阅读说明：本技术 汽车、座椅及其储物盒 (Car, seat and storing box thereof ) 是由 杨锦章 韦俊 于 2019-10-28 设计创作，主要内容包括：本发明公开了一种汽车、座椅及其储物盒,储物盒包括：设有安装座的盒本体；第一锁止部；与盒本体导向配合的导向结构,用于使盒本体能够沿预设方向往复移动；与盒本体转动连接的拉动件,用于使拉动件的一侧能够靠近或远离安装座,拉动件用于拉动盒本体沿预设方向往复移动,且拉动件设有能够与第一锁止部锁止配合的第二锁止部；及第一弹性复位件,第一弹性复位件的一端与安装座抵接,第一弹性复位件的另一端与拉动件的一侧抵接,用于在拉动件相对盒本体静止时使第一锁止部与第二锁止部锁止配合、及用于在拉动件相对盒本体转动时使第一锁止部与第二锁止部分离。储物盒能够增大汽车的储物空间,不会增加较大的成本,经济性好。(The invention discloses an automobile, a seat and a storage box thereof, wherein the storage box comprises: a box body provided with a mounting seat; a first locking portion; the guiding structure is in guiding fit with the box body and is used for enabling the box body to move back and forth along a preset direction; the pulling piece is rotationally connected with the box body and used for enabling one side of the pulling piece to be close to or far away from the mounting seat, the pulling piece is used for pulling the box body to reciprocate along a preset direction, and the pulling piece is provided with a second locking part which can be in locking fit with the first locking part; and the first elastic resetting piece is abutted with one end of the mounting seat, and the other end of the first elastic resetting piece is abutted with one side of the pulling piece, so that the first locking part is matched with the second locking part in a locking manner when the pulling piece is static relative to the box body, and the first locking part is separated from the second locking part when the pulling piece rotates relative to the box body. The storage box can increase the storage space of the automobile, does not increase large cost, and is good in economical efficiency.)

1. A storage box, comprising:

the box comprises a box body, wherein a mounting seat is arranged on the box body;

the first locking part is fixedly arranged on the framework;

the guiding structure is in guiding fit with the box body and used for enabling the box body to move back and forth along a preset direction;

the pulling piece is rotatably connected with the box body and used for enabling one side of the pulling piece to be close to or far away from the mounting seat, the pulling piece is used for pulling the box body to reciprocate along the preset direction, and the pulling piece is provided with a second locking part which can be in locking fit with the first locking part; and

the box body is provided with a mounting seat, a first elastic resetting piece, a second elastic resetting piece and a pulling piece, wherein one end of the first elastic resetting piece is abutted to the mounting seat, the other end of the first elastic resetting piece is abutted to one side of the pulling piece, and the first elastic resetting piece is used for enabling the first locking part to be matched with the second locking part in a locking mode when the pulling piece is static relative to the box body and enabling the first locking part to be separated from the second locking part when the pulling piece is rotating relative to the box body.

2. A storage box as claimed in claim 1, wherein the mounting seat is provided with a guide for guiding the first resilient return member to telescope.

3. A storage box as claimed in claim 1, in which the first locking portion is configured as a catch and the second locking portion is configured as a catch.

4. A storage box as claimed in claim 3, wherein the number of the fasteners and the hooks are at least two, at least two of the fasteners are arranged along the length direction of the box body at intervals, and the fasteners and the hooks are arranged in one-to-one correspondence.

5. A storage box as claimed in any one of claims 1 to 4, wherein the pulling member is provided with an abutting portion disposed towards the box body, the mounting seat is provided with a mounting groove, the first elastic return member is disposed in the mounting groove, and the other end of the first elastic return member abuts against the abutting portion.

6. A storage box as claimed in any one of claims 1 to 4, wherein the guide structure comprises a first guide member disposed on one side of the box body and a second guide member disposed on the other side of the box body, the first guide member and the second guide member being in guiding engagement with the box body.

