehicle. Through setting up helmet setting element and putting the thing container and be connected, can carry out better location and fixed to the helmet, when reducing the helmet and place and the gap between helmet edge and the exterior structure, prevent that other people from taking out the helmet through stretching into the helmet edge with hand or instrument and putting the gap between the thing container to can make helmet tool to lock realize effectual locking to the helmet, promote the theftproof effect of helmet.

Description

Helmet positioning piece, helmet accommodating assembly and two-wheeled vehicle

Technical Field

The utility model relates to the technical field of vehicle accessories, in particular to a helmet positioning piece, a helmet accommodating component and a two-wheeled vehicle.

Background

When riding vehicles such as motorcycles, electric vehicles, bicycles, and the like, the helmet needs to be worn to ensure safety. When the user is not riding, the user needs to take off the helmet and place the helmet in a certain position, such as a basket, a helmet box, and other storage containers. In order to prevent the helmet from being stolen or used by others without permission, a helmet lock is required to be arranged to lock the helmet in a non-wearing state.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model aims to provide a helmet positioning piece, a helmet accommodating component and a two-wheeled vehicle, which can realize good positioning and locking of a helmet.

In a first aspect, an embodiment of the present invention provides a helmet positioning piece for being disposed in a storage container, an upper surface of the helmet positioning piece has a shielding wing and a helmet receiving groove recessed downward, the shielding wing extends outward from an edge of the helmet receiving groove, a contour of the helmet receiving groove matches an outer contour of a helmet, and an edge of the shielding wing is configured to be opposite to an inner wall of the storage container.

In some embodiments, the helmet positioning piece further has a protrusion, and the protrusion is protruded in the helmet receiving groove and has a gap with the sidewall of the helmet receiving groove.

In some embodiments, the protrusion has a lock receiving groove recessed upward, the lock receiving groove is used for receiving a helmet lock, the protrusion has at least one locking piece through hole, the locking piece through hole communicates the helmet receiving groove and the lock receiving groove, and the locking piece through hole is configured to allow a locking piece of the helmet lock to pass out.

In some embodiments, the bottom of the helmet receiving groove has an avoiding structure corresponding to the rear of the helmet, and the avoiding structure is configured to receive a belt of the helmet.

In some embodiments, the shield wing has at least one maintenance-removal hole.

In some embodiments, the helmet spacer further has at least one first connecting structure for connecting with the storage container.

In some embodiments, the first connecting structure includes a plurality of connecting holes, and the connecting holes are disposed at the bottom of the helmet receiving groove.

The sidewall of the helmet-receiving groove also has at least one protruding locating block configured to contact an outer surface of the helmet.

In some embodiments, the helmet spacer is a one-piece thin-walled structure.

In a second aspect, embodiments of the present invention further provide a helmet accommodating assembly, which includes an accommodating container and the helmet positioning piece according to the first aspect, where the helmet positioning piece is disposed in the accommodating container.

In some embodiments, a lock receiving space is formed between the storage container and the helmet positioning member, and the lock receiving space is used for receiving a helmet lock.

In some embodiments, a wire passing space is further arranged between the storage container and the helmet positioning piece, the storage container is provided with a wire passing hole, and the wire passing space is communicated with the wire passing hole and the lock accommodating space.

In some embodiments, the helmet housing assembly further has a container fixing structure for fixing the helmet housing assembly, and the wire passing hole is disposed near the container fixing structure.

In a third aspect, the embodiment of the present invention further provides a two-wheeled vehicle, which includes a two-wheeled vehicle main body and the helmet accommodating assembly as described in the second aspect, where the helmet accommodating assembly is connected to the two-wheeled vehicle main body.

In some embodiments, the two-wheeled vehicle further comprises a helmet lock and a vehicle central control; the helmet lock is fixedly connected with the helmet accommodating component; the vehicle central control is electrically connected with the helmet lock.

The embodiment of the utility model provides a helmet positioning piece, a helmet accommodating component and a two-wheeled vehicle. Through setting up helmet setting element and putting the thing container and be connected, can carry out better location and fixed to the helmet, when reducing the helmet and place and the gap between helmet edge and the exterior structure, prevent that other people from taking out the helmet through stretching into the helmet edge with hand or instrument and putting the gap between the thing container to can make helmet tool to lock realize effectual locking to the helmet, promote the theftproof effect of 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 perspective view of a positioning member for a helmet according to an embodiment of the present invention;

