CN216886501U - Storage box structure and moving body having the same - Google Patents

Abstract

The utility model provides a storage box structure and a moving body with the same. The storage box structure is arranged at the rear part of the moving body. The storage box structure includes: a storage box; a box body supporting part; and a first cover, wherein a case supporting part is mounted to the moving body, and the receiving case is provided on the case supporting part. The case supporting part includes: a base portion connected to the moving body; a swing portion swingably fixed to one end of the base portion; and a locking portion provided at the other end of the base portion and locking the swinging portion. The first cover is provided on a surface of the storage box facing the moving body and communicates with an inside of the storage box. The first cover is disposed on a surface facing the movable body in a state where the swing portion is locked, thereby improving the theft prevention of the storage box structure.

Description

Storage box structure and moving body having the same

Technical Field

The present invention relates to a storage box structure and a moving body having the storage box structure.

Background

Patent document 1 discloses a tail box structure (tail box structure) provided in a rear part of a vehicle, which can store a variety of articles.

[ Prior Art ]:

[ patent document 1 ]: japanese patent laid-open No. 2005-001600

SUMMERY OF THE UTILITY MODEL

[ problem to be solved by the utility model ]

However, the trunk structure provided at the rear of the vehicle disclosed in patent document 1 has a problem in crime prevention, and cannot achieve both convenience and safety. Since the lid portion is provided on the surface of the trunk facing outward, the lid portion is easily opened by a thief, so that there is a risk that the article stored in the trunk structure is easily stolen.

The present invention has been made in view of the above-described circumstances, and provides a storage box structure and a moving body having the storage box structure, in which the storage box is swingably fixed, and a first cover of the storage box is provided on a surface facing the moving body, so that theft of an article can be avoided and theft prevention can be improved.

[ means for solving problems ]

In order to achieve the above object, according to an aspect of one embodiment of the present invention, there is provided a storage box structure. The storage box structure is arranged at the rear part of the moving body. The storage box structure includes: a storage box; a box body supporting part; and a first cover, wherein a case supporting part is mounted to the moving body, and the storage case is disposed on the case supporting part. The case supporting part includes: a base portion connected to the movable body; a swinging portion swingably fixed to one end of the base portion; and a locking portion provided at the other end of the base portion and locking the swinging portion. The first cover is provided on a surface of the storage box facing the moving body and communicates with an inside of the storage box.

In this way, by disposing the first cover on the surface facing the movable body in the state where the swing portion is locked, the theft prevention of the storage box structure can be improved.

In one embodiment of the present invention, a battery housing portion is provided in the housing box. The storage box structure further includes: a second cover configured to: and a second cover which is communicated with the battery accommodating part and is arranged in the lateral direction of the accommodating box.

In this way, the battery housed in the battery housing portion can be easily taken out by opening the second cover provided in the lateral direction of the housing box, and the battery housed in the battery housing portion can be easily lent to a third party by providing the second cover at a position where the release of the locking portion is not necessary. The second cover may be opened or closed by a remote control (remote control).

In one embodiment of the present invention, the battery housing section is provided on one side of the housing box and the article housing section is provided on the other side of the housing box when viewed from the rear of the moving body. A control unit is provided between the battery housing unit and the article housing unit, and configured to: charging of the battery housed in the battery housing portion is controlled. The control unit is configured to: and a structure which can be accessed from the article storage part to the control part.

In this way, the access control unit can be accessed from the article storage unit with high security, and both the ease of maintenance and the security can be provided.

In one embodiment of the present invention, the longitudinal direction of the control unit is arranged along the vertical direction of the movable body. A storage box support frame overlapping the control unit is fixed to the swing unit when viewed from the rear of the moving body. An auxiliary frame that is fixed to the storage box support frame and connects the storage box support frame and the swing portion, and that is configured to: overlaps with the battery housing portion.

In this way, since the battery housing section and the article housing section are regions in which the weight is variable, the control section as a heavy object can be supported firmly without hindering the removal of the article from the first cover of the article housing section.

In one embodiment of the present invention, the control unit includes: a connectable power supply port. The power supply port is configured to: the side of the moving body facing the storage box.

In this way, the control unit is accessed for maintenance from the article storage unit, and by providing a separate power supply port, the article storage unit does not need to be unnecessarily exposed during charging, thereby improving safety.