7. The storage box of claim 6, wherein the first guide assembly comprises a first guide plate and a first guide block, the first guide plate is provided with a first guide groove arranged along the preset direction, the first guide block is movably arranged in the first guide groove, and the first guide block is fixedly arranged on one side of the box body; the second guide assembly comprises a second guide plate and a second guide block, the second guide plate is provided with a second guide groove arranged along the preset direction, the second guide block is movably arranged in the second guide groove, and the second guide block is fixedly arranged on the other side of the box body.

8. A storage box as claimed in claim 7, further comprising a second resilient return member disposed within the first guide slot for returning the first guide block; and/or the elastic reset device also comprises a third elastic reset piece which is arranged in the second guide groove and used for resetting the second guide block.

9. A storage box as claimed in any one of claims 1 to 4, further comprising a blocking member having a through hole for the pulling member to extend through, the blocking member being connected to the box body and covering the outside of the box body.

10. A seat comprising a frame and the storage box of any one of claims 1 to 9, wherein the seat frame is provided with a mounting cavity, the storage box is disposed in the mounting cavity, and the first locking portion is fixedly disposed on the frame.

11. An automobile comprising a seat as claimed in claim 10.

Technical Field

The invention relates to the technical field of automobile storage, in particular to an automobile, a seat and a storage box thereof.

Background

With the continuous improvement of the requirements for the storage space of the automobile, the wide arrangement of the space in the automobile gradually becomes the trend of the times. In order to meet the demand of consumers on the space in the automobile, the layout design of the space in the automobile for automobile enterprises is more and more emphasized. Traditionally, the size of the automobile is lengthened and widened to meet the requirement of a consumer for the storage space in the automobile. The traditional method needs to adjust a production die, redesigns the structure of the automobile, and has the disadvantages of great cost investment and poor economical efficiency.

Disclosure of Invention

Based on the above, the automobile, the seat and the storage box thereof are provided, wherein the storage box can increase the storage space of the automobile, does not increase the cost greatly and has good economical efficiency; therefore, the seat adopting the storage box can increase the storage space without increasing the cost; therefore, the automobile adopting the seat has large storage space and good economical efficiency.

The technical scheme is as follows:

in one aspect, a storage box is provided, comprising: the box comprises a box body, wherein a mounting seat is arranged on the box body; the first locking part is fixedly arranged on the framework; the guiding structure is in guiding fit with the box body and used for enabling the box body to move back and forth along a preset direction; the pulling piece is rotatably connected with the box body and used for enabling one side of the pulling piece to be close to or far away from the mounting seat, the pulling piece is used for pulling the box body to reciprocate along the preset direction, and the pulling piece is provided with a second locking part which can be in locking fit with the first locking part; and the first elastic resetting piece is abutted to one end of the first elastic resetting piece and the mounting seat, and the other end of the first elastic resetting piece is abutted to one side of the pulling piece, so that the first locking part is matched with the second locking part in a locking manner when the pulling piece is static relative to the box body, and the first locking part is separated from the second locking part when the pulling piece is rotating relative to the box body.

When the storage box is used, the pulling piece is not pulled and rotated relative to the box body, namely, the pulling piece keeps a static state relative to the box body. At this moment, first elasticity piece that resets is in first state to exert corresponding elastic force and to drawing on the piece, make the second locking portion on the piece that draws cooperate with the first locking portion locking that sets firmly on the skeleton, and then make box body and skeleton stable even as an organic whole, make the box body can not follow and predetermine the direction removal. When article need be placed in the box body, only need apply corresponding effort to the piece that draws, make one side orientation of the piece that draws move near the mount pad direction, thereby make the elastic force that the piece that draws overcomes first elasticity piece that resets, and then make the piece that draws rotate around corresponding axis of rotation, and then make second locking portion and first locking portion separation, thereby make the box body can remove along predetermineeing the direction under guide structure's guiding action under the pulling of the piece that draws, and then make the relative skeleton of box body shift out, thereby can be smooth place article in the storing intracavity of box body. The storage box of the embodiment is matched with the box body, the first locking part, the guide structure, the pulling part and the guide structure, so that the locking and pulling-out of the box body relative to the framework can be realized as required, the storage space of an automobile is increased, the cost is not increased greatly, and the economy is good.

