CN216833363U - Handrail box structure and car - Google Patents

Abstract

The utility model discloses a handrail box structure and an automobile, wherein the handrail box structure comprises a handrail body with a containing cavity and a table plate component which is rotationally connected with the containing cavity through a rotating piece; the accommodating cavity is provided with a first opening positioned above the handrail body and a second opening positioned in front of the handrail body; the first opening is connected with a first cover plate; when the table component is switched between a storage state in the accommodating cavity and a use state above the armrest body, the first cover plate is opened or covers the first opening along with the rotation of the rotating piece. The utility model discloses a first apron can be automatically along with the rotation of rotating and open or cover first opening automatically, need not the first apron of artificial upset, opens first opening back when first apron, and the table subassembly is located handrail body top for the table subassembly is close to the user, convenience of customers operation and use.

Description

Handrail case structure and car

Technical Field

The utility model relates to the technical field of vehicles, especially, relate to a handrail case structure and car.

Background

With the development of the automobile industry, automobiles are endowed with more and more functions and more use scenes. For example, the user may work or read in a car. Stowable folding tables have become the first choice due to the limited space within most automobiles. However, the operation is troublesome when the foldable table plate is pulled out at present, the cover plate is basically turned over firstly, then the table plate is turned over, and finally the table plate is stretched in the vertical direction to enable the table plate to be in a use state, so that the operation of a user is troublesome. And when the desk plate is in the use state, the desk plate is far away from the user, so that the desk plate is inconvenient for the user to use.

Thus, there is a need for improvements and enhancements in the art.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, to the above-mentioned defect of prior art, provide a handrail case structure and car, but aim at solving the folding table of the formula of accomodating among the prior art troublesome poeration when pulling out the table, and when the table was located the user state, the table was far away from the user, was not convenient for the problem that the user used.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts as follows:

in a first aspect, the utility model provides a handrail box structure, which comprises a handrail body with a containing cavity and a table plate component rotationally connected with the containing cavity through a rotating component;

the accommodating cavity is provided with a first opening positioned above the handrail body and a second opening positioned in front of the handrail body; the first opening is communicated with the second opening; the first opening is connected with a first cover plate;

when the table component is switched between a storage state in the accommodating cavity and a use state above the armrest body, the first cover plate is opened or covers the first opening along with the rotation of the rotating piece.

The chamber that holds in this embodiment is provided with first opening and second opening, when the user need use the table subassembly, the rotation of accessible rotation piece drives the table subassembly and rotates in vertical direction, so that the table subassembly overturns out along with holding the intracavity, and can pass through first opening during the table subassembly upset, and then the jack-up covers the first apron on first opening, thereby make the automatic upset of first apron, make first apron open first opening along with the rotation of rotation piece, therefore, this embodiment is when the table subassembly overturns out along with holding the intracavity, first apron also can overturn automatically, it can overturn the table subassembly to need not the first apron of manual upset of user, and easy and convenient for operation. Because first opening is located the top of handrail body, the table subassembly after the upset is located the top of handrail body, is closer to user's health, and the user of being convenient for uses the table subassembly. The desk plate component is positioned above the handrail, the use height of the desk plate component accords with human engineering, and the experience of a user using the desk plate component is improved.

In one implementation, when the table component is in the use state, the table component and the armrest body have a gap in the height direction.

After this embodiment table subassembly overturns, there is the clearance table subassembly and handrail body in the direction of height, therefore the table subassembly keeps certain space between upset in-process and handrail body always, can prevent effectively that the table subassembly from pressing from both sides the user finger at the pivoted in-process, has guaranteed user's safety in utilization.

In one implementation, the armrest box structure further comprises a flip structure; the turnover structure is respectively connected with the first cover plate and the rotating part.

The flip structure in this embodiment is used for being connected first apron and table subassembly, and when the table subassembly overturns, this flip structure of accessible drives first apron and turns along with the table subassembly.

In one implementation, the flip structure is a resilient structure.

In this embodiment, the elastic structure is installed between the first cover plate and the rotating member, and the first cover plate can be automatically turned over along with the table component by using a simple mechanical structure.

In one implementation, the armrest box structure further comprises a rotating shaft; the first cover plate is hinged at the first opening through a rotating shaft; the elastic structure is a torsion spring; the torsion spring is sleeved on the rotating shaft; both ends of the torsional spring are connected with the rotating piece.

The first cover plate in the embodiment is hinged at the first opening through the rotating shaft, so that the first cover plate can be conveniently turned out from the first opening. Set up elastic construction into simple structure's torsional spring in this embodiment, it is with low costs, be favorable to reducing the cost of whole handrail case structure.

In one implementation, a side of the first cover plate close to the rotating member is defined as a first side, and the first side is provided with an abutting part protruding towards the rotating member; when the desk plate component is in a use state, the abutting part abuts against the rotating part; the contact area with the rotating member is smaller than the surface area of the first side.

When the desk plate component is in a use state, the first cover plate opens the first opening, and the first cover plate is contacted with the rotating piece. The first cover plate is a panel-shaped structure, and if the panel-shaped structure of the first cover plate is directly contacted with the rotating piece, the friction area is large, and the generated noise is large.

In one implementation, the table assembly includes at least two plates; the adjacent plate members are hinged with each other.

This embodiment sets the table subassembly to folded cascade, can fold the table subassembly when accomodating, practices thrift table subassembly storage space, can expand the table subassembly when using, enlarges the usable floor area of table subassembly, convenience of customers' use.

In one implementation, the plate member connected to the rotating member is defined as a first plate; defining any plate member adjacent to the first plate as a second plate; the second panel is hinged to the side of the first panel that is closer to the user or to the side of the first panel that is further from the user.

In the embodiment, the second board is turned and opened along the side, close to the user, of the first board or the side, far away from the user, of the first board, so that the use area of the table board assembly is enlarged, and the table board assembly is enabled to be closer to the user. And along being close to the user and keeping away from the articulated folding mode of user's direction and making the whole width less when accomodating in holding the intracavity of table subassembly, can not occupy too much space.

In one implementation mode, the handrail box structure further comprises a fixed part, the fixed part is fixed on the handrail body, and one end of the fixed part is hinged with the rotating part;

a protruding part is arranged on one side of the first cover plate close to the accommodating cavity; when the desk board assembly is in the storage state, the protruding part abuts against the top side of the fixing piece.