FIG. 2 is a top view of a helmet spacer in accordance with an embodiment of the present invention;

figure 3 is a cross-sectional view taken along plane a-a of a helmet spacer in accordance with an embodiment of the present invention;

fig. 4 is a schematic perspective view of a helmet receiving assembly according to an embodiment of the present invention;

fig. 5 is an exploded view of a helmet receiving assembly according to an embodiment of the present invention;

fig. 6 is a front view of a helmet receiving assembly of an embodiment of the present invention;

fig. 7 is a rear view of a helmet receiving assembly of an embodiment of the present invention;

fig. 8 is a left side view of a helmet receiving assembly of an embodiment of the present invention;

fig. 9 is a top view of a helmet receiving assembly of an embodiment of the present invention;

fig. 10 is a bottom view of a helmet receiving assembly of an embodiment of the present invention;

fig. 11 is a schematic view of a helmet placed in a helmet receiving assembly according to an embodiment of the present invention;

fig. 12 is a schematic structural view of a two-wheeled vehicle according to an embodiment of the present invention.

Description of reference numerals:

r-helmet containment assembly;

100-helmet spacer; 110-a shield wing; 111-maintenance removal holes; 120-helmet receiving groove; 121-an avoidance structure; 122-a support table; 123-positioning blocks; 130-a boss; 131-a lock-receiving groove; 132-the locking element is perforated; 140-a first connecting structure;

200-a storage container; 210-a wire through hole; 220-a second connecting structure; 230-a container securing structure; 240-a lock securing structure; 250-drain hole.

300-two-wheeled vehicle body;

400-helmet.

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.

Spatially relative terms, such as "inner," "outer," "below," "lower," "above," "upper," and the like, are used herein for ease of description to describe one element or feature's relationship to another element or feature as illustrated in the figures. The device may be otherwise oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Fig. 1-3 are a schematic perspective view, a top view and a cross-sectional view of a helmet spacer according to an embodiment of the present invention. Wherein figure 3 is a cross-sectional view of the helmet spacer taken along the plane a-a in figure 2.

Referring to fig. 1 to 3, the helmet spacer 100 has a shielding wing 110 and a helmet receiving groove 120 recessed downward on an upper surface thereof. The helmet receiving groove 120 is disposed in the middle of the helmet positioning member 100, and the shielding wing 110 extends outward from the edge of the helmet receiving groove 120. The helmet receiving groove 120 has a contour matching the outer contour of the helmet for receiving and positioning the helmet. When the helmet is placed in the helmet receiving groove 120, the clearance between the outer surface of the helmet and the side wall of the helmet receiving groove 120 is small, and the helmet can be well fixed.

The helmet spacer 100 can be applied in various scenes to fix a helmet. In one embodiment, the helmet spacer 100 may be disposed in a storage container, such as a box, a basket, or the like. In another embodiment, the helmet spacer 100 can also be used for storage and transportation of helmets, for example, a helmet is placed in the helmet spacer 100 and then a plurality of helmets are stacked.

Fig. 4-10 are a perspective view, an exploded view, a front view, a rear view, a left side view, a top view and a bottom view of a helmet receiving assembly according to an embodiment of the present invention. Figure 11 is a schematic view of a helmet being placed into a helmet spacer.

Referring to fig. 4-11, the helmet receiving assembly 100 can be placed in a storage container 200 to constitute the helmet receiving assembly. The present disclosure takes the helmet spacer 100 placed in the storage container 200 as an example, and the structure of the helmet spacer 100 will be described with reference to fig. 1 to 11.

Referring to fig. 1 to 5 and fig. 9 and 11, the outer contour of the blocking wing 110 can match with the shape of the corresponding storage container 200, so that the helmet positioning member 100 can be positioned in the storage container 200 well, and the occurrence of shaking can be avoided. For example, when the storage space inside the storage container 200 is rectangular, the outer shape of the helmet spacer 100 is rectangular. In some embodiments, the outer edge of the shielding wing 110 contacts the storage container 200 or has a small gap, so as to fix the helmet positioning member 100, and prevent others from extending a tool into the gap between the helmet positioning member 100 and the sidewall of the storage container 200 to damage the helmet positioning member 100. Meanwhile, a certain height is formed between the shielding wing 110 and the bottom of the storage container 200, so that a certain space can be formed, the space can be used for arranging other components or structures, such as cables, and meanwhile, the shielding wing 110 can shield and hide the other components or structures arranged below the helmet positioning piece 100, so that a protection effect is achieved. The shielding wing 110 extends from the edge of the helmet receiving groove 120 to a direction away from the centerline of the helmet receiving groove 120, and may extend along a horizontal plane or along an inclined plane or a curved plane.