The technical solution is further explained below:

in one embodiment, the mounting seat is provided with a guide member for guiding the first elastic resetting member to stretch.

In one embodiment, the first locking portion is configured as a snap, and the second locking portion is configured as a hook.

In one embodiment, the number of the buckles and the number of the hooks are at least two, the at least two buckles are oppositely arranged along the length direction of the box body at intervals, and the buckles and the hooks are arranged in one-to-one correspondence.

In one embodiment, the pulling member is provided with an abutting portion arranged towards the cartridge body, the mounting seat is provided with a mounting groove, the first elastic resetting member is arranged in the mounting groove, and the other end of the first elastic resetting member abuts against the abutting portion.

In one embodiment, the guiding structure includes a first guiding component disposed on one side of the box body and a second guiding component disposed on the other side of the box body, and the first guiding component and the second guiding component are both in guiding fit with the box body.

In one embodiment, the first guide assembly comprises a first guide plate and a first guide block, the first guide plate is provided with a first guide groove arranged along the preset direction, the first guide block is movably arranged in the first guide groove, and the first guide block is fixedly arranged on one side of the box body; the second guide assembly comprises a second guide plate and a second guide block, the second guide plate is provided with a second guide groove arranged along the preset direction, the second guide block is movably arranged in the second guide groove, and the second guide block is fixedly arranged on the other side of the box body.

In one embodiment, the storage box further comprises a second elastic resetting piece, wherein the second elastic resetting piece is arranged in the first guide groove and used for resetting the first guide block; and/or the storage box further comprises a third elastic resetting piece, and the third elastic resetting piece is arranged in the second guide groove and used for enabling the second guide block to reset.

In one embodiment, the storage box further comprises a shielding piece, the shielding piece is provided with a through hole for the pulling piece to extend out, and the shielding piece is connected with the box body and covers the outer side of the box body.

On the other hand, still provide a seat, including the skeleton reach the storing box, the seat skeleton be equipped with the installation cavity, the storing box set up in the installation cavity, just first locking part set firmly in on the skeleton.

When the seat is used, when articles need to be placed in the storage cavity of the box body of the storage box, only corresponding acting force needs to be applied to the pulling piece, one side of the pulling piece moves towards the direction close to the mounting seat, so that the pulling piece overcomes the elastic force of the first elastic resetting piece (further compresses the first elastic resetting piece or further stretches the first elastic resetting piece), thereby enabling the pulling piece to rotate around the corresponding rotation axis and further enabling the second locking part to be separated from the first locking part, so that the box body can move along the preset direction under the guiding action of the guiding structure under the pulling action of the pulling piece, and then make the relative skeleton of box body shift out from the installation intracavity to can be smooth place article in the storing intracavity of box body, thereby increased the storing space of seat, also can not increase great cost, economic nature is good.

In still another aspect, an automobile is provided, which comprises the seat.

Above-mentioned car installs the storing box in the installation intracavity of seat to make the seat have the function of storing concurrently, enlarged the storing space of car, and can not increase great cost, economic nature is good.

Drawings

FIG. 1 is a schematic structural view of a storage box according to an embodiment;

FIG. 2 is an exploded view of the storage case of FIG. 1 from a perspective;

FIG. 3 is an enlarged partial view of portion A of the storage compartment of FIG. 2;

fig. 4 is an exploded view of the storage box of fig. 1 from another perspective.