In this embodiment, the rotating member is connected to the armrest body through the fixing member, so that the connection between the table component and the armrest body is established. When the table component is in a use state, the handrail body provides a certain supporting force for the table component, and the stability in use of the table component is guaranteed. And, when the table subassembly was in the state of accomodating (was located and holds the intracavity), the upside butt of bulge and mounting guaranteed first apron upper surface and handrail case upper surface parallel and level, made things convenient for first apron to provide the elbow for the user and supported. In addition, the protruding portion in this embodiment can increase the rigidity of the first cover plate, and the protruding portion can be provided as a hollow structure, which is advantageous for reducing the weight of the first cover plate.

In one implementation, the console box structure further includes a second cover plate; the second cover plate is rotatably connected to the second opening.

In this embodiment, after the table subassembly was accomodate into and is held the intracavity, the second apron can be used to cover the second opening that holds the chamber, prevents that the dust from getting into and holds the intracavity to can improve the pleasing to the eye degree of whole handrail case structure.

In one implementation, a safety rope is connected between the second cover plate and the accommodating cavity.

In this embodiment, when the safety rope is used for preventing braking, the second cover plate flies forward to injure a driver or a passenger in the vehicle.

In a second aspect, an embodiment of the present invention further provides an automobile, including a vehicle body and the armrest box structure according to any one of the above schemes; the handrail body of the handrail box structure is arranged in the vehicle body.

In this embodiment, set up the handrail case structure among the above-mentioned scheme in the car, the passenger can use the table subassembly to handle official business or read when needing, and the accessible rotates the rotation of piece, drives the table subassembly and rotates in vertical direction to from accommodating the intracavity upset and coming out, and when the table subassembly overturns from accommodating the intracavity, first apron also can overturn automatically, need not the first apron of passenger's manual upset and can overturn the table subassembly, and easy operation is convenient. And the table subassembly after the upset is located the top of handrail body, is closer to the passenger health, and the passenger of being convenient for uses the table subassembly. And the table component is positioned above the handrail, the use height of the table component accords with human engineering, and the experience of using the table component by passengers is improved.

Has the advantages that: compared with the prior art, the utility model provides a handrail box structure, which comprises a handrail body with a containing cavity and a table component rotationally connected with the containing cavity through a rotating piece; the accommodating cavity is provided with a first opening positioned above the handrail body and a second opening positioned in front of the handrail body, and the first opening is communicated with the second opening; the first opening is connected with a first cover plate. When the table component is switched between a storage state in the accommodating cavity and a use state above the armrest body, the first cover plate is opened or covers the first opening along with the rotation of the rotating piece. When the user need use the table subassembly, the accessible rotated the rotation of piece, drives the table subassembly and rotates in vertical direction to with the table subassembly from accomodating the intracavity upset and coming out, and can pass through first opening when the table subassembly overturns, and then to covering the jack-up of first apron on first opening, thereby make the automatic upset of first apron, consequently, the utility model discloses when the table subassembly overturns from accomodating the intracavity, first apron also can overturn automatically, need not the first apron of the manual upset of user and can overturn the table subassembly, and easy operation is convenient. And, because first opening is located the top of handrail body in the utility model, the table subassembly is located the top of handrail body, more is close to user's health, and the user of being convenient for uses the table subassembly. And the table component is positioned above the handrail, the use height of the table component accords with human engineering, and the experience of a user using the table component is improved.

In addition, first apron is connected with rotating through flip structure, and flip structure sets up to the torsional spring, can realize first apron along with the automatic upset of table subassembly through utilizing simple mechanical structure. And after the table subassembly overturned, there was the clearance table subassembly and handrail body in the direction of height, can prevent effectively that the table subassembly from pressing from both sides the user finger at the pivoted in-process, guaranteed user's safety in utilization. When the desk plate assembly is in a use state, the first opening is opened in the first cover plate, the abutting part on the first cover plate is in contact with the rotating part, and due to the fact that the contact area between the abutting part and the rotating part is small, noise generated by friction can be reduced. One side of the first cover plate, which is close to the accommodating cavity, is provided with a convex part; and when the table subassembly was in the state of accomodating, the upside butt of bulge and first mounting guaranteed first apron upper surface and handrail case upper surface parallel and level, makes things convenient for first apron to provide the elbow for the user and supports. And the bulge can also increase the rigidity of the first cover plate, and the bulge can be arranged into a hollow structure, so that the weight of the first cover plate is favorably reduced.

Secondly, the utility model discloses well commentaries on classics piece passes through the mounting to be connected on the handrail body for the table subassembly has just established with the handrail body and has been connected, and when the table subassembly was in user state, the handrail body provided the holding power of certain degree for the table subassembly, had guaranteed that the table subassembly uses stably. In addition, this embodiment sets the table subassembly into folded cascade, and the table subassembly includes first board and second board, and the second board articulates and is close to user's one side or keep away from user's one side on the first board, has not only enlarged the usable floor area of table subassembly when using, makes the table subassembly more be close to the user moreover. Can fold the table subassembly when accomodating for the whole width is less when accomodating the intracavity of accomodating of table subassembly, practices thrift table subassembly and accomodates the space.

Drawings

Fig. 1 is a schematic structural view of the table component of the armrest box structure in the storage state.

Fig. 2 is a schematic structural view of the table component of the armrest box structure in a use state.

Fig. 3 is a first structural schematic diagram of the table component of the armrest box structure in the process of turning over.

Fig. 4 is a second schematic structural view of the table component of the armrest box structure in the process of turning over.

Fig. 5 is a schematic view of a local structure of the rotating member and the first cover plate abutting portion of the armrest box structure according to the present invention.

Fig. 6 is a schematic structural view of the first cover plate of the armrest box structure provided by the present invention.

Fig. 7 is a schematic view of an installation structure of the middle rotating member, the first fixing member and the second fixing member of the armrest box structure according to the present invention.

Fig. 8 is an enlarged view of a portion a in fig. 3 (a schematic view of a connection structure between the second cover plate and the accommodating chamber).

Fig. 9 is a schematic structural view of the first buckle of the armrest box structure provided by the present invention.

