CN116985718A - Hidden rotatory storing system of door - Google Patents

Abstract

The application discloses a hidden rotary storage system of a vehicle door, which comprises the following components: a rotating shaft located in the door; a first motor configured to drive the rotation shaft to rotate; the first rotating plane is a plane on the inner side of the vehicle door, the second rotating plane and the third rotating plane respectively comprise one or more storage grooves, and the shapes of the storage grooves are matched with those of stored objects; the first motor drives the rotating shaft and stays at a first position showing a first rotating plane, stays at a second position showing a second rotating plane and stays at a third position showing a third rotating plane. The hidden type rotation storage system for the vehicle door provided by the embodiment of the application not only can increase the storage space, but also can achieve the purpose of placing the same required articles together.

Description

Hidden rotatory storing system of door

Technical Field

The application relates to the technical field of automobile accessories, in particular to a hidden type rotary storage system of a vehicle door.

Background

High-end business vehicles have many demands that are not available in common automobiles. On the one hand, high-end commercial vehicles have very high demands on the appearance. In particular, for the rear compartment seating area of a vehicle, maintaining overall aesthetics and consistency is a condition that must be met by the design of high-end commercial vehicles. On the other hand, the rear compartment seating area of a vehicle has a high storage requirement. For example, cigar boxes, lighters, cigar shears and the like for providing cigars should be arranged in a place where the tentacles of the rear passengers are accessible. However, in the prior art, the storage space of the high-end business car occupies a larger car space, or the storage space which can be provided is narrow and limited, and the articles meeting the same requirement are sometimes placed separately, so that a plurality of inconveniences are brought to passengers of the high-end business car.

Disclosure of Invention

Aiming at the technical problems in the prior art, the application provides a hidden type rotary storage system for a vehicle door, which not only can increase storage space, but also can achieve the aim of placing objects with the same requirement together.

The embodiment of the application provides a hidden rotary storage system of a vehicle door, which comprises the following components: a rotating shaft located in the door; a first motor configured to drive the rotation shaft to rotate; the first rotating plane is a plane on the inner side of the vehicle door, the second rotating plane and the third rotating plane respectively comprise one or more storage grooves, and the shapes of the storage grooves are matched with those of stored objects; wherein the first motor drives the rotary shaft and stays at a first position showing a first rotation plane, stays at a second position showing a second rotation plane, and stays at a third position showing a third rotation plane.

Optionally, wherein friction between the storage slot and the stored item is such that the stored item does not slip off.

Optionally, the magnetic attraction between the storage slot and the stored item is effective to prevent the stored item from slipping off.

Optionally, wherein the interengagement between the storage slot and the stored item is such that the stored item does not slip off.

Optionally, wherein the rotation axis and the first, second and third rotation planes are configured to be pushed outwardly from the vehicle door.

Optionally, the vehicle door further comprises a second motor and a bracket, the first motor and the rotating shaft are mounted on the bracket, the first rotating plane, the second rotating plane and the third rotating plane are mounted on the rotating shaft, and the second motor drives the bracket to be pushed out from the vehicle door.

Optionally, the vehicle door further comprises a spring and a bracket, the first motor and the rotating shaft are mounted on the bracket, and the first rotating plane, the second rotating plane and the third rotating plane are mounted on the rotating shaft, wherein the spring pushes the bracket out of the vehicle door in a damping manner.

Optionally, wherein the first motor is an in-wheel motor.

Optionally, in a state in which the rotation shaft and the first, second, and third rotation planes are not pushed out, the first motor drives the rotation shaft and stays at a first position showing the first rotation plane, stays at a second position showing the second rotation plane, and stays at a third position showing the third rotation plane; in a state in which the rotation shaft and the first, second and third rotation planes are pushed out, the first motor drives the rotation shaft and stays at a fourth position showing the second rotation plane and stays at a fifth position showing the third rotation plane.

Optionally, wherein in the fourth position, the second plane of rotation is in a horizontal position; in the fifth position, the third plane of rotation is in a horizontal position.