Description of reference numerals:

100. the box body, 110, the mount pad, 111, the mounting groove, 1111, the guide plate, 120, the storing chamber, 130, the connecting seat, 131, first connecting hole, 200, first locking portion, 300, guide structure, 310, first guide assembly, 311, first deflector, 312, first guide block, 320, second guide assembly, 321, the second deflector, 322, the second deflector, 400, the pulling piece, 410, the second locking portion, 420, the butt portion, 500, first elasticity resets, 600, the shielding piece, 610, the through-hole, 1000, the skeleton.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and the detailed description. It should be understood that the detailed description and specific examples, while indicating the scope of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

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

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The terms "first," "second," "third," and the like in the description herein do not denote any particular order or quantity, but rather are used to distinguish one element from another.

As shown in fig. 1 and 2, in one embodiment, there is provided a storage box including: the box comprises a box body 100, wherein a mounting seat 110 is arranged on the box body 100; the first locking part 200, the first locking part 200 is used for fixing on the skeleton 1000; a guide structure 300, the guide structure 300 being in guiding engagement with the cartridge body 100 for enabling the cartridge body 100 to reciprocate along a preset direction (as shown in a direction B of fig. 2); the pulling piece 400, the pulling piece 400 is rotatably connected with the cartridge body 100, and is used for enabling one side of the pulling piece 400 to be close to or far away from the mounting seat 110, the pulling piece 400 is used for pulling the cartridge body 100 to reciprocate along a preset direction, and the pulling piece 400 is provided with a second locking portion 410 which can be in locking fit with the first locking portion 200; and a first elastic reset member 500, one end of the first elastic reset member 500 abuts against the mounting seat 110, and the other end of the first elastic reset member 500 abuts against one side of the pulling member 400, so as to lock and cooperate the first locking portion 200 and the second locking portion 410 when the pulling member 400 is stationary relative to the cartridge body 100, and separate the first locking portion 200 and the second locking portion 410 when the pulling member 400 rotates relative to the cartridge body 100.

In the storage box of the above embodiment, when the pulling member 400 is not pulled and rotated relative to the box body 100 during use, that is, the pulling member 400 is kept stationary relative to the box body 100. At this time, the first elastic reset element 500 is in the first state (the contracted state or the stretched state), so as to apply a corresponding elastic force to the pulling element 400, so that the second locking portion 410 on the pulling element 400 is in locking engagement with the first locking portion 200 fixedly disposed on the framework 1000, and the cartridge body 100 and the framework 1000 are stably connected into a whole, so that the cartridge body 100 cannot move along the preset direction. When an article needs to be placed in the box body 100, only a corresponding acting force needs to be applied to the pulling member 400, so that one side of the pulling member 400 moves towards the direction close to the mounting seat 110, and the pulling member 400 overcomes the elastic force of the first elastic resetting member 500 (further compresses the first elastic resetting member 500 or further stretches the first elastic resetting member 500), so that the pulling member 400 rotates around a corresponding rotation axis (as shown in the direction D of fig. 2), and further the second locking portion 410 is separated from the first locking portion 200, so that the box body 100 can move along the preset direction under the guiding action of the guiding structure 300 under the pulling of the pulling member 400, and further the box body 100 moves out relative to the framework 1000, and the article can be smoothly placed in the storage cavity 120 of the box body 100. The storage box of the embodiment is capable of locking and pulling out the box body 100 relative to the frame 1000 as required by the cooperation of the box body 100, the first locking portion 200, the guide structure 300, the pulling member 400 and the guide structure 300, so that the storage space of the automobile is increased, the cost is not increased greatly, and the economy is good.

It should be noted that, when the box body 100 is moved back and forth along a predetermined direction, that is, the box body 100 can be drawn out or pushed in relative to the frame 1000 (as shown in the direction B of fig. 2), so that the storage cavity 120 of the box body 100 can be exposed for placing articles or hidden. The first locking portion 200 may be fixed to the frame 1000 by riveting, clamping, welding, or the like. The first elastic restoring member 500 may be a spring, a spring plate, or other elements having an elastic restoring function. The pulling member 400 may be a long strip-shaped pulling plate or a buckle.