According to an aspect of one embodiment of the present invention, there is provided a movable body having the storage box structure.

[ effects of the utility model ]

The present invention provides a storage box structure and a moving body having the same, in which a first cover is disposed on a surface facing a moving body in a state where a swing portion is locked, thereby improving the theft prevention of the storage box structure. The battery housed in the battery housing portion can be easily taken out by opening the second cover provided in the lateral direction of the housing box, and the battery housed in the battery housing portion can be easily lent to a third party by providing the second cover at a position where the release of the locking portion is not necessary. The second cover may be opened or closed by remote control. The control unit can be accessed from the article storage unit with high safety, and both the easiness and safety of maintenance can be provided. Since the battery housing section and the article housing section are regions in which the weight is variable, the control section as a heavy object can be supported firmly without hindering the removal of the article from the first cover of the article housing section. The control part is accessed from the article storage part for maintenance, and the separate power supply port is provided, so that the article storage part is not unnecessarily exposed during charging, and the safety is improved.

In order to make the aforementioned and other features and advantages of the utility model more comprehensible, embodiments accompanied with figures are described in detail below.

Drawings

Fig. 1 is a schematic view of a mobile body having a storage box structure according to an embodiment of the present invention.

Fig. 2 (a) is a schematic view of the storage box viewed from the rear of the mobile body, showing the front surface side of the storage box.

Fig. 2 (b) is a schematic view of a surface of the storage box facing the moving body, and shows a back surface side of the storage box.

Fig. 2 (c) is an enlarged schematic view of the third cover shown in fig. 2 (b).

Fig. 2 (d) is a schematic view of the battery housing section of the housing box viewed from the lateral direction.

Fig. 2 (e) is a schematic sectional view taken along line a-a of fig. 2 (a).

Fig. 3A is a schematic view of the structure of the storage box as viewed from the rear of the mobile body, in which case the swing portion is in a locked state.

Fig. 3B is a schematic view of a structure in which the locking of the swing portion is released and the storage box is opened by rotating the swing portion.

[ description of reference ]:

100: structure of storage box

110: storage box

110A: outer wall of storage box

110B: power supply connector housing area

112: battery housing part

112A: battery with a battery cell

114: article storage part

116: control unit

116L: longitudinal direction of the control part

120: box body supporting part

122: abutment portion

122A: one end of the base part

122B: the other end of the base part

124: swinging part

126: locking part

130: first cover

140: second cover

150: supporting frame of storage box

160: auxiliary frame

170: power supply connector

180: third cover

200: moving body

210: back door

A: arrow head

Ax: rotating shaft

A-A: section line

F: front side

B: rear part

L: on the left side

R: right side

U: upper side of

D: lower side

Detailed Description

Hereinafter, embodiments of the present invention will be described based on the drawings. In the embodiments described below, the same reference numerals are assigned to common parts, and redundant description is omitted. Hereinafter, embodiments of the present invention will be described with reference to the drawings.

Fig. 1 is a schematic view of a mobile body having a storage box structure according to an embodiment of the present invention. Fig. 1 shows coordinate systems of the front F, the rear B, the left L, the right R, the upper U, and the lower D of the mobile unit 200.

Fig. 2 (a) is a schematic view of the storage box viewed from the rear of the mobile body, showing the front surface side of the storage box. Fig. 2 (b) is a schematic view of a surface of the storage box facing the moving body, and shows a back surface side of the storage box. Fig. 2 (c) is an enlarged schematic view of the third cover shown in fig. 2 (b). Fig. 2 (d) is a schematic view of the battery housing section of the housing box viewed from the lateral direction. Fig. 2 (e) is a schematic sectional view taken along line a-a of fig. 2 (a).

Fig. 3A is a schematic view of the structure of the storage box as viewed from the rear of the mobile body, in which case the swing portion is in a locked state. Fig. 3B is a schematic view of a structure in which the locking of the swing portion is released and the storage box is opened by rotating the swing portion. In fig. 3A and 3B, the left L, right R, upper U, and lower D of the moving body 200 are indicated.