In one embodiment, referring to fig. 1 to 5 and fig. 9 and 11, the helmet spacer 100 has a size similar to that of the helmet 400, and the helmet receiving grooves 120 are formed near the edge of the helmet spacer 100 corresponding to the front, rear, left, and right ends of the helmet 400. The outer profile of the helmet spacer 100 is substantially rectangular, and the helmet receiving groove 120 is approximately elliptical, which is approximately tangential to the rectangle. Thus, the blocking wings 110 of the outer circumference of the helmet receiving groove 120 are approximately four triangles. The shielding wings 110 have a certain upward inclined angle when extending outward from the helmet accommodating groove 120, so as to play a certain guiding role, and facilitate placing the helmet positioning member 100 into the storage container 200 from top to bottom. The size of the helmet spacer 100 is matched with the size of the inner space of the storage container 200, and when the helmet spacer 100 is loaded into the storage container 200, the shielding wings 110 can contact the inner wall of the storage container 200. When the helmet spacer 100 moves upward relative to the storage container 200, the shielding wing 110 may be fixed by a resistance between the shielding wing 110 and the inner wall of the storage container 200.

In some embodiments, referring to fig. 1-5, the blocking wing 110 has at least one maintenance-removal hole 111 therein to facilitate separation of the helmet spacer 100 from the storage container 200. When the shielding wings 110 are tightly fitted to the inner wall of the storage container 200, the resistance between the shielding wings 110 and the storage container 200 is large, which makes it inconvenient to take out the helmet spacer 100 from the storage container 200. Through setting up and maintaining the dismantlement hole 111, when dismantling helmet setting element 100, can stretch into instrument or finger and maintain in the dismantlement hole 111, be convenient for carry and pull helmet setting element 100 to take out helmet setting element 100 from putting thing container 200. The number, shape and position of the maintenance removing holes 111 may be set according to the needs of the actual application. For example, in the present embodiment, referring to fig. 5, the outer contour of the helmet spacer 100 is substantially rectangular, and the shielding wing 110 has four sets of maintenance removing holes 111, and the four sets of maintenance removing holes 111 are respectively disposed at positions close to four corners of the helmet spacer 100; each set of the maintenance-removal holes 111 includes two. When the helmet spacer 100 is disassembled, the hook-shaped tool may be inserted into one maintenance-disassembling hole 111 and then inserted out of the other maintenance-disassembling hole 111, and then the helmet spacer 100 may be lifted.

The bottom of the helmet receiving groove 120 may be shaped to match the shape of the corresponding portion of the helmet 400 according to a predetermined posture in which the helmet 400 is placed in the helmet spacer 100. In some application scenarios, referring to fig. 11, the helmet 400 is placed in the helmet spacer 100 with the opening facing downward, which can prevent the inside of the helmet 400 from being contaminated, and improve the hygiene level of the helmet 400. Accordingly, the shape of the bottom surface of the helmet receiving groove 120 matches the shape of the bottom of the helmet 400, so that the helmet 400 can be smoothly placed in the helmet receiving groove 120.

In some embodiments, the helmet positioning member 100 further has a protrusion 130, and the protrusion 130 protrudes upward from the helmet receiving groove 120 and has a gap with the sidewall of the helmet receiving groove 120. That is, the helmet receiving groove 120 has a raised portion therein, forming the protrusion 130. When the helmet 400 is placed in the helmet receiving groove 120 in a downward-opening posture, the protrusion 130 is located at the inner side of the helmet 400. The shape of the protrusions 130 may be adapted to the shape of the inside surface of the helmet 400, e.g. having a corresponding concave-convex shape. The width of the clearance between the protruding part 130 and the helmet accommodating groove 120 matches with the thickness of the helmet 400, and therefore, the protruding part 130 can be matched with the side wall of the helmet accommodating groove 120 to fix the helmet 400, and the shaking of the helmet 400 in the helmet accommodating groove 120 is reduced.