The rotation of the pulling element 400 and the box body 100 can be realized in a way of matching a rotating shaft with a connecting hole, or in a way of matching a hinge connection and the like, and only the requirement that the pulling element 400 can rotate relative to the box body 100 is met, so that one side of the pulling element 400 can be close to or far away from the mounting seat 110, and then the acting force of the first elastic resetting element 500 can be overcome to enable the first locking part 200 to be matched with the second locking part 410 in a locking way.

As shown in fig. 3, in one embodiment, the cartridge body 100 is provided with two connecting bases 130 oppositely spaced and facing the pulling member 400, each of the two connecting bases 130 is provided with a first connecting hole 131 for a rotating shaft (not shown) to be mounted thereon, and the pulling member 400 is provided with a second connecting hole (not shown) for the rotating shaft to pass through. Thus, the rotation shaft sequentially passes through the first connection hole 131 and the second connection hole to realize the rotation connection of the pulling member 400 and the cartridge body 100.

It should be emphasized that the storage box of the above embodiments can also be applied to home, office, high-speed rail, etc., and is not limited to the application in the car seat, such as the back seat of the car.

In one embodiment, the mounting base 110 is provided with a guide (not shown) for guiding the first elastic restoring member 500 to be extended and retracted. In this way, the guide member is used to guide the telescopic motion of the first elastic resetting member 500, so as to accurately apply a corresponding acting force to the pulling member 400, and thus, one side of the pulling member 400 can accurately move towards the direction close to or away from the mounting seat 110.

In one embodiment, when the first elastic restoring member 500 is a first spring, the guiding member may be a guiding post, and the first spring is sleeved on the guiding post, such that one end of the first spring abuts against the mounting seat 110, and the other end of the first spring abuts against one side of the pulling member 400. In this way, the pulling member 400 is not pulled and rotated relative to the cartridge body 100, the distance between one side of the pulling member 400 and the mounting surface of the mounting seat 110 is kept constant, and under the action of the acting force (contraction force or extension force) of the first spring and the locking cooperation of the first locking part 200 and the second locking, the pulling member 400 and the cartridge body 100 are integrated into a relatively stationary whole and locked with the framework 1000; when an acting force is applied to rotate the pulling member 400 relative to the cartridge body 100, one side of the pulling member 400 moves towards a mounting surface close to the mounting seat 110, so that the acting force (contraction force or extension force) of the first spring can be overcome, and the second locking portion 410 is separated from the first locking portion 200, so that the cartridge body 100 can be separated from the framework 1000, and under the pulling of the pulling member 400 and the guiding action of the guiding structure 300, the cartridge body 100 is moved out relative to the framework 1000 along a preset direction.

Specifically, in the embodiment, the pulling member 400 is not pulled and rotated relative to the cartridge body 100, and when the distance between one side of the pulling member 400 and the mounting surface of the mounting seat 110 is kept constant, the first spring is kept in a compressed state, so that the first spring can apply a corresponding stretching force to one side of the pulling member 400. When a force is applied to rotate the pulling member 400 relative to the cartridge body 100 (as shown in direction D of fig. 2) such that one side of the pulling member 400 moves toward the mounting surface close to the mounting seat 110, the one side of the pulling member 400 can be caused to further compress the first spring and cause the second locking portion 410 to be separated from the first locking portion 200. When the acting force on the pulling member 400 is released, one side of the pulling member 400 can be returned by the tensile force of the first spring.

The locking cooperation of first locking portion 200 and second locking portion 410 can be realized through magnetism complex mode, also can realize through joint complex mode, only need satisfy and can make box body 100 and skeleton 1000 stable, reliable even as an organic whole when first locking portion 200 cooperates with the locking of second locking portion 410, can make the relative free removal of skeleton 1000 of box body 100 can when first locking portion 200 separates with second locking portion 410.