The hidden type rotating storage system for the vehicle door provided by the embodiment of the application is provided with a plurality of rotating planes capable of storing objects, and objects meeting the same requirement can be placed in the same rotating plane or different rotating planes, so that the storage space of the objects is increased, and the purpose that the objects with the same requirement are placed together can be achieved. In addition, after the articles are placed in the storage groove, the articles can be hidden and stored by rotating the rotating plane to the first rotating plane, so that the articles are prevented from falling off in the running process of the vehicle, and the storage stability of the articles in the vehicle is improved. The hidden type rotating storage system for the vehicle door provided by the embodiment of the application has a simple and compact structure and is convenient to produce and manufacture.

Drawings

Preferred embodiments of the present application will be described in further detail below with reference to the attached drawing figures, wherein:

FIG. 1 is a schematic diagram of a hidden door rotating storage system according to an embodiment of the present application;

FIG. 2 is a schematic view of a portion of a hidden door rotating storage system according to an embodiment of the present application;

FIG. 3 is a schematic view of an exploded view of another door hidden rotary storage system according to an embodiment of the present application;

fig. 4 is a schematic view showing a structure of a bracket of a door hidden type rotating storage system according to an embodiment of the present application when pushed out.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments of the present application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In the following detailed description, reference is made to the accompanying drawings, which form a part hereof, and in which is shown by way of illustration specific embodiments of the application. In the drawings, like reference numerals describe substantially similar components throughout the different views. Various specific embodiments of the application are described in sufficient detail below to enable those skilled in the art to practice the teachings of the application. It is to be understood that other embodiments may be utilized or structural, logical, or electrical changes may be made to embodiments of the present application.

Fig. 1 shows a schematic structural diagram of a hidden rotary storage system for a vehicle door according to an embodiment of the present application. Fig. 2 is a schematic diagram showing a part of a structure of a door hidden type rotary storage system according to an embodiment of the present application. As shown in connection with fig. 1 and 2, the door hidden rotary storage system 100 includes a rotary shaft 101, a first motor 102, and first, second, and third rotary planes 103, 104, 105 driven via the rotary shaft 101. Wherein the rotating shaft 101 is located in a vehicle door (not shown in the figures), the first motor 102 is configured to drive the rotating shaft 101 to rotate. In some embodiments of the present application, the door hidden rotary storage system 100 optionally further includes a bracket 106, the first motor 102 is an in-wheel motor, and the first motor 102 and the rotary shaft 101 are mounted on the bracket 106.

Specifically, the bracket 106 has a U-shaped structure, and is fixed to a fixing structure 110 in the door, the first motor 102 is mounted on a side wall of the bracket 106, and an output end of the first motor 102 is connected to the rotation shaft 101. The rotation shaft 101 rotates by the first motor 102. Since the three-sided structure formed by combining the first rotation plane 103, the second rotation plane 104 and the third rotation plane 105 is fixed on the rotation shaft 101, the first rotation plane 103, the second rotation plane 104 and the third rotation plane 105 can be rotated by the rotation shaft 101. When the first rotation plane 103 is located in the same plane as the door inner side plane (not shown in the figure), the door hidden type rotating storage system 100 is hidden in the door, so the first rotation plane 103 may also be referred to as the door inner side plane.

Further, the second rotation plane 104 and the third rotation plane 105 are provided with a storage groove 1041, and the storage groove 1041 has a certain depth, so that articles can be stored. When in use, the storage groove 1041 on the second rotation plane 104 and the storage groove 1041 on the third rotation plane 105 can simultaneously place different articles, so that the storage space of the articles in the vehicle is increased. In addition, offer the storage groove also can be convenient to need the cooperation to use but can not put the storage of article together on different rotatory planes, so, when taking the article, the passenger only need overturn the plane just can be very convenient take all articles, has reached the purpose that same demand article was put together.