The reference numbers illustrate:

armrest body	10	Containing cavity	20
				Table board assembly	30	First opening	201
Second opening	202	First cover plate	210
				Second cover plate	220	Rotating member	40
Turnover structure	50	Rotating shaft	510
				Abutting part	211	Connecting piece	520
First plate	310	Second plate	320
				Hinge assembly	330	Concave part	340
First fixed part	60	Second fixing part	70
				Projecting part	212	Outer plate	221
Inner plate	222	Safety rope	80
				Buckle	90	Hook part	901
Gap(s)	110	Inner notch	120
				Soft cushion	130	Convex part	140
First side	21

Detailed Description

In order to make the objects, technical solutions and effects of the present invention clearer and clearer, the following description of the present invention will refer to the accompanying drawings and illustrate embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

When the table plate is pulled out, the cover plate is basically turned over firstly, then the table plate is turned over, and finally the table plate is stretched in the vertical direction, so that the table plate is in a use state, and the operation of a user is troublesome. And when the desk plate is in the use state, the desk plate is far away from the user, so that the desk plate is inconvenient for the user to use.

In order to solve the problems of the prior art, the present embodiment provides a console box structure, as shown in fig. 1 and 2, including a console body 10 having a receiving cavity 20, and a table assembly 30 rotatably connected with the receiving cavity 20 through a rotating member 40. The accommodating chamber 20 is provided with a first opening 201 and a second opening 202. The first opening 201 is located above the armrest body 10. The second opening 202 is located in the front side direction of the armrest body 10. The first opening 201 and the second opening 202 communicate. A first cover 210 is connected to the first opening 201, and the first cover 210 is used for covering or opening the first opening 201. In the present embodiment, the table assembly 30 has two states, namely, a storage state and a use state. When the table component 30 is in the storage state, the table component 30 is located in the accommodating cavity 20, and at this time, as shown in fig. 1, the first cover 210 covers the first opening 201. When the table assembly 30 is in the use state, as shown in fig. 2, the table assembly 30 is located above the armrest body 10, and the first cover 210 opens the first opening 201. When the table assembly 30 is switched between the storage state and the use state (i.e., during the process of opening the table assembly 30 or storing the table assembly 30 by the user), the first cover 210 opens or covers the first opening 201 along with the rotation of the rotating member 40. The rotation of the rotating member 40 drives the table component 30 to be overturned out of the accommodating cavity 20 through the second opening 202, or the table component 30 is overturned into the accommodating cavity 20 through the second opening 202. As shown in fig. 3 and 4, when the user needs to use the table component 30, the table component 30 is turned out from the accommodating cavity 20 through the second opening 202, and the table component 30 can pass through the first opening 201 during turning, and further jacks up the first cover plate 210 covering the first opening 201, so that the first cover plate 210 is turned over automatically, therefore, in the embodiment, when the table component 30 is turned out from the accommodating cavity 20, the first cover plate 210 can also be turned over automatically, the table component 30 can be turned out without manually turning the first cover plate 210 by the user, and the operation is simple and convenient. Moreover, the first opening 201 is disposed above the armrest body 10, and after the first cover 210 opens the first opening 201, compared with the case that the table component 30 is located in front of the armrest body 10 after being turned over in the prior art, the table component 30 in this embodiment is located above the armrest body 10 and is closer to the body of the user, so that the user can use the table component 30 conveniently. And the table component 30 is positioned above the handrail, the use height of the table component accords with human engineering, and the experience of a user using the table component 30 is improved. When the table component 30 needs to be stored, the table component 30 can be moved toward the second opening 202, and along with the movement of the table component 30, the first cover plate 210 jacked up by the table component 30 can be restored to the original state and gradually rotate downward. When the table assembly 30 is turned over from the second opening 202 into the accommodating cavity 20, the first cover plate 210 completely covers the first opening 201. In a specific application, in order to realize that the first cover 210 can be automatically turned up and down along with the turning of the table assembly 30, a linkage structure, such as a telescopic structure, a link structure or a hydraulic rod structure, may be disposed between the first cover 210 and the table assembly 30.

In the present embodiment, as shown in fig. 4 and 5, in the present embodiment, the table component 30 is rotatably connected to the armrest body 10 through the rotating component 40, and the table component 30 is driven to rotate in the vertical direction by the rotating component 40, which facilitates the table component 30 to be turned out of or into the accommodating cavity 20 from the accommodating cavity 20. In practical applications, the rotating member 40 may be configured as a rotating rod structure, a rotating block structure, or a rotating shaft structure, and the rotating member 40 is configured as a rotating block structure in the present embodiment. As shown in fig. 2, when the table assembly is in the use state, the upper end section of the rotating member 40 is small in size in the vehicle width direction; the lower end of the rotation member 40 has a large sectional size. The upper end cross-sectional shape of the rotating member 40 in the vehicle width direction is a triangle-like shape; the lower end of the rotating member 40 has a rectangular cross section. The end faces of the upper end and the lower end of the rotating piece are cambered surfaces, and the two ends of the rotating piece are provided with rotatable connecting parts, so that the rotating piece is convenient to rotate with a part structurally connected with the rotating block. Specifically, one end of the rotating block structure is rotatably connected with the armrest body 10, and the rotating direction is vertical, so that when the table component 30 is connected with the rotating block structure, the table component 30 can be driven to rotate up and down in the front-back direction through the rotation of the rotating block structure in the vertical direction, and the table component 30 can be favorably overturned out of or overturned into the accommodating cavity 20 from the accommodating cavity 20. The other end of this rotation block structure rotates with table subassembly 30 to be connected, and the direction of rotation is from the top down towards the direction of being close to user side upset to horizontal position, and table subassembly 30 can overturn to user's the place ahead, convenience of customers use in the horizontal direction upset round rotation block structure like this, can be convenient for with table subassembly 30 upset like this. In addition, the height of the rotating member 40 in the present embodiment can be set according to the height of the table assembly 30, so as to meet the use requirements of different users.

