CN214699985U - Support frame - Google Patents

Abstract

The utility model provides a support relates to support technical field, and the support includes support body and supporting component. The support assembly comprises a first support piece and a second support piece, and the first support piece and the second support piece are rotatably connected to the support body, so that the support assembly is switched between a use state and a storage state. The support body can be supported by the support through the support included angle formed by the first support piece and the second support piece, and the electronic equipment can be placed on the support body for use. When the support is in a storage state, the thickness direction of the first support piece and the thickness direction of the second support piece are parallel to the thickness direction of the support body, the projection graphs of the first support piece and the second support piece on the reference surface are not overlapped with the projection graphs of the support body on the reference surface, the first support piece and the second support piece can be basically and completely stored in the support body, the occupied space is small, and the support is convenient to carry.

Description

Support frame

Technical Field

The utility model relates to the technical field of supports, especially, relate to a support.

Background

Along with the rapid development of electronic products, the notebook computer is more and more popular, the notebook computer can be randomly placed on a desk for use, in order to enable the placing angle of the notebook computer to be adjustable, a user can conveniently operate a keyboard and watch a display screen, a notebook support specially used for placing the notebook computer appears in the market at present, the notebook support is placed on the desktop during use, then the notebook computer is placed on the notebook support, and the end face of the notebook support supporting the notebook computer can keep a certain angle with the desktop, so that the notebook computer is convenient for the user to use. When the notebook computer is not used, the bracket needs to be stored. However, the existing notebook computer holder still occupies a large space after being stored, and is troublesome to store.

SUMMERY OF THE UTILITY MODEL

Therefore, the support is needed to solve the problem that the notebook support occupies a large space after being stored, which causes storage trouble.

The utility model provides a support, include:

a stent body;

the support assembly comprises a first support piece and a second support piece, and the first support piece and the second support piece are both rotationally connected to the bracket body to enable the support assembly to be switched between a first state and a second state;

when the electronic equipment is in the first state, the first supporting piece and the second supporting piece form a supporting included angle so that the supporting component can support the electronic equipment;

when the stent is in the second state, the thickness direction of the first support piece and the thickness direction of the second support piece are both parallel to the thickness direction of the stent body, the projection graphs of the first support piece and the second support piece on the reference surface are both not overlapped with the projection graph of the stent body on the reference surface, the projection graph of at least one of the first support piece and the second support piece on the reference surface is positioned on the inner side of the projection graph of the stent body on the reference surface, and the reference surface is a plane perpendicular to the thickness direction of the stent body.

The support body can be supported by the support through the support included angle formed by the first support piece and the second support piece, and the electronic equipment can be placed on the support body for use. When the support needs to be stored, the first support piece and the second support piece can be rotated into the support body relative to the support body, the thickness direction of the first support piece and the thickness direction of the second support piece are both parallel to the thickness direction of the support body, the projection graph of at least one of the first support piece and the second support piece on the reference surface is positioned on the inner side of the projection graph of the support body on the reference surface, at least one of the first support piece and the second support piece cannot be overlapped with the thickness of the support body, and the occupied space is small.

In one embodiment, the thickness of the first supporting piece and the thickness of the second supporting piece are equal to the thickness of the bracket body, and the two end faces of the bracket body opposite to each other in the thickness direction are arranged in parallel.

In one embodiment, the bracket body is provided with a containing groove, and in the second state, the first supporting piece and the second supporting piece are both located in the containing groove.

In one embodiment, the accommodating groove includes a first through groove and a second through groove, the first through groove and the second through groove both penetrate through two end faces of the bracket body opposite to each other in the thickness direction of the bracket body, the first through groove is used for accommodating the first supporting member, and the second through groove is used for accommodating the second supporting member.

In one embodiment, during the process of changing the first state into the first state, the first support and the second support rotate in the same direction.

In one embodiment, the supporting assembly further includes a first connecting structure disposed on the first supporting member and a second connecting structure disposed on the second supporting member, and in the first state, the first connecting structure is connected to the second connecting structure in a matching manner, so that the first supporting member and the second supporting member form the supporting included angle.