In one embodiment, the first locking portion 200 is configured as a snap and the second locking portion 410 is configured as a hook. Thus, when the pulling member 400 is not pulled and rotated relative to the box body 100, the box body 100 is stably connected to the frame 1000 by the clamping fit of the hook and the buckle; when the pulling piece 400 is pulled to rotate the pulling piece 400 around the corresponding rotation axis relative to the box body 100, the hook synchronously rotates around the corresponding rotation axis relative to the box body 100, so that the hook is separated from the buckle, the fixing effect on the box body 100 is removed, and under the driving of the pulling piece 400 and the guiding effect of the guiding structure 300, the box body 100 can move along the preset direction relative to the framework 1000 to place an article in the storage cavity 120 of the box body 100.

Further, the number of the buckles and the hooks are at least two, at least two buckles are oppositely arranged along the length direction (as shown in the C direction of fig. 2) of the box body 100 at intervals, and the buckles and the hooks are arranged in one-to-one correspondence. Thus, the box body 100 and the framework 1000 can be connected more stably and reliably by utilizing the one-to-one arrangement of the at least two hooks and the at least two buckles. Simultaneously, the setting of buckle and pothook all sets up along the length direction of box body 100 for the atress is even in length direction after box body 100 is fixed, can not take place to rock, guarantees that the article in the storing chamber 120 can not clash the inner wall in storing chamber 120, avoids abnormal sound and destroys the storing box. Preferably, buckle and pothook evenly set up along the length direction of box body 100, the even both sides that distribute in the length direction of box body 100, and the atress is more even, and stability is better.

In one embodiment, the first latch portion 200 is provided as a first magnet and the second latch portion 410 is provided as a second magnet. Thus, when the pulling member 400 is not pulled and rotated relative to the cartridge body 100, the cartridge body 100 is stably connected to the frame 1000 by using the attraction between the first magnet and the second magnet; when the pulling piece 400 is pulled to enable the pulling piece 400 to rotate around the corresponding rotating axis relative to the box body 100, the second magnet synchronously rotates around the corresponding rotating axis relative to the box body 100, so that the adsorption force of the first magnet and the second magnet is overcome, the second magnet is separated from the first magnet, the fixing effect on the box body 100 is removed, and under the driving of the pulling piece 400 and the guiding effect of the guiding structure 300, the box body 100 can move along the preset direction relative to the framework 1000 so as to place articles into the storage cavity 120 of the box body 100.

As shown in fig. 2 to 4, in any of the above embodiments, the pulling member 400 is provided with the abutting portion 420 disposed toward the cartridge body 100, the mounting seat 110 is provided with the mounting groove 111, the first elastic restoring member 500 is disposed in the mounting groove 111, and the other end of the first elastic restoring member 500 abuts against the abutting portion 420. In this way, the abutting portion 420 abuts against the first elastic reset piece 500 in the mounting groove 111, so that a sufficient distance can be kept between the pulling piece 400 and the mounting seat 110, and the pulling piece 400 can rotate relative to the cartridge body 100 in a large space without interfering with the rotation of the pulling piece 400. With first elasticity reset 500 place back in mounting groove 111, not only can utilize the lateral wall of mounting groove 111 to reset 500 concertina movement of piece to first elasticity to lead, can also reset 500 installation to first elasticity and fix a position and spacing. Further, the movement of the abutting portion 420 (the reciprocating movement of the abutting portion 420 toward the direction of approaching or separating from the bottom wall of the mounting groove 111) may be guided by the side wall of the mounting groove 111, so that the abutting portion 420 can be accurately moved in the depth direction of the mounting groove 111. The abutment 420 may be provided as an abutment strip or an abutment tab. The mounting groove 111 may be formed by being recessed on the mounting surface of the mounting seat 110, or two guide pieces 1111 may be provided at relatively intervals on the mounting surface of the mounting seat 110, and the mounting groove 111 may be formed by the two guide pieces 1111 and the mounting surface of the mounting seat 110 being engaged with each other.

