CN112303105A - Rotating shaft mechanism and electronic equipment - Google Patents

Abstract

The application discloses pivot mechanism, electronic equipment, pivot mechanism includes: at least three rotating shafts are arranged in parallel; the covering assembly is connected to the rotating shafts, and can cover all the rotating shafts before and after the relative positions of the rotating shafts are changed; the covering assembly comprises a plurality of elongated covering pieces which are arranged in a one-to-one mode with the rotating shaft. According to the rotating shaft mechanism, the outer surface of the covering component and the flat outer surface of the electronic equipment are in a consistent or close structure, so that the appearance consistency of the electronic equipment is improved, and the appearance of the electronic equipment is more attractive.

Description

Rotating shaft mechanism and electronic equipment

Technical Field

The application relates to the technical field of electronic equipment, in particular to a rotating shaft mechanism and also relates to electronic equipment with the rotating shaft mechanism.

Background

At present, for example, in electronic devices such as notebook computers, decoration pieces are arranged on the outer sides of rotating shaft mechanisms which rotatably connect two bodies, so that the decoration pieces can shield the rotating shaft mechanisms on the outer surfaces of the electronic devices to improve the appearance aesthetic feeling of the electronic devices, but the appearance consistency of the existing decoration pieces and the electronic device bodies is poor, and the appearance aesthetic degree of the electronic devices is not ideal.

Disclosure of Invention

In view of this, the present application provides a hinge mechanism, which can further improve the appearance consistency of an electronic device, so that the appearance of the electronic device is more beautiful. The application also provides an electronic device with the rotating shaft mechanism.

In order to achieve the above purpose, the present application provides the following technical solutions:

a spindle mechanism comprising:

at least three rotating shafts are arranged in parallel;

the covering assembly is connected to the rotating shafts, and can cover all the rotating shafts before and after the relative positions of the rotating shafts are changed;

wherein,

the covering assembly comprises a plurality of elongated covering pieces which are arranged in a one-to-one mode with the rotating shaft.

Preferably, in the above-described rotating shaft mechanism, all the cover members are connected to all the rotating shafts and all the cover members are connected to each other by the same connecting member.

Preferably, in the spindle mechanism, the cover includes:

a main body member;

the side wing part is connected to the main body part and is positioned on one side of the main body part, and the arrangement height of the side wing part on the main body part is smaller than the height of the top wall of the main body part, so that the side wing part can extend into the bottom of the top wall of the adjacent main body part;

wherein,

when the axes of all the rotating shafts are positioned on the same plane, all the rotating shafts are covered by the main body piece; when the axis connecting lines of all the rotating shafts are arc lines, all the rotating shafts are covered by the main body part and the side wing parts.

Preferably, in the spindle mechanism, the connecting member includes:

a bendable plate-shaped portion;

the first protruding parts are arranged on the first surface of the plate-shaped part and used for connecting the rotating shaft, and the first protruding parts are arranged at equal intervals and are connected with the rotating shaft in a one-to-one mode;

a plurality of second protrusions provided on a second surface of the plate-shaped portion and connected to the cover member, the second protrusions being provided at equal intervals and connected to the cover member one-to-one;

wherein,

the first surface and the second surface are two opposite surfaces of the plate-shaped part, and the first protruding part and the second protruding part are arranged in a one-to-one alignment mode.

Preferably, in the spindle mechanism, the plate-shaped portion, the first protrusion portion, and the second protrusion portion are integrally formed.

Preferably, in the above rotating shaft mechanism, an antenna is disposed on the covering assembly.

An electronic device comprises a first body, a second body and a rotating shaft mechanism which is rotatably connected with the first body and the second body, wherein the rotating shaft mechanism is any one of the rotating shaft mechanisms.

Preferably, in the electronic device, a plurality of rotating shaft mechanisms are arranged between the first body and the second body, the covering assembly is arranged between the two rotating shaft mechanisms which are arranged adjacently, and two ends of the covering assembly are connected with rotating shafts of the two rotating shaft mechanisms respectively to realize arrangement between the two rotating shaft mechanisms.

Preferably, in the electronic device, the covering assemblies are disposed on all the hinge mechanisms and on both sides of all the hinge mechanisms.