In one embodiment, the first connecting structure includes a clamping member, the second connecting structure includes a plurality of clamping holes arranged at intervals, and the clamping member can be clamped with each of the clamping holes in a matching manner, so that the first supporting member and the second supporting member form the supporting included angles at different angles.

In one embodiment, in the second state, the stent body is connected to the first support and the second support through a locking structure, and the locking structure is used for limiting the natural rotation of the first support and the second support relative to the stent body.

In one embodiment, the locking structure includes a first magnetic attraction piece, a second magnetic attraction piece and a third magnetic attraction piece, the first magnetic attraction piece is disposed on the bracket body, the second magnetic attraction piece is disposed at an end of the first support piece away from a connection of the first support piece and the bracket body, and the third magnetic attraction piece is disposed at an end of the second support piece away from a connection of the second support piece and the bracket body; when the second state, the first magnetic part simultaneously magnetically attracts the second magnetic part and the third magnetic part.

In one embodiment, a limiting flange is arranged at a position, close to the end portion, of the bracket body, the limiting flange protrudes towards a direction far away from the end face of the bracket body, the limiting flange is used for limiting the electronic equipment, and the electronic equipment is fixed on the bracket body by matching with the supporting included angle.

Drawings

Fig. 1 is a schematic structural view of a bracket of the present invention when a first supporting member and a second supporting member are in a storage state;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

fig. 3 is a schematic structural view of the bracket of the present invention when the first supporting member and the second supporting member are in use;

FIG. 4 is a schematic exploded view of the present invention;

fig. 5 is a schematic view of a first support member according to the present invention;

fig. 6 is a schematic structural view of another view angle of the first supporting member according to the present invention;

fig. 7 is a schematic structural view of a third kit according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a stent body; 11. a containing groove; 11a, a first through groove; 11b, a second through groove; 2. a first support member; 21. a clamping hole; 22. a first rotating arm; 22a, a pin; 22b, a stop collar; 23. a second rotating arm; 24. a first leg; 25. a second leg; 26. a first half-tank; 27. a second half-tank; 3. a second support member; 31. a clamping piece; 32. a third rotating arm; 33. a fourth rotating arm; 4. a non-slip mat; 5. a first kit; 6. a second kit; 7. a limiting flange; 8. a third kit; 8a, a limiting groove; 8b, clamping a flange; 8c, fixing grooves; 9. a mounting member; 9a, a slot; 9b, a plug connector.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. It is apparent that the specific details set forth in the following description are merely exemplary of the invention, which can be practiced in many other embodiments that depart from the specific details disclosed herein. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1 and 3, the present invention provides a stand for supporting an electronic device, such as a laptop, a tablet, or a mobile phone. The support is including the support body 1 and the supporting component that are connected, and the supporting component can support body 1, makes support body 1 be in the tilt state for horizontal planes such as the desktop of placing, ground, and electronic equipment places on support body 1, and it is convenient that the user uses electronic equipment. When the support is not needed to be used, the support assembly can be rotated and stored relative to the support body 1, the support is integrally in a flattening state, and when the support is in the flattening state, the occupied space is small, and the storage is convenient.

The support component can include two, three or more than three support pieces, and a plurality of support pieces are mutually matched to form a support included angle to support the bracket body 1. When the stand is not used, the plurality of supporters can be stored in the stand body 1 by rotating relative to the stand body 1. In one embodiment, the supporting assembly includes two supporting members, i.e. a first supporting member 2 and a second supporting member 3, and both the first supporting member 2 and the second supporting member 3 are rotatably connected to the stand body 1. When the support is needed to be used, the first support piece 2 and the second support piece 3 can be rotated to a use state, the first support piece 2 and the second support piece 3 form a support included angle and act on the placing surface, so that the support body 1 is in an inclined state relative to the placing surface, a user places the electronic equipment on the inclined support body 1, and the display screen of the electronic equipment inclines towards the placing surface, so that the support is convenient to use.