Fig. 3 is an exploded view of another door hidden rotary storage system according to an embodiment of the present application. As shown in fig. 3, the first rotation plane 103 is the same color, material, etc. as the door inner plane, and when the first rotation plane 103 is exposed in the vehicle, the door hidden type rotary storage system 100 is hidden in the vehicle door. The second rotation plane 104 and the third rotation plane 105 are fixed with the fixed frame 301 and then mounted on the rotation bracket 201 such that the first rotation plane and the second rotation plane are combined together to form a three-sided structure. The three-sided structure is provided with a fixing hole 202, the rotating shaft 101 is arranged in the fixing hole 202 in a penetrating mode, and the three-sided structure rotates under the action of the first motor 102 to expose different rotating planes in the vehicle. The bracket 106 is used for fixing the three-sided structure and the first motor 102. In addition, in this embodiment, the shapes of the storage grooves 1041 on the second rotation plane 104 and the third rotation plane 105 are not the same. Specifically, a plurality of rectangular grooves are formed on the third rotation plane 105, so that articles can be placed in a classified manner, and the storage groove 1041 on the second rotation plane 104 can be elliptical.

Additionally, in some embodiments of the application, the shape of the storage slot 1041 may also optionally match the shape of the stored item. For example, when the stored item is cylindrical, the storage slot 1041 may be cylindrical in shape and have the same length and width as the stored item. The material of the storage groove 1041 can also have certain flexibility, and by utilizing the flexibility of the storage groove 1041, the stored articles can be tightly wrapped by the storage groove 1041, so that the articles can be stably stored, and the articles can be prevented from sliding off. Referring to fig. 2, the storage groove 1041 on the third rotation plane 105 includes a first storage groove 1051 and a second storage groove 1052, wherein the protruding portion of the first storage groove 1051 is made of a flexible material, and these flexible structures can be pushed apart when placing objects, but can function as a barrier to dropping objects when placed in the first storage groove 1051. The second storage slot 1052 includes two slots with different depths, where the deeper slot 1053 can hold small-sized objects, and the shallower slot 1054 can hold large-sized objects, where the small-sized objects and the large-sized objects can be matched objects, so that the stored objects that need to be matched can be conveniently taken.

In some embodiments of the application, the friction between the storage slot 1041 and the stored item is optionally such that the stored item does not slip. Optionally, there is a magnetic attraction force between the storage slot 1041 and the stored article, where the storage slot and the stored article are both provided with magnetic elements, and the magnetic attraction force between the storage slot 1041 and the stored article is beneficial for the stored article not to slip off. Optionally, a structure capable of being meshed with each other is provided between the storage groove 1041 and the stored article, for example, a clamping groove is provided in the storage groove 1041, and the stored article can be clamped in the clamping groove, so that the mutual meshing between the storage groove 1041 and the stored article is realized, and the stored article is not easy to slide.

With continued reference to fig. 1, upon actuation of the first motor 102, the rotational axis 101 may cause the rotational planes (including the first rotational plane 103, the second rotational plane 104, and the third rotational plane 105) to remain in a first position exhibiting the first rotational plane 103, a second position exhibiting the second rotational plane 104, and a third position exhibiting the third rotational plane 105. That is, when the first rotation plane 103 is located at the first position, the first rotation plane 103 is exposed in the vehicle, and the door hidden type rotary storage system 100 is hidden; when the second rotation plane 104 is located at the second position, the second rotation plane 104 is exposed to the inside of the vehicle, and the passenger can place the article in the storage slot 1041 of the second rotation plane 104 or take out the stored article from the storage slot 1041 of the second rotation plane 104; when the third rotation plane 105 is located at the third position, the third rotation plane 105 is exposed to the inside of the vehicle, and the passenger can place the article in the storage groove 1041 of the third rotation plane 105 or take out the stored article from the storage groove 1041 of the third rotation plane 105.

Further, to conceal the door concealed swing dump system, after the item is placed in the rotation plane with the storage slot 1041, the first rotation plane 103 may be presented to the occupant by controlling the first motor 102 such that the rotation plane with the storage slot 1041 is turned into the interior of the door. Since the first rotation plane 103 is a plane inside the vehicle door, the hidden type rotation storage system 100 for the vehicle door storing articles can be hidden, so that the closed type storage of the articles is realized, the flatness of the structure in the vehicle can be maintained, and the storage stability of the articles in the vehicle is improved.