The guide structure 300 is matched with the box body 100 in a guide way, can be realized in a guide rail and guide groove matched mode, can also be realized in a sliding block and sliding groove matched mode, and only the requirement that the box body 100 can move back and forth along the preset direction is met.

As shown in fig. 4, on the basis of any of the above embodiments, the guiding structure 300 includes a first guiding component 310 disposed on one side of the box body 100 and a second guiding component 320 disposed on the other side of the box body 100, and both the first guiding component 310 and the second guiding component 320 are in guiding fit with the box body 100. So, utilize first direction subassembly 310 to lead the removal of one side of box body 100, utilize second direction subassembly 320 to lead the removal of the opposite side of box body 100 for box body 100 can be accurate move along predetermineeing the direction, guarantee that box body 100 atress is even, can not take place to rock at the removal in-process.

As shown in fig. 4, in an embodiment, the first guiding assembly 310 includes a first guiding plate 311 (the first guiding plate 311 is fixed on the frame 1000 by riveting or welding, etc.) and a first guiding block 312, the first guiding plate 311 is provided with a first guiding groove (not shown) arranged along a preset direction, the first guiding block 312 is movably arranged in the first guiding groove, and the first guiding block 312 is fixed on one side of the box body 100 by welding or riveting, etc. In this manner, one side of the cartridge body 100 can be reciprocally moved in a predetermined direction by the reciprocal movement of the first guide block 312 in the first guide groove.

Further, the storage box further includes a second elastic restoring member (not shown), which is disposed in the first guide groove and is used for restoring the first guide block 312. In this way, in the process of pulling out the cartridge body 100 relative to the frame 1000, the first guide block 312 moves along the length direction of the first guide groove, and in the process of moving the first guide block 312, the second elastic reset member is continuously compressed or stretched. After the article is placed in the storage cavity 120 of the box body 100, the acting force on the pulling member 400 is only required to be removed, and under the action of the second elastic resetting member, the first guide block 312 is reset along the length direction of the first guide groove, and then the second locking portion 410 is moved to be matched with the first locking portion 200 in a locking manner, so that the box body 100 is connected with the framework 1000 as a whole again. The second elastic reset piece is preferably a spring and is convenient to mount in the first guide groove.

When the first guide block 312 moves along the length direction of the first guide groove, when the first guide block 312 moves toward the first end close to the first guide groove, the box body 100 is drawn out from the framework 1000, and when the first guide block 312 moves toward the second end close to the first guide groove, the box body 100 extends into the framework 1000, wherein the first end and the second end are opposite ends of the first guide groove. When the second elastic restoring member is disposed between the first end and the first guide block 312, the first guide block 312 moves toward the first end close to the first guide groove to compress the second elastic restoring member, and the first guide block 312 is restored by the tensile restoring force of the second elastic restoring member; when the second elastic restoring member is disposed between the second end and the first guide block 312, the first guide block 312 moves toward the first end close to the first guide groove to stretch the second elastic restoring member, and the first guide block 312 is restored by the contraction restoring force of the second elastic restoring member. Of course, a second elastic restoring element may be disposed between first guiding block 312 and the first end and between first guiding block 312 and the second end.

As shown in fig. 4, the second guiding assembly 320 includes a second guiding plate 321 (the second guiding plate 321 is fixed on the frame 1000 by riveting or welding, etc.) and a second guiding block 322, the second guiding plate 321 is provided with a second guiding groove (not shown) arranged along a preset direction, the second guiding block 322 is movably arranged in the second guiding groove, and the second guiding block 322 is fixed on the other side of the box body 100 by welding or riveting, etc. In this manner, the other side of the cartridge body 100 can be reciprocally moved in a preset direction by the reciprocal movement of the second guide block 322 in the second guide groove.