Referring to fig. 1 to 3B, a storage box structure 100 according to an embodiment of the present invention is provided at a rear portion of a movable body 200. The storage box structure 100 includes: a storage box 110; a case supporting portion 120; and a first cover 130, wherein the case supporting part 120 is mounted to the moving body 200. The storage box 110 is disposed on the box support 120. The case supporting part 120 includes: a base part 122 connected to the moving body 200; a swinging portion 124 swingably fixed to one end 122A of the base portion 122; and a lock portion 126 provided at the other end 122B of the base portion 122 and locking the swing portion 124. The first cover 130 is disposed on a surface of the storage box 110 facing the moving body 200, and communicates with the interior of the storage box 110.

In this way, since the first cover 130 is disposed on the surface facing the moving body 200 in the state where the swing portion 124 is locked (as shown in fig. 3A), the first cover 130 does not face the outside of the moving body in the normal state, and the theft prevention property of the storage box structure 100 can be improved. After the swing portion 124 is unlocked (as shown in fig. 3B), the storage box 100 can be opened by rotating the swing portion 124 using the rotation axis Ax as shown by an arrow a in fig. 3B, the first lid 130 is opened by performing authentication and registration with the control device (such as a mobile phone) having an authentication function, and the storage box 110 can be accessed from the luggage storage space side.

Referring to fig. 2 (a), a battery housing 112 is provided in the housing box 110. The battery housing 112 houses a plurality of batteries 112A (three are shown in fig. 2 (a)). Referring to fig. 2 (d), the storage box structure 100 may further include: the second cover 140 is configured to: communicates with the battery receiving part 112, and the second cover 140 is disposed in a lateral direction of the receiving box 110.

In this manner, the battery 112A housed in the battery housing portion 112 can be easily taken out by opening the second cover 140 provided in the lateral direction of the housing box 100, and the battery 112A housed in the battery housing portion 112 can be easily lent to a third party by providing the second cover 140 at a position where the release of the locking portion 126 is unnecessary.

The second cover 140 may be opened or closed by remote control. Generally, the second cover 140 may be formed by a louver structure (not shown) to cover an opening (not shown) of the battery receiving part 112. When the user performs a relevant operation through the application program of the smartphone, the second cover 140 is opened, and the second cover 140 is moved to the side of the control portion 116, so that the opening of the battery housing portion 112 is opened, and at this time, the locking mechanism of the battery 112A is also released, and the battery 112A is released and can be taken out from the opening of the battery housing portion 112.

Referring to fig. 1, 2 (a) and 3A, the battery housing 112 is provided on one side of the housing box 110 and the article housing 114 is provided on the other side of the housing box 110 when viewed from the rear of the moving body 200. Between the battery housing section 112 and the article housing section 114, a control section 116 is provided, which is configured to: the charging of the battery 112A housed in the battery housing portion 112 is controlled. The control unit 116 is configured to: the control unit 116 can be accessed from the article storage unit 114.

In this way, the control unit 116 can be accessed from the article storage unit 114 with high safety, and both the ease of maintenance and the safety can be provided.

The battery receiving portion 112 can be used to receive a battery 112A as a power source of the mobile body 200 (e.g., an electric vehicle). The article receiving portion 114 may be used to receive articles. The control unit 116 may have authentication (authentication) and registration (location) functions, may control charging, and may perform positioning by a Global Positioning System (GPS).

Referring to fig. 1, 2 (a), 2 (B), 3A, and 3B, the longitudinal direction 116L of the control unit 116 is arranged along the vertical direction U-D of the mobile body 200. The storage box support frame 150 that overlaps with the control unit 116 is fixed to the swing unit 124 when viewed from the rear of the moving body 200. The auxiliary frame 160, in which the storage box 110 is fixed to the storage box support frame 150 and the swing portion 124 are connected, is configured such that: overlaps with the battery housing 112.

Since the battery storage 112 and the article storage 114 are regions in which the weight is variable in this manner, the entire storage box 110 can be firmly supported by supporting the control portion 116 as a heavy object, and the removal of the article from the first cover 130 of the article storage 112 is not hindered.

Since the control unit 116 and the battery 112A are relatively heavy items, a storage box support frame 150 and an auxiliary frame 160 are provided on the rear surface of the storage box 110 for support; further, the storage box support frame 150 is provided on a side offset to the battery storage section 112 (as shown in fig. 2 (b)) for better support.

Referring to fig. 1, fig. 2 (a), and fig. 2 (e), the control portion 116 may include: a connectable power supply port 116A. The power supply port 116A is configured to: faces the side of the moving body 200 of the storage box 110.