The embodiment of the application provides a hidden type rotary storage system of a vehicle door. When the storage system is not used, the first rotation plane 103 is completely consistent with other parts of the inner side of the vehicle door, so that the hidden type rotation storage system 100 of the vehicle door is completely hidden, and the whole attractive appearance of the rear cabin is not damaged. Through a plurality of rotation planes, can place the different article of same demand respectively in different rotation planes, both increased the storing space, also reached the purpose that same demand article was put together. Taking cigar requirements as an example, the storage space provided by the second rotation plane 104 can be used for placing cigar boxes, so that a user can conveniently take cigars; the storage space provided by the third rotation plane 105 can be used for placing cigar cutters and lighters, so that a user can conveniently cut cigars and ignite the cigars.

In some high-end commercial vehicles, the passenger's seat may be farther from the door. It may still be inconvenient if the storage device can only rotate within the door and provide stored items.

Fig. 4 is a schematic view showing a structure of a bracket of a door hidden type rotating storage system according to an embodiment of the present application when pushed out. As shown in fig. 1 and 4, the hidden door rotating storage system 100 further includes a second motor 107, a gear 108 is fixed at an output end of the second motor 107, and a rack 109 is disposed at a bottom of the bracket 106. The gear 108 is engaged with the rack 109, and the bracket 106 can be pushed out from the door by the second motor 107, or the bracket 106 pushed out of the door can be retracted.

In some embodiments of the present application, optionally, the door hidden rotary storage system 100 further comprises a spring (not shown in the figures) and a bracket 106, the first motor 102 and the rotary shaft 101 are mounted on the bracket 106, and the first rotary plane 103, the second rotary plane 104 and the third rotary plane 105 are mounted on the rotary shaft 101, wherein the spring dampenes pushing the bracket out of the door.

Specifically, a spring (not shown) may be provided between the bracket 106 and the door inner structure (not shown), and a stopper for stopping the spring from returning to its shape may be provided at an end of the spring, and may be controlled by an electric switch. When it is desired to remove the bracket 106 from the door, the control flap is removed from the end of the spring, which contacts the bracket, and the bracket 106 is ejected from the door under the force of the spring damping force; when the bracket 106 needs to be retracted into the vehicle door, the first rotation plane 103 is manually pushed, the first rotation plane 103 is pushed to a position which is in the same plane as the inner plane of the vehicle door, at the moment, the position sensor arranged in the vehicle door senses that the position of the bracket 106 reaches a preset position, the stop piece is controlled to pop out and is blocked at the end part of the spring, and the bracket is limited to stay at the preset position, at the moment, the first rotation plane 103 and the inner plane of the vehicle door are in the same plane. In this way, the pushing out and retraction of the plane of rotation can also be achieved with a spring. Through the technical means in the embodiment, even for passengers far away from the vehicle door, the articles stored in the storage system can be accessed by tentacles, so that the passengers are facilitated, the fun in the process of meeting the demands is improved, and the design concept of the high-end commercial vehicle is met.

In some embodiments of the application, optionally, in a state in which the rotation shaft 101 and the first rotation plane 103, the second rotation plane 104 and the third rotation plane 105 are not pushed out, the first motor 102 drives the rotation shaft 101 and stays in a first position showing the first rotation plane 103, stays in a second position showing the second rotation plane 104, and stays in a third position showing the third rotation plane 105; in a state in which the rotation shaft 101 and the first rotation plane 103, the second rotation plane 104, and the third rotation plane 105 are pushed out, the first motor 102 drives the rotation shaft 101 and stays at a fourth position showing the second rotation plane 104, and stays at a fifth position showing the third rotation plane 105. The fourth position of the second rotation plane 104 may be a position where the second rotation plane 104 is parallel to the vehicle bottom plane. Thus, the passengers can conveniently take the stored articles from the rotating plane horizontally displayed. In contrast, the second position of the second plane of rotation 104 may be a position where the second plane of rotation 104 is parallel to the door of the vehicle to better display the stored item. For example, when the second rotation plane 104 is in the second position, the second rotation plane 104 is perpendicular to the vehicle bottom plane. At this time, the stored item can be prevented from slipping off the storage tank 1041 by the engagement relationship between the stored item and the storage tank 1041.