The shape of the rack body 1 is not limited, and may be, for example, square, circular, etc., in an embodiment, the rack body 1 is substantially rectangular, and since most of the electronic devices are rectangular, the rectangular rack body 1 can be adapted to most of the electronic devices, and the electronic devices are placed more stably. The two opposite end faces of the bracket body 1 along the thickness direction can be in a parallel state, namely the bracket body 1 is plate-shaped, and the plate-shaped bracket body 1 not only occupies small space, but also is attractive as a whole.

As shown in fig. 1, in an embodiment, the end surface of the bracket body 1 for placing the electronic device may be provided with a plurality of anti-slip pads 4, and the plurality of anti-slip pads 4 are uniformly arranged along the circumferential edge of the bracket body 1, so that the electronic device is not easy to move when placed on the bracket body 1. The non-slip mat 4 may be made of a material having a relatively large friction coefficient, such as rubber, for increasing the friction force with the electronic device. In addition, the non-slip mat 4 has certain elasticity and can play a role in shock resistance.

As shown in fig. 1, the bracket body 1 is further provided with a containing groove 11, when the first supporting member 2 and the second supporting member 3 are in the containing state, the first supporting member 2 and the second supporting member 3 are both located in the containing groove 11, so that the occupied space is small, and the storage is convenient. In an embodiment, the receiving groove 11 may be a non-penetrating structure, that is, the receiving groove 11 is formed on one of two opposite end surfaces of the bracket body 1 along the thickness direction thereof, one end of the receiving groove 11 is open, and the other end extends into the bracket body 1 to form a groove body with one open end. It should be noted that the rotation directions of the accommodating groove 11, the first supporting member 2 and the second supporting member 3 are located at the same side of the bracket body 1, and the first supporting member 2 and the second supporting member 3 can rotate relative to the bracket body 1 to the accommodating groove 11 to complete the accommodating, or rotate away from the accommodating groove 11 to the use state. Furthermore, the depth of the accommodating groove 11 may be greater than or equal to the thickness of the first supporting member 2 and the second supporting member 3, so that the first supporting member 2 and the second supporting member 3 can be completely located in the accommodating groove 11, the first supporting member 2 and the second supporting member 3 do not occupy additional space when in an accommodating state, and the carrying and the storage are more convenient. Certainly, the shape of the accommodating groove 11 may also be adapted to the shapes of the first supporting member 2 and the second supporting member 3, and when the first supporting member 2 and the second supporting member 3 are located in the accommodating groove 11, the bracket body 1 basically does not have extra gaps, so that the whole body looks beautiful.

As shown in fig. 1 and 4, in another embodiment, the receiving groove 11 may be a through structure, that is, the receiving groove 11 penetrates through two end surfaces of the bracket body 1 opposite to each other along the thickness direction thereof. The first supporting member 2 and the second supporting member 3 can rotate towards two sides of the bracket body 1, and a supporting included angle is formed on any one of the two sides of the bracket body 1. The two opposite end faces of the bracket body 1 in the thickness direction can be used as supporting faces for placing electronic equipment, and the first supporting piece 2 and the second supporting piece 3 are matched to support the electronic equipment. The thickness of the accommodating groove 11, that is, the thickness of the bracket body 1, may be greater than or equal to the thickness of the first supporting member 2 and the second supporting member 3, so that the first supporting member 2 and the second supporting member 3 can be completely located in the accommodating groove 11, and the first supporting member 2 and the second supporting member 3 do not occupy additional space when being in an accommodating state, thereby being more convenient to store.

The number of the accommodating grooves 11 may be one or plural. When there is one receiving groove 11, the area of the receiving groove 11 can be set as large as possible, and the first supporting member 2 and the second supporting member 3 can be received at the same time. As shown in fig. 4, when the accommodating groove 11 is multiple, for example, two, that is, the first through groove 11a and the second through groove 11b may be arranged at different positions of the bracket body 1 at intervals. The first through groove 11a and the second through groove 11b may both penetrate through two end faces of the bracket body 1 opposite to each other along the thickness direction thereof, and when the first supporting member 2 and the second supporting member 3 are in the storage state, the first through groove 11a may store the first supporting member 2, and the second through groove 11b may store the second supporting member 3.