According to the rotating shaft mechanism, the plurality of strip-shaped covering pieces are adopted to cover at least three rotating shafts one by one, and the covering of all the rotating shafts can be realized before and after the relative positions of the rotating shafts are changed; when the rotating shaft mechanism is in a bending state (namely, when the axes of all the rotating shafts are positioned in the same cambered surface), a plurality of covering parts covering each rotating shaft one by one can be spliced into a multi-edge curved surface or a smooth curved surface, and the structure is consistent with or close to that of the flat outer surface of the electronic equipment. According to the rotating shaft mechanism, the outer surface of the covering component and the flat outer surface of the electronic equipment are in a consistent or close structure, so that the appearance consistency of the electronic equipment is improved, and the appearance of the electronic equipment is more attractive.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an electronic device according to an embodiment of the present disclosure;

FIG. 2 is a schematic view of the first and second bodies in cooperation with a spindle mechanism of one construction in a flat-out position;

FIG. 3 is a schematic view of the first and second bodies engaged with another configuration of spindle mechanism in a flat state;

FIG. 4 is a schematic view of the first and second bodies engaged with a spindle mechanism of one configuration in a flexed condition;

FIG. 5 is a schematic view of the first and second bodies engaged with another configuration of spindle mechanism in a flexed condition;

FIG. 6 is a schematic view of the arrangement of the main body member and the wing members when the hinge mechanism is in a bent state;

FIG. 7 is a schematic view of the structure of the cover;

fig. 8 is a schematic structural view of the connector.

In fig. 1-8:

1-a rotating shaft, 2-a covering component, 3-a connecting piece, 4-a first body, 5-a second body and 6-a rotating shaft mechanism;

21-cover, 31-plate, 32-first boss, 33-second boss, 34-first surface, 35-second surface;

211-body part, 212-side part.

Detailed Description

The application provides a pivot mechanism, its outward appearance uniformity that can further promote electronic equipment makes electronic equipment's appearance more pleasing to the eye. The application also provides an electronic device with the rotating shaft mechanism.

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

As shown in fig. 1 to 8, the present embodiment provides a rotating shaft mechanism 6, which is used to rotatably connect two bodies of an electronic device (i.e. a first body 4 and a second body 5, which will be described later), where the electronic device may be a notebook computer, and the two bodies are a screen part and a host part, or the electronic device may be a flexible screen device, and the two bodies are two connecting parts connecting two ends of the flexible screen, or the electronic device may be a dual-screen device, and the two bodies are two parts respectively provided with a display screen, where the rotating shaft mechanism 6 mainly includes a rotating shaft 1 and a cover assembly 2, where the rotating shaft 1 is at least three shafts arranged in parallel, that is, the rotating shaft mechanism 6 provided in the present application is a watch chain shaft mechanism, and during the relative rotation of the two bodies of the electronic device, the rotating shafts 1 in the watch chain shaft mechanism not only rotate relatively but also move relatively, namely, the relative position between the rotating shafts 1 is changed; the covering assembly 2 is connected to the rotating shaft 1, and can cover all the rotating shafts 1 before and after the relative position between the rotating shafts 1 is changed, the covering assembly 2 includes a plurality of strip-shaped covering parts 21 (i.e., the covering assembly 2 is an integrated structure of the covering parts 21) which are arranged in a one-to-one manner with the rotating shafts 1, i.e., each covering part 21 is arranged corresponding to one rotating shaft 1 and covers the rotating shaft 1, when the rotating shaft mechanism 6 is in a flat state, i.e., when the axes of all the rotating shafts 1 are located in the same plane (at this time, the included angle between two bodies of the electronic device is 180 degrees), the covering parts 21 which cover each rotating shaft 1 one by one can be spliced into a plane (as shown in fig. 2) or a wavy surface (as shown in fig. 3) which is consistent with or close to the flat outer surface structure of the body; when the rotating shaft mechanism 6 is in a bent state, that is, when the axes of all the rotating shafts 1 are located in the same arc surface (at this time, the included angle between the two bodies of the electronic device is 0 degree), the plurality of covering members 21 covering each rotating shaft 1 one by one can be spliced into a multi-edge curved surface (as shown in fig. 4) or a smooth curved surface (as shown in fig. 5), which is also consistent with or close to the structure of the flat outer surface of the electronic device body.

The rotating shaft mechanism 6 with the structure can enable the outer surface of the covering component 2 and the flat outer surface of the electronic equipment to have a structure which is consistent or close to each other when being installed on the electronic equipment, so that the appearance consistency of the electronic equipment is improved, and the appearance of the electronic equipment is more attractive.