In this way, the control unit 116 is accessed for maintenance from the article storage unit 114, and by providing the separate power supply port 116A, the article storage unit 114 does not need to be unnecessarily exposed during charging, thereby improving safety.

As shown in fig. 2 (e), the power supply connector 170 is connected to the power supply port 116A, and is accommodated in the accommodating box 110, and then the accommodating box structure 100 is closed by the rotation of the swing portion 124, and is locked by the locking portion 126. Therefore, even in the charging process, the power supply connector 170 and the first cover 130 are not exposed to the outside, and the anti-theft property can be improved.

As shown in fig. 2 (b) and 2 (c), the storage box 110 may further include: the third cover 180 is configured to: can be opened to expose the power supply port 116A to connect the power supply connector 170 to the power supply port 116A. The third cover 180 may be released by a hinge (hinge) at the left end, so that the third cover 180 is completely opened, and the storage box 110 may be swung and locked in a state where the third cover 180 is opened. Thus, the power supply port 116A can be easily exposed through the third cover 180, and the power supply connector 170 can be easily connected to the power supply port 116A; also, since the third cover 180 is positioned at the rear surface of the storage box 110, safety can be improved.

The present invention also provides a movable body 200 having the storage box structure 100.

With continued reference to fig. 1 to 3B, the storage box structure 100 is disposed at the rear of the movable body 200. The storage box structure 100 includes: a storage box 110 disposed to face the rear surface of the moving body 200, wherein a battery storage 112 is provided on one side of the storage box 110 and an article storage 114 is provided on the other side of the storage box 110 when viewed from the rear of the moving body 200; a first cover 130 configured to: communicates with the article storage section 114; and a second cover 140, different from the first cover 130, configured to: and communicates with the battery housing 112.

By integrating the battery housing section 112 and the article housing section 114 in this manner, the number of components can be reduced, and the battery can be easily taken out. On the other hand, the article storage section 114 is provided with the separate first cover 130, so that safety can be improved.

Referring to fig. 1, 3A, and 3B, the moving body 200 has a rear door 210, which is disposed at a rear surface of the moving body 200 and communicates with the inside of the moving body 200. The storage box 100 overlaps the rear door 210 when viewed from the rear of the moving body 200. The movable body 200 is mounted with a casing support 120. The case supporting part 120 includes: a base portion 122 connected to the mobile body 200; a swinging portion 124 swingably fixed to one end 122A of the base portion 122, and a locking portion 126 provided at the other end 122B of the base portion 122 to lock the swinging portion 124; wherein the base part 122 is provided at a position not overlapping the rear door 210.

As shown in fig. 1, 3A and 3B, the swinging portion 124 is swung to swing the storage box 100 to the other side along the arrow a to open the storage box structure 100, so that the rear door 210 can be opened.

Referring to fig. 2 (a) and 2 (e), the storage box 110 has a control unit 116 and is disposed inside the storage box 110. The control unit 116 is configured to: the charging of the battery 112A housed in the battery housing portion 112 is controlled. The control unit 116 includes: a connectable power supply port 116A. The power supply port 116A is configured to: faces the side of the moving body 200 of the storage box 110.

In this way, by providing the power supply port 116A on the surface facing the moving body 200 that can be exposed by swinging the housing box 100, unnecessary access can be reduced.

Referring to fig. 2 (e), the storage box structure 100 may further include: power supply connector 170 configured to: is connected to power supply port 116A, and mobile unit 200 can be charged. Between outer wall 110A of storage box 110 and power supply port 116A, provided are: the power supply connector housing area 110B can house the power supply connector 170.

By providing the power supply connector housing area 110B in this manner, even when the power supply connector 170 is connected, the housing box 100 can be swung and locked, and the housing box 110 can be locked in the charged state, thereby preventing unnecessary access from the outside. Further, by providing the power supply connector housing area 110B inside the housing box 110, the power supply port 116A can be protected from raindrops.

Referring to fig. 2 (a) and 3A, the control unit 116 is disposed between the battery storage unit 112 and the article storage unit 114 inside the storage box 110. The longitudinal direction 116L of the control unit 116 is arranged along the vertical direction U-D of the mobile body 200. The storage box support frame 150 that overlaps the control unit 116 is fixed to the swing unit 124 when viewed from the rear of the moving body 200. The storage box 110 is fixed to the storage box support frame 150.