Similarly, the fifth position of the third rotation plane 105 may also be different from the third position of the third rotation plane 105, wherein the fifth position of the third rotation plane 105 may be a position where the third rotation plane 105 is parallel to the vehicle bottom surface, and the third position of the third rotation plane 105 may be a position where the third rotation plane 105 is perpendicular to the vehicle bottom surface.

In summary, the hidden type rotating storage system for the vehicle door provided by the embodiment of the application is provided with a plurality of storage planes, so that the objects at the same position can be separately placed, the object is conveniently taken, the storage space of the objects is increased, and the purpose that the objects with the same requirement are placed together (different storage planes at the same position) can be achieved. In addition, the hidden type rotary storage system for the vehicle door provided by the embodiment of the application has a simple and compact structure and is convenient to produce and manufacture. After the articles are placed in the storage groove, the articles can be hidden and stored by rotating the rotating plane to the first rotating plane, the articles are prevented from falling off in the running process of the vehicle, and the storage stability of the articles of the vehicle is improved.

The above embodiments are provided for illustrating the present application and not for limiting the present application, and various changes and modifications may be made by one skilled in the relevant art without departing from the scope of the present application, therefore, all equivalent technical solutions shall fall within the scope of the present disclosure.

Claims (8)

1. A door hidden rotary storage system, comprising:

a rotating shaft located in the door;

a first motor configured to drive the rotation shaft to rotate; and

the first rotating plane, the second rotating plane and the third rotating plane are driven by the rotating shaft, wherein the first rotating plane is an inner side plane of the vehicle door, one or more storage grooves are respectively formed in the second rotating plane and the third rotating plane, and the shapes of the storage grooves are matched with those of stored objects;

wherein the first motor drives the rotating shaft and stays at a first position showing a first rotation plane, stays at a second position showing a second rotation plane, and stays at a third position showing a third rotation plane;

wherein the rotation axis and the first, second, and third rotation planes are configured to be pushed outwardly from the vehicle door; in a state that the rotating shaft and the first, second and third rotating planes are not pushed out, the first motor drives the rotating shaft and stays at a first position showing the first rotating plane, stays at a second position showing the second rotating plane and stays at a third position showing the third rotating plane; in a state in which the rotation shaft and the first, second and third rotation planes are pushed out, the first motor drives the rotation shaft and stays at a fourth position showing the second rotation plane and stays at a fifth position showing the third rotation plane.

2. The door hidden rotary storage system of claim 1, wherein the storage slot has a protruding portion made of a flexible material that is pushed aside when an item is placed, the protruding portion functioning to block the item from falling off when the item is placed in the storage slot.

3. The door hidden rotary storage system of claim 1, wherein the storage slot and the stored item are both provided with magnetic elements, and the magnetic attraction between the storage slot and the stored item is beneficial for the stored item not to slip off.

4. The door hidden type rotating storage system according to claim 1, wherein a clamping groove is formed in the storage groove, and the stored article is clamped in the clamping groove, so that the storage groove and the stored article are meshed with each other, and the stored article cannot slide down.

5. The door hidden rotary storage system of claim 1, further comprising a second motor and a bracket, the first motor and the rotary shaft being mounted on the bracket, the first rotary plane, the second rotary plane, and the third rotary plane being mounted on the rotary shaft, wherein the second motor drives the bracket to be pushed out of the door.

6. The door hidden rotary storage system of claim 1, further comprising a spring and a bracket, the first motor and the rotary shaft being mounted on the bracket, the first rotary plane, the second rotary plane, and the third rotary plane being mounted on the rotary shaft, wherein the spring dampened pushes the bracket out of the door.

7. The door hidden rotary storage system of claim 1, wherein the first motor is an in-wheel motor.

8. The door hidden rotary storage system of claim 1, wherein in the fourth position, the second plane of rotation is in a horizontal position; in the fifth position, the third plane of rotation is in a horizontal position.