As shown in fig. 6 and 7, it is preferable that the cover 21 includes a main body 211 and a side wing 212, the side wing 212 is connected to the main body 211 and is located at one side of the main body 211, and the height of the side wing 212 located on the main body 211 is smaller than the height of the top wall of the main body 211, so that the side wing 212 can protrude into the bottom of the top wall of the main body 211 located adjacently; when the axes of all the rotating shafts 1 are located on the same plane, all the rotating shafts 1 are covered by the main body piece 211; when the axis connecting lines of all the rotating shafts 1 are arcs, all the rotating shafts 1 are covered by the main body piece 211 and the side wing pieces 212. The reason why the covering member 21 includes the main body members 211 and the side wing members 212 is that when the rotating shaft mechanism 6 is in a flat state, the distance between the rotating shafts 1 is small, any two adjacent main body members 211 can contact with each other (or have only a small gap therebetween) while covering the respective rotating shafts 1 to be spliced into the aforementioned plane or wavy plane, that is, when the axes of all the rotating shafts 1 are located on the same plane, all the rotating shafts 1 can be covered by all the main body members 211 to avoid the rotating shaft mechanism 6 from being exposed on the outer surface of the electronic device, and when the rotating shaft mechanism 6 is in a bent state, the distance between the rotating shafts 1 is increased, which may cause that the adjacent main body members 211 cannot contact with each other any more and have a gap, although the main body members 211 can also cover the rotating shafts 1 and improve the consistency of the appearance structure of the electronic device, make electronic equipment's appearance aesthetic measure obtain the promotion, but because the existence in gap, still can make the appearance uniformity not ideal as much, consequently, still make covering 21 include side wing piece 212, set up side wing piece 212 in one side of main part 211, just can make when having the gap between the adjacent main part 211, just can realize the shutoff to the gap through side wing piece 212, the exposure of pivot 1 has not only been avoided completely, but also make electronic equipment's appearance structure more continuous, further improvement electronic equipment's appearance structure's uniformity, make the appearance aesthetic measure better.

The top wall of the main body 211 is a wall surface forming the outer surface of the rotating shaft mechanism 6, and is a component of the outer surface of the electronic device, and the shape of the top wall may be selected variously, for example, the top wall may be a flat wall surface, that is, a plane, such that the outer surface formed by splicing the main body 211 when the rotating shaft mechanism 6 is in a flat state is the aforementioned plane, the outer surface formed by splicing the main body 211 and the side wing piece 212 when the rotating shaft mechanism 6 is in a curved state is the aforementioned multi-edge curved surface (the multi-edge curved surface refers to a larger curved surface formed by splicing a plurality of smaller planes, and the connecting line between adjacent covering pieces 21 is an edge line on the curved surface), or the top wall may also be a curved wall surface, that is an arc surface, such that the outer surface formed by splicing the main body 211 when the rotating shaft mechanism 6 is in a flat state is the aforementioned wavy surface, and the outer surface formed by splicing the main body 211 and the side wing Under the condition) is the smooth curved surface.

The reason why the height of the side pieces 212 is smaller than the height of the top wall of the main body piece 211 is to ensure that the adjacent main body pieces 211 can be abutted with each other in a flat state, that is, in the flat state, only the main body piece 211 is exposed out of the outer surface of the electronic device, and the side pieces 212 are located below the adjacent main body piece 211 and shielded, that is, the side piece 212 of the first cover is located below the main body piece 211 of the second cover adjacent to the first cover, and the side piece 212 of the second cover is located below the main body piece 211 of the third cover adjacent to the second cover, and so on. Preferably, the main body part 211 and the side wing part 212 belonging to the same cover part 21 are of an integrally formed structure.

In the present application, as shown in fig. 8, it is preferable that all the covers 21 and all the shafts 1 and all the covers 21 are connected by the same connecting member 3. All the covering parts 21 and all the rotating shafts 1 are connected through the same connecting part 3, so that the number of parts can be reduced, the structure of the rotating shaft mechanism 6 is simplified, and all the covering parts 21 can be connected into a whole through the same connecting part 3, and the structure of the rotating shaft mechanism 6 is more compact. Furthermore, each cover member 21 may be connected to each shaft 1 by a separate connector, and the entire cover members 21 are finally connected by the connection between the shafts 1.