The arrangement positions of the first through grooves 11a and the second through grooves 11b on the bracket body 1 are various, for example, the first through grooves are arranged at intervals, and when the first supporting member 2 and the second supporting member 3 are changed from the use state to the storage state, the rotation directions of the first supporting member 2 and the second supporting member 3 are the same, that is, the first supporting member 2 and the second supporting member 3 rotate towards the bottom of the bracket body 1 at the same time, or the first supporting member 2 and the second supporting member 3 rotate away from the bottom of the bracket body 1 to the corresponding first through grooves 11a and second through grooves 11 b. In the second adjacent arrangement or the farther spaced arrangement, during the process of changing the using state to the receiving state of the first support 2 and the second support 3, the rotating directions of the first support 2 and the second support 3 are opposite, that is, the first support 2 and the second support 3 rotate relatively or rotate back to back. When the first support 2 and the second support 3 rotate relatively, the first through groove 11a and the second through groove 11b may be arranged adjacently, and when the first support 2 and the second support 3 rotate back to back, the first through groove 11a and the second through groove 11b may be arranged farther apart.

After the first supporting member 2 and the second supporting member 3 are accommodated in the accommodating groove 11, in order to prevent the first supporting member 2 and the second supporting member 3 from naturally rotating and separating from the accommodating groove 11, a locking structure may be disposed on the bracket body 1, and the locking structure is connected to the first supporting member 2 and the second supporting member 3, and can limit the first supporting member 2 and the second supporting member 3 from naturally rotating relative to the bracket body 1.

There are many locking structures, and in one embodiment, the locking structure includes a first magnetic member, a second magnetic member, and a third magnetic member. The first magnetic attraction piece is arranged on the bracket body 1, and the second magnetic attraction piece is arranged at one end of the first supporting piece 2 far away from the joint of the first supporting piece 2 and the bracket body 1, for example, on the first supporting leg 24 and the second supporting leg 25 of the first supporting piece 2. The third magnetic attraction piece is arranged at one end of the second support piece 3 far away from the joint of the second support piece 3 and the bracket body 1, for example, on the clamping piece 31 of the second support piece 3. The first magnetic attraction piece can comprise a plurality of magnetic attraction pieces, one part of the magnetic attraction pieces are arranged at the positions of the first supporting leg 24 and the second supporting leg 25 of the support body 1 close to the first supporting piece 2, and the other part of the magnetic attraction pieces are arranged at the positions of the support body 1 close to the clamping piece 31. When the first supporting member 2 and the second supporting member 3 are located in the accommodating slot 11, the first magnetic attraction element simultaneously magnetically attracts the second magnetic attraction element and the third magnetic attraction element, so that the first supporting member 2 and the second supporting member 3 can be limited from rotating away from the accommodating slot 11, and the first supporting member 2 and the second supporting member 3 are prevented from naturally rotating out of the accommodating slot 11 when the bracket is not used.

As shown in fig. 1 and 4, in another embodiment, the locking structure may have other structures. The locking structure comprises a first sleeve 5, a second sleeve 6 and a third sleeve 8, and each sleeve can be made of materials with elasticity, such as silicon rubber or rubber. The first sleeve 5 and the second sleeve 6 are respectively sleeved on the first leg 24 and the second leg 25 of the first supporting member 2, and the third sleeve 8 is sleeved on the clamping member 31 of the second supporting member 3. The first and second pieces 5, 6 are also able to act as a non-slip for the first and second legs 24, 25. When the first supporting piece 2 is in the storage state, the bracket body 1 is provided with a first clamping groove at a position close to the first sleeve piece 5 and the second sleeve piece 6, the shape of the first clamping groove is matched with the first sleeve piece 5 and the second sleeve piece 6, and the first sleeve piece 5 and the second sleeve piece 6 can be clamped in the corresponding first clamping groove due to the elastic action of the first sleeve piece 5 and the second sleeve piece 6, so that the first supporting piece 2 is fixed in the storage groove 11. As shown in fig. 7, the third kit 8 is connected to the bracket body 1, specifically, the bracket body 1 is provided with an insertion position, the insertion position is provided with two limiting grooves 8a, the bottom of the third kit 8 is provided with two clamping flanges 8b, and the two clamping flanges 8b are correspondingly clamped with the two limiting grooves 8a, so that the third kit 8 is fixed to the bracket body 1. Fixed slot 8c has been seted up at the top of third external member 8, fixed slot 8c is provided with limit baffle in the both sides of second support piece 3 rotation direction, limit baffle has certain elastic force, second support piece 3 is accomodating in the in-process of storage tank 11, can make second support piece 3's joint piece 31 butt limit baffle earlier, apply the effort towards limit baffle to joint piece 31 again, limit baffle produces deformation, limit baffle gets into fixed slot 8c over limit baffle 31, because limit baffle's limiting displacement, joint piece 31 is under the helping hand of no external force, can not cross limit baffle and break away from fixed slot 8c, make second support piece 3 can fix at storage tank 11 steadily.