In some application scenarios, the helmet 400 can be locked in the helmet positioning member 100 by providing a helmet lock, so as to achieve the fixing and theft prevention of the helmet 400. The helmet lock has a locking member for locking in connection with a corresponding structure on the helmet 400. In this application scenario, the helmet lock may be disposed at any position convenient for locking the helmet 400, may be disposed at an outer side of the helmet positioning member 100, and may also be disposed at an inner side of the helmet positioning member 100. According to the arrangement position of the helmet lock and the locking manner of the helmet 400, the helmet positioning member 100 may be provided with a corresponding structure, so that the helmet lock and the locking member of the helmet lock extend into the helmet receiving groove 120 to be connected and locked with the helmet 400. For example, in one application scenario, the helmet 400 has a locking hole, and the locking element of the helmet lock has a locking pin, and when the helmet 400 is placed in the helmet receiving groove 120, the locking pin can extend into the locking hole of the helmet 400, so as to lock the helmet 400. Because the profile of the helmet accommodating groove 120 matches with the profile of the helmet 400, when the helmet 400 is placed in the helmet accommodating groove 120, the gap between the helmet and the sidewall of the helmet accommodating groove 120 is very small (refer to fig. 11), which can prevent the helmet 400 from being taken away by other people by inserting tools or hands into the gap to pry the helmet 400 or destroy the lockset, thereby being capable of preventing other people from taking the helmet 400 without permission.

In some embodiments, the protrusion 130 has a lock-receiving groove 131 recessed upward, and the lock-receiving groove 131 is formed on the lower surface of the helmet positioning member 100. That is, the lower surface of the helmet spacer 100 is recessed upward to form the lock receiving groove 131, and the upper surface of the helmet spacer 100 corresponding to the lock receiving groove 131 is protruded in the helmet receiving groove 120, so as to form the protrusion 130. The shape of tool to lock holding tank 131 and the shape phase-match of helmet tool to lock, tool to lock holding tank 131 can hold helmet tool to lock and fix a position helmet tool to lock. Helmet tool to lock sets up in tool to lock holding tank 131, and helmet setting element 100 can play the guard action to the helmet tool to lock, avoids the helmet tool to lock to be destroyed. The protrusion 130 is provided with at least one locking piece through hole 132, and the locking piece through hole 132 is communicated with the lock receiving groove 131 and the helmet receiving groove 120, so that the locking piece of the helmet lock can penetrate out of the protrusion 130 and be connected with the helmet 400 placed in the helmet receiving groove 120.

The location and number of the locking member perforations 132 are set according to the location and number of the locking members of the helmet lock. The locking member perforation 132 may be provided on the top wall, side wall or other location of the boss 130 depending on where the locking member of the helmet lock is provided. In some embodiments, the protrusion 130 has two locking member through holes 132, and the two locking member through holes 132 are respectively disposed on two opposite sidewalls of the protrusion 130. Helmet tool to lock can wear out the perforated 132 of locking piece that corresponds respectively through two locking pieces, is connected with the both sides of helmet 400 respectively, can lock helmet 400 more stably, prevents that other people from taking out helmet 400 through drawing the mode such as dragging, prizing, avoids helmet 400 to be stolen or used without permission. In one embodiment, the two locking member penetration holes 132 are located at positions corresponding to left and right sides of the helmet 400, respectively, and the two locking member penetration holes 132 extend in the same axial direction. Because the length of the helmet 400 in the left-right direction is less than the length of the helmet 400 in the front-back direction, the helmet positioning piece 100 and the corresponding helmet lock can be more compact by fixing the helmet 400 from the left side and the right side.

In some embodiments, the helmet lock can be disposed on the outer side of the helmet positioning member 100, and the sidewall of the helmet receiving groove 120 can have a corresponding through hole 132 for the locking member. The locking piece of the helmet locker may protrude into the helmet receiving groove 120 from the outside of the helmet receiving groove 120 through the locking piece penetration hole 132 to lock the helmet 400. In one embodiment, the sidewall of the helmet-receiving groove 120 has two or more locking piece penetrating holes 132 spaced apart, so that the helmet 400 in the helmet-receiving groove 120 can be coupled and locked by a plurality of locking pieces from different directions.

In some embodiments, the protrusion 130 may be sized to correspond to the entire inside area of the helmet 400, or may correspond to a portion of the inside area of the helmet 400. In some embodiments, the location of the protrusions 130 corresponds to a front region of the helmet 400. The bottom of the helmet accommodating groove 120 is provided with an avoiding structure 121, the avoiding structure 121 corresponds to the rear portion of the helmet 400, and the avoiding structure 121 is used for accommodating a belt of the helmet 400. When the helmet 400 is placed in the helmet receiving groove 120, the avoiding structure 121 can provide a sufficient space for receiving the belt of the helmet 400, so as to prevent the belt from being clamped between the bottom of the helmet 400 and the bottom of the helmet receiving groove 120 to jack up the helmet 400 when the helmet 400 is placed in the helmet receiving groove 120, and thus the locking structure on the helmet 400 cannot be aligned with the locking piece through hole 132. In one embodiment, the helmet receiving groove 120 has a support platform 122 corresponding to the rear portion of the helmet 400, the support platform 122 can support the rear portion of the helmet 400, and the area between the support platform 122 and the protrusion 130 has a space recessed downward to form the avoiding structure 121. When the helmet 400 is placed in the helmet accommodating groove 120, the corresponding part of the helmet accommodating groove 120 and the front part of the helmet 400 and the supporting platform 122 respectively support the helmet 400 from the front and the back, so that a space with a certain height is formed between the avoiding structure 121 and the corresponding area of the lower end of the helmet 400 for accommodating the strap.