Preferably, as shown in fig. 8, the connecting member 3 includes: a bendable plate-like portion 31; a plurality of first protrusions 32 provided on the first surface 34 of the plate-shaped portion 31 and connected to the rotating shaft 1, the first protrusions 32 being arranged at equal intervals and connected to the rotating shaft 1 one-to-one; second protrusions 33 provided on the second surface 35 of the plate-shaped portion 31 and used for connecting the cover 21, the second protrusions 33 being a plurality of protrusions provided at equal intervals and connected to the cover 21 one-to-one; the first surface 34 and the second surface 35 are two opposite surfaces of the plate-shaped portion 31, and the first protruding portions 32 and the second protruding portions 33 are arranged in a one-to-one alignment. In this structure, the plate-shaped member is a long strip-shaped member, the plurality of first protrusions 32 equally spaced on the first surface 34 of the plate-shaped member are specially used for connecting the rotating shaft 1, the number of the first protrusions 32 is the same as the number of the rotating shaft 1, so that each rotating shaft 1 can be aligned and connected with one protrusion, when the rotating shaft 1 is specifically connected, the circumferential surface of the rotating shaft 1 is connected with the top surface of the first protrusions 32 parallel to the first surface 34, the connecting manner of the rotating shaft 1 and the top surface can be bonding, welding, etc., similarly, a plurality of second protrusions 33 are equally spaced on the second surface 35 of the plate-shaped member, the structure and size of the second protrusions 33 are preferably the same as those of the first protrusions 32, and the second protrusions 33 and the first protrusions 32 are arranged one by one, that is, the first protrusions 32 and the second protrusions 33 are symmetrically arranged with respect to the plate-shaped member, the top surface of the second protrusion 33 parallel to the second surface 35 is connected to the main body 211, specifically to the bottom wall (i.e. the wall surface opposite to the top wall) of the main body 211, and the connection manner may be bonding, welding, etc. In the connecting piece 3 with such a structure, the first protruding parts 32 and the second protruding parts 33 realize one-to-one alignment connection of the covering piece 21 and the rotating shaft 1, and the adjacent first protruding parts 32 and the adjacent second protruding parts 33 are connected through the plate-shaped piece which is small in thickness and can be bent, so that when the rotating shaft mechanism 6 is bent (namely, when the relative position between the rotating shafts 1 is changed), the connecting piece 3 can be bent along with the rotating shaft mechanism 6 more easily, and the influence on the normal work of the rotating shaft mechanism 6 is avoided.

Specifically, the plate-shaped portion 31, the first protruding portion 32, and the second protruding portion 33 are preferably formed integrally, that is, the connecting member 3 having the above-described structure may be formed by integral injection molding, or may be formed by providing grooves on two parallel surfaces of the bar-shaped block at equal intervals. The material of the connecting member 3 may be rubber, plastic, metal (e.g., spring steel), or the like having good elasticity.

Further, in the present application, it is preferable that the cover component 2 is a non-metal component having the same color, texture, touch, etc. as the housing of the electronic device and made of the same material, and since the connecting member 3 having the first protruding portion 32 and the second protruding portion 33 is disposed between the cover component 2 and the rotating shaft 1, that is, a large space is provided between the cover component 2 and the rotating shaft 1, a component of the electronic device can be disposed between the cover component 2 and the rotating shaft 1, for example, since the cover component 2 is made of a non-metal material, an antenna can be disposed on the inner wall (i.e., the aforementioned bottom wall) of the cover 21 (the cover component 2 made of a non-metal material does not interfere with the signal strength of the antenna), or a wire electrically connecting the two bodies can be disposed between the cover component 2 and the rotating shaft 1, so that the space.

In addition, as shown in fig. 1, the present application further provides an electronic device, which includes a first body 4, a second body 5 (i.e. the two bodies) and a rotating shaft mechanism that rotatably connects the first body 4 and the second body 5, where the rotating shaft mechanism is the rotating shaft mechanism 6. By providing the electronic device with the rotating shaft mechanism 6, the outer surface of the covering assembly 2 and the flat outer surfaces of the electronic device (i.e. the outer surfaces of the first body 4 and the second body 5) can have the same or similar structure, so that the appearance consistency of the electronic device is improved, and the appearance of the electronic device is more attractive.