Since the battery storage 112 and the article storage 114 are regions in which the weight is variable in this manner, the control portion 116, which is a heavy object, is mainly supported, whereby the storage box 110 can be firmly supported. By making the storage box support frame 150 of metal and bringing the storage box support frame 150 into contact with the control portion 116, the storage box support frame 150 can also serve as a heat dissipation structure.

Referring to fig. 3A and 3B, the rotation axis Ax of the swing portion 124 provided on the base portion 122 is disposed on the battery housing portion 112 side of the housing box 110. On the side of the rotation axis Ax of the storage box support frame 150, there are provided: and an auxiliary frame 160 connecting the storage box support frame 150 and the swing portion 124.

In this way, by reinforcing the battery housing section 112 of the heavy mobile battery and bringing the battery housing section 112 of the mobile battery and the auxiliary frame 160 close to the rotation axis Ax to which a load is applied, the load applied to the rotation axis Ax can be reduced.

Referring to fig. 2 (B) and 3B, the first cover 130 is disposed on a surface of the storage box 110 facing the movable body 200, and is located on a side opposite to the storage box supporting frame 150 on which the auxiliary frame 160 is disposed.

In this way, by disposing the first cover 130 on the surface facing the movable body 200 in the state where the swing portion 124 is locked, the safety of the article storage portion 112 is improved, and by providing the first cover 130 at a position away from the rotation axis Ax, the first cover 130 can be opened with a movement of the swing portion 124 being small, and the article can be easily taken out.

In view of the above, the storage box structure and the moving body having the storage box structure according to the present invention have at least the following technical effects:

the first cover is disposed on a surface facing the movable body in a state where the swing portion is locked, thereby improving the theft prevention of the storage box structure. The battery housed in the battery housing portion can be easily taken out by opening the second cover provided in the lateral direction of the housing box, and the battery housed in the battery housing portion can be easily lent to a third party by providing the second cover at a position where the release of the locking portion is not necessary. The second cover may be opened or closed by remote control. The control unit can be accessed from the article storage unit with high safety, and both the easiness and safety of maintenance can be provided. Since the battery housing section and the article housing section are regions in which the weight is variable, the control section as a heavy object can be supported firmly without hindering the removal of the article from the first cover of the article housing section. The control part is accessed from the article storage part for maintenance, and the separate power supply port is provided, so that the article storage part is not unnecessarily exposed during charging, and the safety is improved.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (6)

1. A storage box structure, characterized in that the storage box structure is provided at a rear portion of a moving body, the storage box structure comprising:

a storage box;

a case supporting part installed to the moving body, the storage case being provided on the case supporting part, the case supporting part including:

a base portion connected to the moving body,

a swinging portion swingably fixed to one end of the base portion, an

A locking portion provided at the other end of the base portion and locking the swinging portion; and

a first cover provided on a surface of the storage box facing the moving body and communicating with an inside of the storage box.

2. The storage box structure according to claim 1,

a battery housing part is arranged in the housing box,

the storage box structure further includes: a second cover configured to: and a second cover which is communicated with the battery accommodating part and is arranged in the lateral direction of the accommodating box.

3. The storage box structure according to claim 2,

the battery housing part is provided on one side of the housing box and the article housing part is provided on the other side of the housing box when viewed from the rear of the moving body,

a control unit is provided between the battery housing unit and the article housing unit, and configured to: controls charging of the battery housed in the battery housing portion,

the control unit is configured to: and a structure which can be accessed from the article storage part to the control part.

4. The storage box structure according to claim 3,

the control unit is disposed along a longitudinal direction of the movable body,

a storage box support frame overlapping with the control unit is fixed to the swing unit when viewed from the rear of the moving body,

the storage box is fixed on the storage box supporting frame, and

an auxiliary frame connecting the storage box support frame and the swing portion, the auxiliary frame comprising: overlaps with the battery housing portion.

5. The storage box structure according to claim 3 or 4,

the control unit includes: a connectable power supply port;

the power supply port is configured to: the side of the moving body facing the storage box.

6. A movable body characterized by comprising:

the storage box structure according to any one of claims 1 to 5.

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