In some embodiments, the helmet spacer 100 further has at least one first connecting structure 140, and the first connecting structure 140 is used to fix the helmet spacer 100 at a predetermined position or connect with other devices, such as the storage container 200. The first connecting structure 140 may be any structure capable of fixing the helmet spacer 100, including but not limited to a snap, a slot, a magnetic device, a strap, a hole, a thread, an adhesive layer, etc. The specific form of the first connecting structure 140 can be selected accordingly according to the structure of the device to which the helmet spacer 100 is to be connected.

The first connecting structure 140 can be detachably connected to the corresponding storage container 200, thereby facilitating subsequent maintenance. In some embodiments, the first connecting structure 140 includes a plurality of connecting holes, and the helmet spacer 100 may be connected to the first connecting structure 140 by a corresponding fastener such as a screw, a bolt, a pin, etc. to fix the helmet spacer 100 at a predetermined position. The connecting hole can be a blind hole or a through hole. In one embodiment, the attachment hole is a blind threaded hole, so that the helmet spacer 100 can be fixed by screwing a screw into the attachment hole after passing through the storage container 200. In another connection mode, the connection hole is a through hole, and a corresponding fastener (e.g., a bolt, a pin, etc.) may be inserted through the connection hole and then connected to the storage container 200.

The coupling hole may be provided at the bottom of the helmet receiving groove 120 to facilitate the disposition of the helmet spacer 100. Meanwhile, when the helmet 400 is placed in the helmet accommodating groove 120, the helmet 400 can shield the connecting hole, and the helmet 400 can protect the connecting hole to prevent the helmet positioning member 100 from being detached. Of course, the connection holes may be disposed at other positions, for example, on the side wall of the helmet receiving groove 120, according to the requirements of different application scenarios. The plurality of connecting holes are spaced at a certain distance. The number and the distribution mode of the connecting holes may be set according to an application scenario, for example, referring to fig. 2, in this embodiment, the number of the connecting holes is four, the four connecting holes are respectively disposed on four vertices of a quadrangle, the four connecting holes are symmetrically disposed corresponding to a middle plane of the helmet receiving groove 120, and the four connecting holes are close to an edge of the helmet receiving groove 120, so that the helmet positioning member 100 may be well fixed.

In some embodiments, the sidewall of the helmet-receiving groove 120 further has one or more protruding positioning blocks 123, and the positioning blocks 123 are configured to contact with the outer surface of the helmet 400 to clamp the helmet 400, increase the friction between the helmet 400 and the surface of the helmet 400, prevent the helmet 400 from shaking in the helmet-receiving groove 120, and facilitate the alignment of the locking holes of the helmet 400 with the locking elements of the lock. In one embodiment, the positioning block 123 is a plurality of positioning blocks 123, and the plurality of positioning blocks 123 are spaced apart and are respectively configured to be positioned in contact with different areas of the surface of the helmet 400. Compared with the mode that the side walls of the helmet receiving groove 120 are fixedly contacted with the whole outer surface of the helmet 400, the helmet 400 can be conveniently put in and taken out by arranging one or more positioning blocks 123 to be contacted with partial areas of the helmet 400, and the problem that the helmet 400 is difficult to take out due to the fact that the helmet 400 is pressed tightly with the side walls of the helmet receiving groove 120 is avoided.

The lateral wall of the helmet accommodating groove 120 can have a certain inclination angle, that is, the helmet accommodating groove 120 is gradually increased from bottom to top, so that the helmet 400 can be placed in a certain guiding manner. When the helmet 400 is placed on the helmet spacer 100, it can fall down to the bottom of the helmet receiving groove 120 along the inclined surface of the helmet receiving groove 120.

The helmet spacer 100 may be an integral structure, which may improve the overall strength of the helmet spacer 100. In one embodiment, the helmet positioning member 100 may be made of plastic, and the helmet positioning member 100 may be formed as an integral thin-wall structure by injection molding, which not only ensures the strength of the helmet positioning member 100, but also facilitates manufacturing. The fixed wing can set up certain quantity of strengthening rib between the lateral wall that the fixed wing corresponds to helmet holding tank 120 with helmet setting element 100 to improve helmet setting element 100's bulk strength, the strengthening rib can play certain supporting role in the bottom and/or the lateral wall contact of putting thing container 200 simultaneously.