Further, the storage box further includes a third elastic reset member (not shown), and the third elastic reset member is disposed in the second guide groove and used for resetting the second guide block 322. Thus, in the process of pulling out the box body 100 relative to the frame 1000, the second guide block 322 moves along the length direction of the second guide groove, and the third elastic reset piece is continuously compressed or stretched in the process of moving the second guide block 322. After the article is placed in the storage cavity 120 of the box body 100, only the acting force on the pulling member 400 needs to be removed, and under the action of the third elastic resetting member, the second guide block 322 is reset along the length direction of the second guide groove, and then the second locking portion 410 is moved to be matched with the first locking portion 200 in a locking manner, so that the box body 100 is connected with the framework 1000 as a whole again. Certainly, can set up the second elasticity piece that resets in first guide way simultaneously, reset the third elasticity piece that resets and set up in the second guide way, reset the effect better. The third elastic reset piece is preferably a spring and is convenient to mount in the second guide groove.

When the second guide block 322 moves along the length direction of the second guide groove, when the second guide block 322 moves toward the third end close to the second guide groove, the box body 100 is drawn out from the frame 1000, and when the second guide block 322 moves toward the fourth end close to the second guide groove, the box body 100 extends into the frame 1000, wherein the third end and the fourth end are opposite ends of the second guide groove. When the third elastic reset piece is disposed between the third end and the second guide block 322, the second guide block 322 moves toward the third end close to the second guide groove to compress the third elastic reset piece, and the second guide block 322 is reset by the stretching reset force of the third elastic reset piece; when the third elastic reset piece is disposed between the fourth end and the second guide block 322, the second guide block 322 moves toward the fourth end close to the second guide groove to stretch the third elastic reset piece, and the second guide block 322 is reset by the contraction reset force of the third elastic reset piece. Of course, a third elastic restoring element may be disposed between the second guiding block 322 and the third end and between the second guiding block 322 and the fourth end.

On the basis of any of the above embodiments, the storage box further includes a shielding piece 600, the shielding piece 600 is provided with a through hole 610 for the pulling piece 400 to extend out, the shielding piece 600 is in threaded connection or clamping connection with the box body 100, and the shielding piece 600 is covered on the outer side of the box body 100. Thus, the outer side wall of the box body 100 is shielded by the shielding piece 600, so that the first locking part 200, the second locking part 410, the first elastic resetting piece 500 and the guide structure 300 are invisible from the outside, and the appearance quality of the storage box is improved. The shielding member 600 is preferably a shielding plate, and can effectively perform a shielding effect. The outside of the cartridge body 100 refers to a surface of the cartridge body 100 facing a user.

In an embodiment, a seat is further provided, which includes a frame 1000 and the storage box of any of the above embodiments, the seat frame 1000 is provided with an installation cavity, the storage box is arranged in the installation cavity, and the first locking portion 200 is fixedly arranged on the frame 1000.

In the seat of the above embodiment, when an article needs to be placed in the storage cavity 120 of the box body 100 of the storage box, only a corresponding acting force needs to be applied to the pulling element 400, so that one side of the pulling element 400 moves towards the direction close to the mounting seat 110, and the pulling element 400 overcomes the elastic force of the first elastic resetting element 500 (further compresses the first elastic resetting element 500 or further stretches the first elastic resetting element 500), and further the pulling element 400 rotates around a corresponding rotation axis, and further the second locking portion 410 is separated from the first locking portion 200, so that the box body 100 can move in the preset direction under the guiding action of the guiding structure 300 under the pulling of the pulling element 400, and further the box body 100 moves out of the mounting cavity relative to the framework 1000, and thus the article can be smoothly placed in the storage cavity 120 of the box body 100, and the storage space of the seat is increased, the cost is not increased greatly, and the economical efficiency is good.

It should be noted that the seat of the above embodiment may be a front seat or a rear seat of an automobile, a train, a high-speed rail seat, and even an office seat or a home seat.

In one embodiment, an automobile is also provided, including the seat of the above embodiment.

The automobile of the embodiment installs the storage box in the installation cavity of the seat, so that the seat has the storage function, the storage space of the automobile is enlarged, the cost is not increased, and the economical efficiency is good.

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

The above examples are merely illustrative of several embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.