Since the table assembly 30 needs to be turned over when the table assembly 30 is used in the present embodiment, when the console box structure is applied in a scene with a small space (such as an automobile), the user sitting on the chair may be affected by the turning process of the table assembly 30. For this reason, the receiving cavity 20 of the present embodiment is provided at the front side of the armrest body 10, not completely occupying the inner space of the armrest box. And the first opening 201 is provided at the top side of the handle body 10; the second opening 202 is disposed at the front side of the armrest body 10, so that the position of the first opening 201 and the second opening 202 is defined and the table assembly 30 is defined. As shown in fig. 4, the table assembly 30 is turned out from the front side of the armrest body 10 by almost 180 ° to the position of the table assembly 30 shown in fig. 4, and then the table assembly 30 is turned toward the front of the user, so that the space required for the entire table assembly 30 to be turned is small, and the seating space of the user is not affected.

In one implementation, when the table component 30 is turned over and is in the use state, the table component 30 and the armrest body 10 have a gap in the height direction, so that the table component 30 and the armrest body 10 always keep a certain space in the turning process, the user fingers can be effectively prevented from being clamped by the table component 30 in the rotating process, and the use safety of the user is ensured.

In another implementation, the console box structure in this embodiment includes an overturning structure 50, as shown in fig. 6, the overturning structure 50 is connected with the first cover plate 210; the flipping mechanism 50 is also connected to the rotating member 40. The turning structure 50 in this embodiment is used to connect the first cover plate 210 with the table component 30, and when the rotating component 40 rotates and drives the table component 30 to turn, the first cover plate 210 can be driven to turn along with the table component 30 by the turning structure 50. Specifically, the flip structure 50 in the present embodiment is an elastic structure, and the elastic structure is installed between the first cover plate 210 and the rotating member 40 or between the first cover plate 210 and the table assembly 30. In addition, the armrest box structure in this embodiment further includes a rotating shaft 510; the first cover plate 210 is hinged at the first opening 201 through a rotating shaft 510; the elastic structure is connected to the rotation shaft 510 and the rotation member 40, respectively. The first cover 210 in this embodiment is hinged at the first opening 201 by a hinge 510, so that the first cover 210 can be easily turned out from the first opening 201. Moreover, the elastic structure is respectively connected to the rotating shaft 510 and the rotating member 40, and the rotating member 40 is connected to the table component 30, so that when the table component 30 is turned out from the second opening 202, the first cover plate 210 is driven to automatically turn out from the first opening 201 through the linkage relationship among the rotating member 40, the rotating shaft 510 and the elastic structure. In addition, since the table component 30 jacks up the first cover plate 210 in the process of turning over the table component 30 from the first opening 201 to the use state, the first cover plate 210 automatically turns over together with the turning over of the table component 30; when the table component 30 is turned over to be in the use state, the first cover plate 210 is abutted against the rotating member 40, and the elastic structure arranged between the first cover plate 210 and the rotating member 40 is in the stressed state. And after the table subassembly 30 uses the completion, need resume to accomodating the state, table subassembly 30 overturns once more this moment, and the atress of elastic construction slowly disappears this moment, and elastic construction's elasticity performance can make elastic construction reconversion, consequently just can drive first apron 210 automatic upset reset (cover automatically on first opening 201 promptly), has realized promptly as long as table subassembly 30 overturns, and first apron 210 will overturn along with the upset of table subassembly 30 automatically. In practical application, the elastic structure in the embodiment can be a torsion spring, and the torsion spring is simple in structure and low in cost, so that the cost of the whole armrest box structure is reduced. In other embodiments, the flipping mechanism 50 may also be made of an elastic material, and the elastic property of the elastic material itself may also be used to control the first cover plate 210 to flip automatically.

The first cover 210 in this embodiment is configured to be a panel-shaped structure, as shown in fig. 5 and 6, when the table assembly 30 is turned over to be in the use state, the first cover 210 is abutted against the rotating member 40, and the table assembly 30 may shake during the use process, so that friction is generated between the first cover 210 and the rotating member 40, and noise is generated. For this reason, in the present embodiment, the abutting portion 211 is disposed on the first cover plate 210, the abutting portion 211 is disposed on a side of the first cover plate 210 close to the rotating member 40, and the side of the first cover plate 210 close to the rotating member 40 is defined as the first side 21, so that the abutting portion 211 is disposed on the first side 21, and the abutting portion 211 protrudes toward the rotating member 40, and when the table plate assembly 30 is in the use state, the abutting portion 211 abuts against the rotating member 40; the abutment 211 has a smaller contact area with the rotary member 40 than the surface area of the first side 21. As can be seen from fig. 5, when the table assembly 30 is in the use state, the first cover plate 210 opens the first opening 201, and the first cover plate 210 is in contact with the rotating member 40. However, in the present embodiment, the abutting portion 211 is used instead of the first cover plate 210 to contact the rotating member 40, and the contact area between the abutting portion 211 and the rotating member 40 is small, so that noise generated by friction can be reduced. In a specific application, the abutting portion 211 may be provided with one or more, for example, a plurality of protrusions are provided on the first side 21 of the first cover plate 210, and the abutting portion 211 may be provided on one of the protrusions. The abutting portion 211 may be a dot portion, a stripe structure, a sheet structure, etc., which can reduce the contact area between the first cover plate 210 and the rotating member 40, thereby reducing noise. The shape, the installation position, and the number of the abutting portions 211 can be adjusted as needed, and this embodiment is not limited thereto.

In practical applications, as shown in fig. 6, the abutting portion 211 in the present embodiment is configured as a rib structure, which is a common protruding structure and is easier to process and manufacture than a point-like structure. The rib structure may be provided on one of the plurality of protrusions on the first side 21 of the first cover plate 210, and two of the rib structures are provided, and are arranged side by side in the left-right direction, and are in contact with the rotation member 40 when the table assembly 30 is in a use state. In addition, the surface of the first cover plate 210 in this embodiment may be configured to be an arc structure, which is beautiful, and the first cover plate 210 in other embodiments may also be configured to be a flat plate structure, which is not limited in this embodiment.

In another embodiment, a connecting member 520 is further disposed between the table assembly 30 and the rotating member 40, as shown in fig. 5, one end of the connecting member 520 is connected to the table assembly 30; the other end of the link member 520 is hinged to the rotation member 40. Since the connection member 520 is hinged to the rotation member 40, the table assembly 30 can be turned over from the top to the bottom toward the user side or from the bottom to the top away from the user side by the connection member 520.