The disclosed embodiment also provides a helmet accommodation assembly. As described above, the helmet spacer 100 in at least some embodiments of the present disclosure may be disposed in a storage container 200 for receiving and/or locking a helmet.

Referring to fig. 4-11, the helmet receiving assembly R includes a receiving container 200 and a helmet spacer 100. The helmet spacer 100 is disposed in the storage container 200, and the shielding wings 110 of the helmet spacer 100 extend toward the inner wall of the storage container 200. The depth of the storage container 200 is greater than the height of the helmet spacer 100, and the storage container 200 can support and protect the helmet spacer 100. Meanwhile, the depth of the storage container 200 can be designed according to the height of the helmet 400 when the helmet positioning piece 100 is placed, and when the helmet 400 is placed in the helmet accommodating component R, the storage container 200 can play a certain protection role on the helmet 400 and provide enough accommodating space for the helmet 400.

The shape of the storage container 200 may be arbitrarily set according to the requirement, and for example, may be set to be a cylinder, a rectangular parallelepiped, a hemisphere or other shapes. In some embodiments, the storage container 200 includes a front side wall, a rear side wall, a left side wall, a right side wall, and a bottom wall, wherein the front side wall and the rear side wall are disposed opposite to each other, the left side wall and the right side wall are disposed opposite to each other, and the bottom wall is connected to the front side wall, the rear side wall, the left side wall, and the right side wall, so that the storage container 200 forms the storage container 200 with an upper end opened, and the helmet 400 can be placed into the helmet receiving assembly R through the opening. According to the needs of practical application scenarios, the helmet accommodating component R may further include a cover plate adapted to the storage container 200, and the cover plate is hinged to the storage container 200 and can be opened and closed.

Referring to the above description of the helmet spacer 100, in some embodiments, the helmet spacer 100 has a first connecting structure 140, and the storage container 200 has a second connecting structure 220 corresponding to the first connecting structure 140. The helmet spacer 100 and the storage container 200 may be connected by the first and second connecting structures 140 and 220, thereby securing the helmet spacer 100 in the storage container 200. The second connection structure 220 corresponds in position to the first connection structure 140. The specific form of the second connection structure 220 is selected according to different connection modes and the form of the first connection structure 140, for example, when the first connection structure 140 is a connection hole, the second connection structure 220 may also be a corresponding hole, and the first connection structure 140 and the second connection structure 220 may be connected by a fastener such as a screw.

With reference to the above description of the helmet spacer 100, in some application scenarios, a helmet lock may be provided to lock the helmet 400 placed in the helmet receiving assembly R. According to the needs of practical application scenarios, the helmet lock can be disposed inside the helmet accommodating groove 120, outside the storage container 200, between the storage container 200 and the helmet positioning member 100, or in other positions suitable for disposing the helmet lock.

In some embodiments, a lock receiving space is provided between the storage container 200 and the helmet spacer 100, and the lock receiving space is used for receiving a helmet lock. In one embodiment, the bottom of the storage container 200 is substantially closed, and the helmet spacer 100 has a lock-receiving slot 131 (see FIG. 3 and the above description relating to the lock-receiving slot 131), such that a lock-receiving space capable of receiving a helmet lock is formed between the lock-receiving slot 131 and the bottom of the storage container 200. The storage container 200 and/or the lock receiving groove 131 have a lock fixing structure therein for positioning and fixing a helmet lock. For example, referring to FIG. 5, the bottom of the storage container 200 has a latch securing structure 240. During installation, the helmet lock is placed at a corresponding position in the storage container 200 and fixed with the lock fixing structure 240, and then the helmet positioning piece 100 is connected with the storage container 200, so that the helmet lock is fixed in a lock accommodating space between the storage container 200 and the helmet positioning piece 100. The helmet positioning piece 100 and the storage container 200 can well protect the helmet lock, and the helmet lock is prevented from being damaged. In another embodiment, a lock receiving space is formed between the helmet spacer 100 and the storage container 200 below the shielding wing 110, and the helmet lock is disposed outside the helmet receiving groove 120.

In some embodiments, a wire passing space is further provided between the storage container 200 and the helmet positioning member 100, the storage container 200 has a wire passing hole 210, and the wire passing space communicates with the wire passing hole 210 and the lock accommodating space. The wire through hole 210 and the wire through space are used for the cable to pass through. When the helmet lock is an electric lock, a power line and/or a signal line of the helmet lock can be led out of the helmet accommodating component R through the line passing space and the line passing hole 210 and connected with other devices (such as a battery, a controller and the like). In one embodiment, the wire passing hole 210 is disposed below the shielding wing 110 of the helmet spacer 100, and the helmet spacer 100 can hide and protect the cable.