As shown in FIG. 1, the end of the main body 1 close to the user is defined as the bottom when the main body is used. The bottom that support body 1 is close to the bottom can set up limit flange 7, and limit flange 7 is towards keeping away from the direction protrusion of support body 1 terminal surface. The limiting flange 7 is used for limiting the electronic equipment and is matched with the supporting included angle to enable the electronic equipment to be fixed on the support body 1. The number of the limiting flanges 7 can be one or more, and when the limiting flanges 7 are one, the length of the limiting flanges 7 can be distributed on the bottom of the bracket body 1 as much as possible, so that a larger supporting area can be provided for the electronic equipment, and the electronic equipment is suitable for placing various electronic equipment with different sizes. When the limiting flanges 7 are multiple, the limiting flanges 7 can be uniformly arranged at the bottom of the bracket body 1 at intervals, and the supporting surfaces of the electronic equipment supported by the limiting flanges 7 are positioned on the same plane, so that the electronic equipment can be uniformly stressed on the supporting surfaces and is kept stable. In one embodiment, the number of the limiting flanges 7 is two, the two limiting flanges 7 are symmetrically arranged on two sides of the bracket body 1 at intervals, so that electronic equipment can be supported simultaneously, the electronic equipment is stressed uniformly, and the placement is stable.

The included angle formed by the supporting surface of the limiting flange 7 and the end surface of the bracket body 1 can be kept between 30 and 90 degrees and can be determined according to the thickness of the electronic equipment. For example, if the stand body 1 is used for placing a tablet computer with a small thickness, the angle between the supporting surface of the position-limiting flange 7 and the end surface of the stand body 1 may be relatively small, for example, set to 45 °. If the bracket body 1 is used for placing a notebook computer with a relatively large thickness, the angle between the supporting surface of the limiting flange 7 and the end surface of the bracket body 1 may be relatively large, for example, set to 80 °. Suitably set up above-mentioned contained angle less, can make electronic equipment place more firm on support body 1, be difficult for dropping.

As shown in fig. 4, the above-mentioned position-limiting flange 7 may be integrally formed with the bracket body 1, or may be detachably connected. In one embodiment, the limit flange 7 is connected to a mounting member 9, the mounting member 9 is provided with a slot 9a, the bracket body 1 is provided with a plug member 9b, and the slot 9a is fittingly plugged with the plug member 9b, so that the limit flange 7 is connected to the bracket body 1 through the mounting member 9.

As shown in fig. 5 and 6, the first supporting member 2 and the second supporting member 3 have many structures, in one embodiment, the overall shape of the first supporting member 2 is a U-shaped plane, and the first supporting member 2 includes a first rotation arm 22, a second rotation arm 23, a first supporting leg 24, a second supporting leg 25 and a first connecting structure which are integrally formed. The first rotating arm 22 and the second rotating arm 23 are located on two sides of the first supporting member 2, and both are rotatably connected to the bracket body 1, so that the first supporting member 2 can rotate relative to the bracket body 1. The first supporting leg 24 and the second supporting leg 25 are located at two sides of the first supporting member 2, and when the first supporting member 2 is in a use state, the first supporting leg 24 and the second supporting leg 25 are abutted to the placing surface, so as to support the stand body 1 and the electronic device placed on the stand body 1.