As shown in fig. 1, in the present application, it is preferable that a plurality of rotating shaft mechanisms 6 are disposed between the first body 4 and the second body 5, the covering assembly 2 is disposed between two adjacent rotating shaft mechanisms 6, and both ends of the covering assembly 2 are connected to the rotating shafts 1 of the two rotating shaft mechanisms 6 respectively to achieve the disposition between the two rotating shaft mechanisms 6. In order to better realize the stable rotational connection between the first body 4 and the second body 5, preferably, a plurality of rotating shaft mechanisms 6 are coaxially and alternately arranged between the first body 4 and the second body 5, and the covering assembly 2 is arranged between any two adjacent rotating shaft mechanisms 6, so that the covering assembly 2 covers a gap between two adjacent covering assemblies 2, the gap is formed by arranging the rotating shaft mechanisms 6 between the first body 4 and the second body 5, and the gap is not exposed on the outer surface of the electronic device through the covering of the covering assembly 2, thereby the appearance structure of the electronic device has good continuity and consistency.

Further, on the basis that the covering component 2 covers the gap between any two adjacent rotating shaft mechanisms 6, the covering components 2 are arranged on all the rotating shaft mechanisms 6 and on the two sides of all the rotating shaft mechanisms 6, namely, the covering component 2 is fully distributed on the whole length of the edge of the electronic equipment, where the rotating shaft mechanisms 6 are arranged, so that the gap and the exposure of the rotating shaft 1 on the outer surface of the electronic equipment are completely avoided, and the continuity and the consistency of the appearance structure of the electronic equipment are improved to the maximum degree.

In this specification, structures of each part are described in a progressive manner, and a structure of each part is mainly described to be different from an existing structure, and the whole structure and the part structure of the rotating shaft mechanism and the electronic device can be obtained by combining structures of a plurality of parts.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. A spindle mechanism comprising:

at least three rotating shafts are arranged in parallel;

the covering assembly is connected to the rotating shafts, and can cover all the rotating shafts before and after the relative positions of the rotating shafts are changed;

wherein,

the covering assembly comprises a plurality of elongated covering pieces which are arranged in a one-to-one mode with the rotating shaft.

2. The spindle mechanism according to claim 1, wherein all the covers are connected to all the spindles and to all the covers by the same connecting member.

3. The spindle mechanism of claim 1, the cover comprising:

a main body member;

the side wing part is connected to the main body part and is positioned on one side of the main body part, and the arrangement height of the side wing part on the main body part is smaller than the height of the top wall of the main body part, so that the side wing part can extend into the bottom of the top wall of the adjacent main body part;

wherein,

when the axes of all the rotating shafts are positioned on the same plane, all the rotating shafts are covered by the main body piece; when the axis connecting lines of all the rotating shafts are arc lines, all the rotating shafts are covered by the main body part and the side wing parts.

4. The spindle mechanism according to claim 3, the connector comprising:

a bendable plate-shaped portion;

the first protruding parts are arranged on the first surface of the plate-shaped part and used for connecting the rotating shaft, and the first protruding parts are arranged at equal intervals and are connected with the rotating shaft in a one-to-one mode;

a plurality of second protrusions provided on a second surface of the plate-shaped portion and connected to the cover member, the second protrusions being provided at equal intervals and connected to the cover member one-to-one;

wherein,

the first surface and the second surface are two opposite surfaces of the plate-shaped part, and the first protruding part and the second protruding part are arranged in a one-to-one alignment mode.

5. The spindle mechanism according to claim 4, wherein the plate-shaped portion, the first boss portion, and the second boss portion are an integral structure.

6. The spindle mechanism according to claim 1, wherein an antenna is disposed on the cover assembly.

7. An electronic device comprising a first body, a second body and a hinge mechanism rotatably connecting the first body and the second body, wherein the hinge mechanism is as claimed in any one of claims 1 to 6.

8. The electronic device according to claim 7, wherein a plurality of hinge mechanisms are disposed between the first body and the second body, the cover assembly is disposed between two hinge mechanisms disposed adjacently, and two ends of the cover assembly are connected to the hinges of the two hinge mechanisms respectively to realize the disposition between the two hinge mechanisms.

9. The electronic device of claim 8, wherein the cover assembly is disposed on all of the hinge mechanisms and on both sides of all of the hinge mechanisms.

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