The table assembly 30 in this embodiment is a collapsible structure, as shown in fig. 2 and 3. The table assembly 30 comprises at least two plates, and each adjacent plate is hinged with each other. Therefore, the table component 30 can be folded when being stored (as shown in fig. 3), the storage space of the table component 30 is saved, the table component 30 can be unfolded when being used (as shown in fig. 2), the use area of the table component 30 is enlarged, and the use of the table component 30 is convenient for users. Specifically, the present embodiment defines the plate member connected to the rotating member 40 as the first plate 310; defining any plate member adjacent to the first plate 310 as a second plate 320; the second plate 320 is hinged to the side of the first plate 310 close to the user or the side of the first plate 310 away from the user, and when viewed from fig. 2, the side of the first plate 310 close to the user is the rear side of the first plate 310, and the side of the first plate 310 away from the user is the front side of the first plate 310, so that the second plate 320 is disposed at the front side or the rear side of the first plate 310, and the second plate 320 is hinged to the first plate 310. And in a specific application, the first plate 310 and the second plate 320 are connected by a hinge 330 in this embodiment. The table assembly 30 of the present embodiment is provided with three plate members including a first plate 310 and two second plates 320. Wherein the length of the hinge 330 on one side of the first plate 310 is greater than the length of the hinge 330 on the other side, the hinges 330 with two different lengths are respectively arranged on two sides of the middle plate, which is beneficial to the width of each plate superposed into one plate, therefore, the second plate 320 can be folded from the front side or the back side to the first plate 310, and folded to form the table top structure shown in fig. 3, at the moment, the first plate 310 and the second plate 320 are superposed together, so that the width of the table top assembly 30 is smaller when the table top assembly is wholly contained in the containing cavity 20, and the table top assembly does not occupy too much space of the handrail body 10. When the second board 320 is folded and unfolded from the first board 310, not only the usable area of the table assembly 30 is enlarged, but also the table assembly 30 is brought closer to the user.

In one implementation, as shown in fig. 2, the table assembly 30 in the present embodiment is provided with an elongated recess 340, and the recess 340 is provided on the outermost second plate 320. The recess 340 facilitates the user in flipping the table assembly 30 or in flipping the second board 320 from the first board 310. And the concave part 340 can also be used for placing bar-shaped articles such as pens and the like, thereby being convenient for users to use.

The console box structure in this embodiment further includes a fixing member fixed to the handle body, and one end of the fixing member is hinged to the rotating member 40, so that the table assembly 30 is connected to the handle body 10. Specifically, the fixing member in this embodiment includes a first fixing member 60 and a second fixing member 70 fixedly connected to the first fixing member 60. As shown in fig. 7, the second fixing member 70 is fixed to the armrest body 10. The second fixing member 70 is located at the front side of the receiving chamber 20. One end of the first fixing member 60 is hinged to the rotating member 40. In the embodiment, the rotating element 40 is connected to the handle body 10 through the first fixing element 60, and the first fixing element 60 is fixed to the handle body 10 through the second fixing element 70, so that the rotating element 40, the first fixing element 60 and the second fixing element 70 form an integral body, and the rotating element 40 is connected to the table assembly 30, so that the table assembly 30 is connected to the handle body 10, and when the table assembly 30 is in a use state, the handle body 10 provides a certain supporting force for the table assembly 30, thereby ensuring the stable use of the table assembly 30. In a specific application, as shown in fig. 7, the first fixing element 60 in this embodiment is configured as a bent block structure, one end of the first fixing element 60 is hinged to the bottom of the rotating element 40, and the other end of the first fixing element 60 is fixedly connected to the second fixing element 70. The second fixing member 70 is formed in a right-angled bent tubular shape, and the first fixing member 60 is fixed to one tube of the second fixing member 70 in a manner that the fixing members are connected by bolts or screws; the other tube of the second fixing member 70 is fixed to the handle body 10, so that the rotation member 40, the first fixing member 60, and the second fixing member 70 are mounted on the handle body 10. Since the table assembly 30 is rotatably connected to the rotating member 40, when the table assembly 30 is in the use state, the first fixing member 60 and the second fixing member 70 provide a supporting force for the table assembly 30, which is beneficial to maintaining the stability of the table assembly 30.

Further, in the present embodiment, when the first cover 210 covers the first opening 201, the rigidity of the first cover 210 is insufficient. In order to increase the stability and rigidity of the first cover plate 210, the rotating member 40 can be thickened to provide support for the first cover plate 210, but the rotating member 40 is a metal member, and if the rotating member 40 is thickened, the weight of the whole armrest box is increased. Therefore, in the embodiment, the first cover plate 210 and the second cover plate 220 are made of PP material, which is beneficial to reducing the weight of the armrest box. And the present embodiment may further provide a protrusion 212 at an intermediate position of the first cover plate 210. As shown in fig. 5, the protrusion 212 is disposed on a side (i.e., the first side 21) of the first cover plate 210 close to the accommodating chamber 20, and the protrusion 212 protrudes in a direction away from the first side 21; when the table component 30 is in the storage state, the protrusion 212 abuts against the top side of the first fixing member 60. In the present embodiment, when the table assembly 30 is in the storage state (located in the accommodating cavity 20), the protruding portion 212 abuts against the upper side of the first fixing member 60, so as to ensure that the upper surface of the first cover plate 210 is flush with the upper surface of the console box, thereby facilitating the first cover plate 210 to provide elbow support for the user and improving the rigidity of the first cover plate 210. The thickness of the first cover plate 210 can be set to be 2.3 mm-2.7 mm, so that the material is saved. In addition, the protrusion 212 in the present embodiment may be provided as a hollow structure, further reducing the weight of the first cover plate 210. The side of the rotating member 40 away from the table assembly is provided with an avoidance space for the avoidance protrusion 212.