As shown in fig. 1, the overall shape of the second supporting member 3 is a Y-shaped plane, and the second supporting member 3 includes a third rotating arm 32, a fourth rotating arm 33 and a second connecting structure which are integrally formed. The third rotating arm 32 and the fourth rotating arm 33 are located at two sides of the second supporting member 3, and both rotate to connect the bracket body 1, so that the second supporting member 3 can rotate relative to the bracket body 1. The second connecting structure can be matched and connected with the first connecting structure, so that the first supporting piece 2 and the second supporting piece 3 are fixed to form a supporting included angle.

There are many types of the first connection structure and the second connection structure, in an embodiment, the first connection structure is a clip member 31, the second connection structure is a plurality of clip holes 21 arranged at intervals, the clip member 31 can be engaged with each clip hole 21, so that the first support member 2 and the second support member 3 form different support included angles, the first support member 2 and the bracket body 1 also form different included angles, and the angles of the electronic device placed on the bracket body 1 and the line of sight of the user are different, and the experience is different. Specifically, the plurality of catching holes 21 may be arranged along a center line direction of the first support 2, and the catching member 31 may be arranged along a center line direction of the second support 3 and protrude toward a direction away from the third and fourth rotation arms 32 and 33. The user can selectively cooperate the joint with suitable card hole 21 with joint spare 31 according to own actual need, makes the electronic equipment of placing on support body 1 and user's sight be the angle that the user wanted. Of course, in some possible embodiments, the second connecting structure may further include a locking hole 21, and the locking hole 21 is cooperatively locked with the locking member 31 to form a fixed supporting angle.

The first support member 2 is connected to the stand body 1 through a rotating structure, which is various, and in one embodiment, the first rotating arm 22 and the second rotating arm 23 are connected to the stand body 1 through a rotating structure with the same structure. Further explaining the rotating structure of the first rotating arm 22 and the bracket body 1 by taking as an example, as shown in fig. 2, the rotating structure includes a pin 22a, a connecting hole formed in the first rotating arm 22, and mounting grooves formed in the bracket body 1, the pin 22a penetrates through the connecting hole, two ends of the pin 22a are rotatably connected to the two mounting grooves, and the first rotating arm 22 can rotate by taking the central axis of the pin 22a as a rotating axis.

It should be noted that the connection hole may be bored along the width direction of the first rotating arm 22. In a more preferred embodiment, the connecting hole is formed by milling two opposite end faces of the first rotating arm 22 in the thickness direction through a milling cutter, a first half groove 26 and a second half groove 27 are milled on the two opposite end faces of the first rotating arm 22 respectively through the milling cutter, and the overlapped parts of the first half groove 26 and the second half groove 27 are communicated, so that the connecting hole is formed. An end face of the mounting groove is opened, after the pin 22a penetrates through the connecting hole, the end portion of the pin 22a can be placed into the mounting groove, then the opening end of the mounting groove is sealed through rivets or other viscous fixtures, and the pin 22a is prevented from falling out of the mounting groove.

The pin 22a is further sleeved with a limiting lantern ring 22b, and the limiting lantern ring 22b is arranged between the support body 1 and the first rotating arm 22 and used for filling a gap between the first rotating arm 22 and the support body 1 and avoiding instability of the first support member 2 in the rotating process.

The rotation structure of the second, third and fourth rotating arms 23, 32, 33 may be identical to that described above, and will not be described in detail herein.

A reference plane is defined, which is perpendicular to the plane of the thickness direction of the stent body 1.