In some embodiments, the helmet receiving assembly R may be fixedly connected to other structures, such as a table, a wall, a vehicle, or other locations. The helmet accommodating component R has a container fixing structure 230, and the container fixing structure 230 is used for fixing the helmet accommodating component R. The position of the container fixing structure 230 may be designed according to the position of the helmet receiving assembly R. In some embodiments, the helmet receiving assembly R is disposed at the front of the vehicle, and the container fixing structure 230 may be disposed at the rear of the helmet receiving assembly R. The container securing structure 230 may take any form that facilitates installation, and optionally the container securing structure 230 is adapted to removably connect the helmet receiving assembly R with other structures. In one embodiment, the container fixing structure 230 is a fixing hole, whereby the helmet receiving assembly R can be fixed at a predetermined position by a fastening member such as a bolt.

Further, in some embodiments, the wire hole 210 is disposed near the container fixing structure 230, so as to shield and protect the cable. In one embodiment, referring to fig. 7, the container fixing structure 230 includes four fixing holes distributed at four top corners of the trapezoid, and the wire passing hole 210 is disposed between two waists of the trapezoid and near an area of the trapezoid. Taking the helmet accommodating component R as a bicycle basket as an example, the helmet accommodating component R is arranged at the front part of the two-wheeled vehicle and is fixedly connected with a corresponding taking and paying structure on the two-wheeled vehicle through fasteners such as bolts and the like. After the cable of the helmet lock penetrates out of the wire through hole 210, the cable can be arranged along the surface of the frame of the two-wheeled vehicle or can be led into the frame, so that the cable can be well hidden and protected.

When the helmet accommodating component R is applied to outdoor scenes, the sidewall of the storage container 200 may further be provided with a plurality of drainage holes 250, so that rainwater is conveniently drained and prevented from being accumulated in the helmet accommodating component R.

The helmet accommodating assembly R of the present disclosure may be applied in various scenes related to the placement of a helmet, for example, in the storage, transportation, selling, leasing, display, and the like of a helmet. Optionally, the helmet receiving assembly R of the present disclosure may be applied to a vehicle for a user to place and lock a helmet in a non-riding state. Further alternatively, the helmet receiving assembly R may be applied to a two-wheeled vehicle. In the present disclosure, two-wheeled vehicles include, but are not limited to, bicycles, electric bicycles, motorcycles, and other two-wheeled non-motor vehicles or two-wheeled motor vehicles. Specific implementations of the helmet receiving assembly R include, but are not limited to, a front basket, a boot, a side cargo box, and the like.

Fig. 12 is a schematic structural view of a two-wheeled vehicle according to an embodiment of the present invention.

Referring to fig. 12, the present disclosure also provides a two-wheeled vehicle including a two-wheeled vehicle main body 300 and a helmet receiving assembly R in at least some embodiments of the present disclosure, the helmet receiving assembly R being connected to the two-wheeled vehicle main body 300. In one embodiment, the helmet receiving assembly R is embodied as a basket, and the helmet receiving assembly R is disposed at a head of the two-wheeled vehicle main body 300.

The two-wheeled vehicle also comprises a helmet lock which is fixedly connected with the helmet containing component R and used for locking the helmet. In some embodiments, the helmet lock is an electric lock, the two-wheeled vehicle further comprises a vehicle central control, and the helmet lock is electrically connected with the vehicle central control. The vehicle center control may be provided on the two-wheeled vehicle main body 300, or may be connected to the helmet storage unit R. The vehicle central control is used for managing and controlling parts such as some or all of electric devices and sensors on the two-wheeled vehicle, transmitting and receiving signals, and the like.

Taking the application of the two-wheeled vehicle in the field of shared two-wheeled vehicles as an example, the two-wheeled vehicle is also provided with a wireless communication module, the wireless communication module is in wireless communication connection with a server, and a vehicle central control is electrically connected with the wireless communication module. The two-wheeled vehicle also has a wheel lock for locking the wheels, the wheel lock being electrically connected to the vehicle central control. When a user needs to use the two-wheel vehicle, the client sends a vehicle using request to the server, and the server responds to the received vehicle using request and sends an unlocking instruction to the wireless communication module of the corresponding two-wheel vehicle. After the vehicle central control receives the unlocking instruction through the wireless communication module, the helmet lock is controlled to be unlocked, and the helmet is enabled to be in a state of being taken and used. The upper part of the helmet has ventilation holes, and a user can lift the helmet up and wear the helmet by inserting fingers into the ventilation holes. The two-wheeled vehicle or the helmet is also provided with a detection device for detecting whether the user wears the helmet, and after the vehicle central control receives a signal representing that the user wears the helmet, the wheel lock is controlled to be unlocked, so that the two-wheeled vehicle is in a riding state. After the user rides, place the helmet in helmet holding subassembly R, the helmet tool to lock locks the helmet, prevents that the helmet from being stolen.