In other embodiments, a second cover 220 is rotatably connected to the second opening 202, and the second cover 220 is used for covering or uncovering the second opening 202. When the table assembly 30 is located above the armrest body 10, the second cover 220 opens the second opening 202, and after the table assembly 30 is turned over from the second opening 202 into the accommodating cavity 20, a user can close the second cover 220, so that the second cover 220 covers the second opening 202 of the accommodating cavity 20, dust is prevented from entering the accommodating cavity 20, and the aesthetic degree of the whole armrest box structure can be improved. The lower portion of the first cover plate 210 of this embodiment is configured to be arc-shaped, so the upper portion of the second cover plate 220 can also be configured to be arc-shaped, so that the arc-shaped lower portion of the first cover plate 210 fits with each other, and the first cover plate 210 and the second cover plate 220 jointly form an arc-shaped handrail surface, which is more beautiful. As shown in fig. 2 and 3, the receiving cavity 20 is provided at the front side of the armrest body 10, not occupying an excessive space of the armrest body 10. The second cover plate 220 is also provided in a panel-like structure, and the second cover plate 220 is composed of a plurality of plate members including an outer plate 221 and an inner plate 222.

In order to control the opening and closing of the second cover 220, a safety rope 80 is connected between the second cover 220 and the accommodating cavity 20 in the present embodiment, as shown in fig. 8, the safety rope 80 is used to prevent the second cover 220 from flying forward to hurt a driver or a passenger in the vehicle when the vehicle is braked. In this embodiment, the safety cord 80 is an elastic cord. When the user opens the second cover 220 to pull the table assembly 30 out of the accommodating cavity 20, the safety cord 80 between the second cover 220 and the accommodating cavity 20 is stretched, and after the table assembly 30 is completely pulled out of the accommodating cavity 20, the second cover 220 is pulled back to the original position based on the restoring force of the elastic cord itself, and the second cover 220 covers the second opening 202. In particular, when the safety rope 80 is used, the position of the safety rope 80 is limited in the embodiment, the safety rope 80 in the embodiment is connected to the lower portion of the accommodating cavity 20 and the lower portion of the second cover plate 220, even if the second cover plate 220 flies out, the flying-out path is safe, and safety of passengers in the vehicle can be protected to the greatest extent. If the safety cord 80 is disposed at the middle or upper portion of the receiving chamber 20 and the second cover 220, there is a possibility that the table assembly 30 may be disturbed in the roll-out or roll-in, and at the same time, the second cover 220 may easily fly upward to reach the passenger after flying forward.

In another implementation manner, in order to more conveniently arrange the safety rope 80, in the present embodiment, the inner plate 222 of the second cover plate 220 and the accommodating cavity 20 are both provided with the buckles 90, as shown in fig. 8, two ends of the safety rope 80 are respectively connected with the buckles 90 on the inner plate 222 and the buckles 90 on the accommodating cavity 20, so as to conveniently arrange the safety rope 80. Specifically, as shown in fig. 9, a hook 901 is disposed on the buckle 90 in this embodiment, the hook 901 can be used to connect with the safety rope 80, and the end of the safety rope 80 can be directly tied to the hook 901, so as to facilitate installation and replacement of the safety rope 80.

In addition, as shown in fig. 1, a notch 110 is further disposed on the armrest body 10 in the embodiment near the second opening 202, and the notch 110 is used for a user to open the second cover 220, so as to facilitate the user to operate. In addition, the top surface of the armrest body 10 in this embodiment is further provided with an inner recess 120 and a soft pad 130, and the inner recess 120 may be configured as a circular opening, which is convenient for a user to prevent articles such as a cup. The cushion 130 facilitates elbow support for the user and provides comfort. And the side of the armrest body 10 is also provided with an arc-shaped convex part 140, which is convenient for users to rely on and improves the aesthetic feeling of the armrest body 10.

Based on the above embodiment, the invention also discloses an automobile, which comprises an automobile body and the armrest box structure in the above embodiment, wherein the armrest body 10 of the armrest box structure is installed in the automobile body. In particular, the armrest box structure of the present embodiment may be mounted on a car seat for use as an armrest for the car seat.

As shown in fig. 1 and 2, the console box structure includes a console body 10, a receiving cavity 20 is provided in the console body 10, a table component 30 is rotatably connected to the receiving cavity 20 through a rotating member 40, and the table component 30 can be folded out of the receiving cavity 20 or can be accommodated in the receiving cavity 20. Specifically, the accommodating cavity 20 in this embodiment is provided with a first opening 201 and a second opening 202, wherein the first opening 201 is disposed above the armrest body 10, the second opening 202 is disposed in the front direction of the armrest body 10, the first opening 201 is communicated with the second opening 202, the table assembly 30 can be received into the accommodating cavity 20 from the second opening 202 through the rotation of the rotating member 40 or turned out from the accommodating cavity 20 through the second opening 202, that is, the table assembly 30 can rotate in a vertical direction, as shown in fig. 4, the table assembly 30 is turned out from the front side of the armrest body 10 until turning nearly 180 ° reaches the position of the table assembly 30 in fig. 4, and then the table assembly 30 is turned toward the front of the user, so that the required space during the turning of the whole table assembly 30 is small, and the seating space of the user is not affected. When the user needs to use the table component 30, the table component 30 can be turned out from the accommodating cavity 20 through the second opening 202, and the table component 30 can pass through the first opening 201 during turning, so as to jack up the first cover plate 210 covering the first opening 201, thereby enabling the first cover plate 210 to be automatically turned over, therefore, in the embodiment, when the table component 30 is turned out from the accommodating cavity 20, the first cover plate 210 can also be automatically turned over, the table component 30 can be turned out without manually turning the first cover plate 210 by the user, and the operation is simple and convenient. In addition, the first opening 201 in this embodiment is located above the armrest body 10, and when the first cover 210 opens the first opening 201, and the table component 30 is turned over and located in front of the armrest body 10, the table component 30 is located above the armrest body 10 and closer to the body of the user, so that the user can use the table component 30 conveniently. And the desk plate component 30 is positioned above the handrail, so that the use height of the desk plate component accords with the human engineering, and the experience of a user using the desk plate component 30 is improved. When the table component 30 needs to be stored, the table component can move towards the second opening 202, and along with the movement of the table component 30, under the action of the torsion spring, the first cover plate 210 jacked up by the table component 30 can restore the original state and gradually rotate downwards. When the table assembly 30 is turned over from the second opening 202 into the accommodating cavity 20, the first cover 210 completely covers the first opening 201, and then the user closes the second cover 220 to cover the second opening 202. In a specific application, the first cover plate 210 can be automatically turned up and down along with the turning of the table assembly 30.