In an embodiment, when the rack is in the storage state, the thickness direction of the first supporting member 2 and the thickness direction of the second supporting member 3 may both be parallel to the thickness direction of the rack body 1, the projection patterns of the first supporting member 2 and the second supporting member 3 on the reference surface are not overlapped with the projection pattern of the rack body 1 on the reference surface, and the thicknesses of the first supporting member 2 and the second supporting member 3 are not greater than the thickness of the rack body 1, so that the first supporting member 2 and the second supporting member 3 can be completely stored in the rack body 1, and the occupied space is small. The projected pattern of at least one of the first support 2 and the second support 3 on the reference surface is located at the inner side of the projected pattern of the bracket body 1 on the reference surface. The projection graph of the bracket body 1 on the reference surface is a closed graph which is approximately rectangular, and the projection graphs of the first supporting piece 2 and the second supporting piece 3 on the reference surface are both positioned on the inner side of the closed graph, so that when the first supporting piece 2 and the second supporting piece 3 are in a storage state, the first supporting piece 2 and the second supporting piece 3 cannot stretch out of the edge of the bracket body 1 and are completely positioned on the inner side of the bracket body 1, and the occupied space is small.

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

The above examples only represent some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several changes, substitutions and improvements can be made, and all of them should be covered by the protection scope of the present invention. Therefore, the protection scope of the present invention should be subject to the claims.

Claims (10)

1. A stand for supporting an electronic device, the stand comprising:

a stent body;

the support assembly comprises a first support piece and a second support piece, and the first support piece and the second support piece are both rotationally connected to the bracket body to enable the support assembly to be switched between a first state and a second state;

when the electronic equipment is in the first state, the first supporting piece and the second supporting piece form a supporting included angle so that the supporting component can support the electronic equipment;

when the stent is in the second state, the thickness direction of the first support piece and the thickness direction of the second support piece are both parallel to the thickness direction of the stent body, the projection graphs of the first support piece and the second support piece on the reference surface are both not overlapped with the projection graph of the stent body on the reference surface, the projection graph of at least one of the first support piece and the second support piece on the reference surface is positioned on the inner side of the projection graph of the stent body on the reference surface, and the reference surface is a plane perpendicular to the thickness direction of the stent body.

2. The stent according to claim 1, wherein the thickness of the first support member and the second support member is equal to the thickness of the stent body, and the two end surfaces of the stent body opposite to each other in the thickness direction are arranged in parallel.

3. The stand of claim 1, wherein the stand body defines a receiving slot, and in the second state, the first supporting member and the second supporting member are both disposed in the receiving slot.

4. The bracket according to claim 3, wherein the receiving groove includes a first through groove and a second through groove, the first through groove and the second through groove both penetrate through two end surfaces of the bracket body opposite to each other in the thickness direction of the bracket body, the first through groove is used for receiving the first supporting member, and the second through groove is used for receiving the second supporting member.

5. The stand of claim 1, wherein the first support and the second support rotate in the same direction during the process of changing from the second state to the first state.

6. The bracket of claim 1, wherein the supporting assembly further comprises a first connecting structure disposed on the first supporting member and a second connecting structure disposed on the second supporting member, and in the first state, the first connecting structure is connected to the second connecting structure in a matching manner, so that the first supporting member and the second supporting member form the supporting included angle.

7. The bracket according to claim 6, wherein the first connecting structure comprises a clamping member, the second connecting structure comprises a plurality of clamping holes arranged at intervals, and the clamping member can be clamped with each clamping hole in a matched manner, so that the first supporting member and the second supporting member form the supporting included angles at different angles.

8. The stent of claim 1, wherein in the second state, the stent body is connected to the first and second supporting members by a locking structure, and the locking structure is configured to restrict the first and second supporting members from naturally rotating relative to the stent body.

9. The stand of claim 8, wherein the locking structure comprises a first magnetic attraction member, a second magnetic attraction member and a third magnetic attraction member, the first magnetic attraction member is disposed on the stand body, the second magnetic attraction member is disposed at an end of the first support member away from a connection between the first support member and the stand body, and the third magnetic attraction member is disposed at an end of the second support member away from a connection between the second support member and the stand body; when the second state, the first magnetic part simultaneously magnetically attracts the second magnetic part and the third magnetic part.

10. The bracket according to claim 1, wherein a limiting flange is arranged at a position, close to the end portion, of the bracket body, the limiting flange protrudes towards a direction away from the end face of the bracket body, the limiting flange is used for limiting the electronic equipment, and the electronic equipment is fixed on the bracket body by matching with the supporting included angle.

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