The helmet positioning piece is arranged in the storage container, so that the helmet can be positioned and fixed better, a gap between the helmet and the edge of the helmet and an external structure when the helmet is placed is reduced, and the helmet is prevented from being taken out by other people by stretching hands or tools into the gap between the edge of the helmet and the storage container, so that the helmet can be effectively locked by the helmet lock, and the anti-theft effect of the helmet is improved. Simultaneously, helmet tool to lock can hide between helmet setting element and helmet holding subassembly, can prevent that helmet tool to lock from being broken by the ripples, promotes helmet tool to lock's life.

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 (15)

1. The utility model provides a helmet setting element for set up in putting thing container (200), its characterized in that, the upper surface of helmet setting element (100) has shelters from wing (110) and helmet holding tank (120) that the downward recess was established, shelter from wing (110) certainly the edge of helmet holding tank (120) outwards extends, the outline of helmet holding tank (120) and the outline phase-match of helmet (400), shelter from the edge of wing (110) be configured into with the inner wall of putting thing container (200) is relative.

2. The helmet spacer according to claim 1, wherein the helmet spacer (100) further comprises a protrusion (130), and the protrusion (130) is protruded into the helmet receiving groove (120) and has a gap with a sidewall of the helmet receiving groove (120).

3. The helmet spacer according to claim 2, wherein the protrusion (130) has a lock-receiving groove (131) recessed upward, the lock-receiving groove (131) being configured to receive a helmet lock, the protrusion (130) has at least one locking piece through-hole (132), the locking piece through-hole (132) communicates the helmet-receiving groove (120) with the lock-receiving groove (131), and the locking piece through-hole (132) is configured to allow a locking piece of the helmet lock to pass through.

4. The helmet spacer according to claim 1, wherein the helmet receiving groove (120) has an escape structure (121) at a bottom thereof, the escape structure (121) corresponding to a rear portion of the helmet (400), the escape structure (121) being configured to receive a strap of the helmet (400).

5. Helmet spacer according to claim 1, characterized in that the shielding wing (110) has at least one maintenance removal hole (111).

6. The helmet spacer of claim 1, wherein the helmet spacer (100) further has at least one first connecting structure (140), the first connecting structure (140) for connecting with the storage container (200).

7. The helmet spacer of claim 6, wherein the first connecting structure (140) comprises a plurality of connecting holes provided at a bottom of the helmet receiving groove (120).

8. The helmet spacer of claim 1, wherein the sidewall of the helmet receiving slot (120) further has at least one protruding locating piece (123), the locating piece (123) being configured to contact an outer surface of the helmet (400).

9. The helmet spacer of claim 1, wherein the helmet spacer (100) is a unitary, thin-walled structure.

10. A helmet containment assembly, comprising:

a storage container (200); and

the helmet spacer (100) of any of claims 1 to 9, disposed within the storage container (200).

11. The helmet receiving assembly of claim 10 wherein a lock receiving space is provided between the storage container (200) and the helmet spacer (100), the lock receiving space being configured to receive a helmet lock.

12. The helmet accommodating assembly according to claim 11, wherein a wire passing space is further provided between the accommodating container (200) and the helmet positioning member (100), the accommodating container (200) has a wire passing hole (210), and the wire passing space communicates the wire passing hole (210) and the lock accommodating space.

13. The helmet receiving assembly of claim 12 wherein said helmet receiving assembly (R) further comprises a container fixing structure (230), said container fixing structure (230) for fixing said helmet receiving assembly (R), said wire passing hole (210) being disposed adjacent to said container fixing structure (230).

14. A two-wheeled vehicle, comprising:

a two-wheeled vehicle main body (300); and

helmet receiving assembly (R) according to any of claims 10 to 13, connected to the two-wheeled vehicle body (300).

15. The two-wheeled vehicle of claim 14, further comprising:

the helmet lock is fixedly connected with the helmet accommodating component (R); and

and the vehicle central control is electrically connected with the helmet lock.

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