The second cover plate 220 in this embodiment is provided in a panel-like structure, and the second cover plate 220 is composed of a plurality of plates including an outer plate 221 and an inner plate 222, and the safety cord 80 is connected between the second cover plate 220 and the accommodation chamber 20, as shown in fig. 7. Specifically, the inner plate 222 of the second cover plate 220 and the accommodating cavity 20 are both provided with a buckle 90, as shown in fig. 8 and 9, a hook 901 is provided on the buckle 90, and a safety rope 80 is tied on the hook 901, and the safety rope 80 is used for preventing the second cover plate 220 from flying forward to hurt a driver or a passenger in the vehicle when the vehicle is braked. In the present embodiment, the safety cord 80 is an elastic cord, when the user opens the second cover 220 and pulls the table assembly 30 out of the accommodating cavity 20, the safety cord 80 between the second cover 220 and the accommodating cavity 20 is stretched, and after the table assembly 30 is completely pulled out of the accommodating cavity 20, the second cover 220 is pulled back to the original position based on the restoring force of the elastic cord itself, and at this time, the second cover 220 covers the second opening 202. In particular, when the safety rope 80 is used, the position of the safety rope 80 is limited in the embodiment, the safety rope 80 in the embodiment is connected to the lower portion of the accommodating cavity 20 and the lower portion of the second cover plate 220, even if the second cover plate 220 flies out, the flying-out path is safe, and safety of passengers in the vehicle can be protected to the greatest extent. If the safety cord 80 is disposed at the middle or upper portion of the receiving chamber 20 and the second cover 220, there is a possibility that the table assembly 30 may be disturbed in the roll-out or roll-in, and at the same time, the second cover 220 may easily fly upward to reach the passenger after flying forward.

The first cover plate 210 in this embodiment is used to cover or open the first opening 201. A second cover 220 is rotatably connected to the second opening 202, and the second cover 220 is used for covering or uncovering the second opening 202. In this embodiment, the rotating member 40 is connected between the table component 30 and the armrest body 10, a connecting member 520 is further disposed between the table component 30 and the rotating member 40, one end of the connecting member 520 is connected to the table component 30, and the other end of the connecting member 520 is hinged to the rotating member 40. As shown in fig. 2, when the table assembly is in a use state, the upper end section of the rotating member is small in size in the vehicle width direction; the sectional size of the lower end of the rotating member 40 is large, and the sectional shape of the upper end of the rotating member 40 is a triangle-like shape in the vehicle width direction; the lower end of the rotation member 40 has a rectangular cross-section. The end faces of the upper end and the lower end of the rotating block structure are both arc faces, and the two ends of the rotating block structure are both provided with rotatable connecting parts, so that parts connected with the rotating block structure can rotate conveniently. As shown in fig. 4 and 5, the rotating member 40 and the connecting member 520 can drive the table component 30 to rotate in the vertical direction, which is beneficial to the table component 30 to turn out of the accommodating cavity 20 or turn into the accommodating cavity 20. In addition, the bottom of the rotating member 40 in this embodiment is hinged to one end of the first fixing member 60, as shown in fig. 7, the other end of the first fixing member 60 is fixed to the second fixing member 70, and the second fixing member 70 is fixed to the armrest body 10 by bolts or screws. Therefore, in the embodiment, the rotating member 40 is connected to the handrail body 10 through the first fixing member 60, and the first fixing member 60 is fixed to the handrail body 10 through the second fixing member 70, so that the rotating member 40, the first fixing member 60 and the second fixing member 70 form a whole, and the rotating member 40 is connected to the table assembly 30, so that the table assembly 30 is connected to the handrail body 10, and when the table assembly 30 is in a use state, the handrail body 10 provides a certain supporting force for the table assembly 30, thereby ensuring the stability of the table assembly 30.

The first cover 210 in this embodiment is configured to be a panel-shaped structure, as shown in fig. 6, the first cover 210 in this embodiment is hinged to the first opening 201 through a rotating shaft 510, a torsion spring is sleeved on the rotating shaft 510, the torsion spring is respectively connected to the rotating shaft 510 and the rotating member 40, and the rotating member 40 is connected to the table component 30, so that when the table component 30 is turned out from the second opening 202, the first cover 210 can be driven to automatically turn out from the first opening 201 through the linkage relationship among the rotating member 40, the rotating shaft 510 and the torsion spring. As the table component 30 jacks up the first cover plate 210 in the process of turning over the table component 30 from the first opening 201 to the use state, the first cover plate 210 automatically turns over together with the turning over of the table component 30; when the table component 30 is turned over to be in the use state, the first cover plate 210 is abutted against the rotating member 40 at this time, and the torsion spring disposed between the first cover plate 210 and the rotating member 40 is in the stressed state at this time. And after the table subassembly 30 uses the completion, need resume to accomodating the state, table subassembly 30 overturns once more this moment, and the atress of elastic construction slowly disappears this moment, and the elasticity performance of torsional spring can make the torsional spring reconversion, consequently just can drive first apron 210 automatic upset reset (cover automatically on first opening 201 promptly), has realized promptly as long as table subassembly 30 overturns, and first apron 210 will overturn along with the upset of table subassembly 30 automatically.

In the present embodiment, the first cover plate 210 is further provided with two ribs, as shown in fig. 6, which are arranged on one side of the first cover plate 210 close to the rotating member 40 and are arranged side by side along the left-right direction (as shown in fig. 2) when the table plate assembly 30 is in the use state. When the table component 30 is in a use state, the first cover plate 210 opens the first opening 201, and the first cover plate 210 is replaced by the convex rib to contact with the rotating member 40, and the contact area between the convex rib and the rotating member 40 is small, so that noise generated by friction can be reduced.

In order to increase the stability and rigidity of the first cover plate 210, a protrusion 212 having a hollow structure is disposed at a middle position of the first cover plate 210. As shown in fig. 5, the protrusion 212 is disposed on a side (i.e., the first side 21) of the first cover plate 210 close to the accommodating chamber 20, and the protrusion 212 protrudes in a direction away from the first side 21. When the table component 30 is in the storage state, the protrusion 212 abuts against the top side of the first fixing member 60. When the table assembly 30 is in the storage state (located in the accommodating cavity 20), the protruding portion 212 abuts against the upper side of the first fixing member 60, so that the upper surface of the first cover plate 210 is flush with the upper surface of the armrest box, the first cover plate 210 is convenient for the user to provide elbow support, and the rigidity of the first cover plate 210 is improved. The lower portion of the first cover plate 210 of this embodiment is configured to be arc-shaped, so the upper portion of the second cover plate 220 can also be configured to be arc-shaped, so that the lower portion of the first cover plate 210 can be attached to the arc-shaped portion, and the appearance is more attractive.

The table component 30 of the present embodiment is composed of three plate members, including a first plate member 310 and two second plate members 320, and the adjacent plate members are hinged to each other. In which the plate members connected to the rotating member 40 are defined as a first plate 310, and any plate member adjacent to the first plate 310 is defined as a second plate 320, so that the second plate 320 is located on both sides of the first plate 310, specifically, as seen in fig. 2, the side of the first plate 310 close to the user is the rear side of the first plate 310, and the side of the first plate 310 far from the user is the front side of the first plate 310, so that the second plate 320 is disposed on the front side or the rear side of the first plate 310. In addition, in the embodiment, the first plate 310 and the second plate 320 are connected by the hinge 330, and the length of the hinge 330 on one side of the first plate 310 is greater than the length of the hinge 330 on the other side, and the two hinges 330 with different lengths are respectively disposed on two sides of the middle plate, which is beneficial for the width of one plate formed by stacking three plates, so that the second plate 320 can be folded from the front side or the rear side to the first plate 310 to form the table top structure shown in fig. 3, and at this time, the first plate 310 and the second plate 320 are stacked together, so that the width of the table top assembly 30 is small when the table top assembly is integrally stored in the storage cavity 20, and the space of the armrest body 10 is not occupied too much. When the second plate 320 is turned over and unfolded from the first plate 310, the three plates are arranged side by side, which not only enlarges the use area of the table assembly 30, but also brings the table assembly 30 closer to the user. Also, the table assembly 30 in the present embodiment is provided with an elongated recess 340, and as shown in fig. 2, the recess 340 is provided on the outermost second plate 320. The recess 340 facilitates the user in flipping the table assembly 30 or in flipping the second board 320 from the first board 310. And the concave part 340 can also be used for placing bar-shaped articles such as pens and the like, thereby being convenient for users to use.

As shown in fig. 1, a notch 110 is further disposed on the armrest body 10 in the embodiment near the second opening 202, and the notch 110 is used for facilitating a user to open the second cover 220, so as to facilitate the user to operate. In addition, the top surface of the armrest body 10 in this embodiment is further provided with an inner recess 120 and a soft pad 130, and the inner recess 120 may be configured as a circular opening, which is convenient for a user to prevent articles such as a cup. The cushion 130 facilitates elbow support for the user and provides comfort. And the side of the armrest body 10 is also provided with an arc-shaped convex part 140, which is convenient for users to rely on and improves the aesthetic feeling of the armrest body 10.

To sum up, the utility model discloses a handrail box structure and an automobile, wherein the handrail box structure comprises a handrail body with a containing cavity and a table plate component which is rotationally connected with the containing cavity through a rotating piece; the accommodating cavity is provided with a first opening positioned above the handrail body and a second opening positioned in front of the handrail body; the first opening is communicated with the second opening; the first opening is connected with a first cover plate; when the table component is switched between a storage state in the accommodating cavity and a use state above the armrest body, the first cover plate is opened or covers the first opening along with the rotation of the rotating piece. The utility model discloses a first apron can be automatically along with the rotation of rotating and open or cover first opening automatically, need not the first apron of artificial upset again to after first apron opens first opening, the table subassembly is located handrail body top, makes the table subassembly be close to the user, convenience of customers operation and use.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (12)

1. A handrail box structure is characterized by comprising a handrail body with an accommodating cavity and a table plate component which is rotationally connected with the accommodating cavity through a rotating component;

the accommodating cavity is provided with a first opening positioned above the handrail body and a second opening positioned in front of the handrail body; the first opening and the second opening are communicated; the first opening is connected with a first cover plate;

when the table component is switched between a storage state arranged in the accommodating cavity and a use state positioned above the armrest body, the first cover plate opens or covers the first opening along with the rotation of the rotating piece.

2. The console box structure of claim 1, wherein the table assembly has a clearance in a height direction from the console body when the table assembly is in the use state.

3. The console box structure of claim 1, further comprising a flip structure; the turnover structure is connected with the first cover plate and the rotating part respectively.

4. The console box structure of claim 3, wherein the flip structure is an elastic structure.

5. The console box structure of claim 4, further comprising a rotating shaft; the first cover plate is hinged at the first opening through the rotating shaft;

the elastic structure is a torsion spring; the torsion spring is sleeved on the rotating shaft; and the two ends of the torsion spring are connected with the rotating piece.

6. The console box structure as claimed in claim 1, wherein a side of the first cover plate adjacent to the rotating member is defined as a first side on which an abutting portion is provided to protrude toward the rotating member; when the desk plate component is in a use state, the abutting part abuts against the rotating part; the contact area of the abutting portion with the rotating member is smaller than the surface area of the first side.

7. The console box structure of claim 1, wherein the table assembly comprises at least two plate members; and all the adjacent plate pieces are hinged with each other.

8. The console box structure as claimed in claim 7, wherein the plate member connected to the rotating member is defined as a first plate; defining any of said plate members adjacent to said first plate as a second plate; the second plate is hinged on one side of the first plate close to the user or one side of the first plate far away from the user.

9. The console box as claimed in claim 1, further comprising a fixing member fixed to the console body, one end of the fixing member being hinged to the rotating member;

a protruding part is arranged on one side, close to the accommodating cavity, of the first cover plate; when the table component is located in the storage state, the protruding part abuts against the top side of the fixing piece.

10. The console box structure of any one of claims 1 to 9, further comprising a second cover plate; the second cover plate is rotatably connected to the second opening.

11. The console box structure of claim 10, wherein a safety cord is connected between the second cover plate and the receiving cavity.

12. An automobile characterized by comprising a vehicle body and a console box structure as claimed in any one of claims 1 to 11; the armrest body of the armrest box structure is installed in the vehicle body.

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