CN215569220U - Supporting device and electronic equipment - Google Patents

Abstract

The application discloses strutting arrangement includes: a support assembly; the connecting assembly is arranged on the supporting assembly in a sliding mode and can be connected with a functional component; the transmission part is arranged on the supporting component and drives the connecting component to slide so as to realize the lifting of the functional component on the supporting component; and the driving component is used for driving the transmission component so that the transmission component can drive the connecting component to slide. When the supporting device supports the electronic product, the electronic product can be automatically lifted, a user does not need to manually lift the electronic product, convenience is brought to the user, and the use experience of the user is improved.

Description

Supporting device and electronic equipment

Technical Field

The application relates to the technical field of electronic equipment, in particular to a supporting device and also relates to electronic equipment with the supporting device.

Background

At present, supports for supporting products such as displays and integrated computers cannot automatically lift, manual operation of users is needed, and inconvenience is brought to the users.

SUMMERY OF THE UTILITY MODEL

In view of this, the application provides a strutting arrangement, and it can realize the automatic rising of the functional unit that is supported, has made things convenient for user's use, has promoted user's use and has experienced. The application also provides an electronic device with the supporting device.

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

a support device, comprising:

a support assembly;

the connecting assembly is arranged on the supporting assembly in a sliding mode and can be connected with a functional component;

the transmission part is arranged on the supporting component and drives the connecting component to slide so as to realize the lifting of the functional component on the supporting component;

and the driving component is used for driving the transmission component so that the transmission component can drive the connecting component to slide.

Optionally, in the above supporting device, the driving assembly includes a first driving assembly and a second driving assembly, the first driving assembly is configured to drive the connecting assembly and the functional component to ascend on the supporting assembly, and the second driving assembly is configured to realize the connecting assembly and the functional component to descend on the supporting assembly.

Optionally, in the above supporting device, the transmission member is a flexible member capable of bending, and the driving assembly is wound around the driving assembly to drive the connecting assembly to slide.

Optionally, in the above-mentioned supporting device, the supporting device further includes a guiding component disposed on the connecting component and the supporting component, and the guiding component is used for guiding and limiting the transmission component.

Optionally, in the above supporting device, the supporting component includes a base and a vertical rod disposed on the base, and the vertical rod has an inner cavity; and,

the first driving component is arranged at the bottom end of the vertical rod, the second driving component is arranged at the top end of the vertical rod, and the transmission part penetrates through the inner cavity and the two ends of the transmission part and is connected with the first driving component and the second driving component respectively.

Optionally, in the above supporting device, the connecting assembly includes:

the first connecting piece is arranged in the inner cavity of the upright rod and can move in the inner cavity;

the damping piece is arranged on the first connecting piece and is abutted against the inner wall of the upright rod so as to provide damping force for the first connecting piece;

and the second connecting piece is provided with a containing cavity and is connected with the first connecting piece and can be connected with the functional component.

Optionally, in the supporting device, the second driving assembly is disposed in the accommodating cavity, and the bendable transmission member extends into the accommodating cavity after passing through the hollow first connecting member to be connected with the second driving assembly;

wherein the second drive assembly comprises: the second winding piece is rotatably arranged in the accommodating cavity and can be wound by the transmission piece; and the elastic piece drives the second winding piece to rotate.

Optionally, in the above supporting device, the guide assembly includes:

the first pulley is rotatably arranged at the top end of the vertical rod and used for changing the extending direction of the transmission piece;

the second pulley is rotatably arranged in the accommodating cavity and used for changing the extending direction of the transmission piece;

the limiting wheels are rotatably arranged in the containing cavity and are respectively positioned on two sides of the transmission piece, and the limiting wheels clamp the transmission piece to limit the moving direction of the transmission piece;

wherein,

the second winding piece, the clamping position of the limiting wheel, the first pulley and the second pulley are arranged in an aligned mode.

Optionally, in the above supporting device, the functional component is a display, and the supporting component is a bracket for supporting the display.

An electronic device comprising a display and a support apparatus supporting the display, the support apparatus comprising:

a support assembly;

the connecting component is arranged on the supporting component in a sliding mode and can be connected with the display;

the transmission part is arranged on the supporting component and drives the connecting component to slide so as to realize the lifting of the display on the supporting component;

and the driving component is used for driving the transmission component so that the transmission component can drive the connecting component to slide.

The application provides a strutting arrangement, when coupling assembling connects the functional unit in order to realize supporting the functional unit on the supporting component, coupling assembling can also slide on the supporting component through the drive of drive assembly and the transmission of driving medium, thereby it realizes the automatic rising to drive the functional unit, be used for supporting the display as strutting arrangement, when electronic products such as integral type computer, just can realize the automatic rising of electronic product, the user need not manual operation of going up and down again, the use of giving the user has brought the convenience, user's use experience has been promoted.

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 an exploded view of a support device provided in accordance with an embodiment of the present application;

FIG. 2 is a perspective view of the support assembly, the connection assembly, the guide assembly, the second drive assembly and the transmission member in cooperation;

fig. 3 is a schematic view of the arrangement of the guiding assembly, the second driving assembly and the transmission member in the second connecting member.

In fig. 1-3:

1-a support component, 2-a connecting component, 3-a transmission component, 4-a second driving component, 5-a guide component and 6-a rotating component;

101-vertical rod, 102-avoidance opening, 201-first connecting piece, 202-damping piece, 203-second connecting piece, 401-second winding piece, 402-elastic piece, 501-first pulley, 502-second pulley, 503-limiting wheel, 504-fixing piece, 505-first mounting piece and 506-second mounting piece;

2031-base plate, 2032-cover body.

Detailed Description

The application provides a supporting device, its automatic rising that can realize the functional unit who is supported has made things convenient for user's use, has promoted user's use and has experienced. The application also provides an electronic device with the supporting device.

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. 1-3, the present application provides a supporting device for supporting an object, for example, which can be placed on a table top for supporting a display, a one-piece computer, and other functional components, and the related improved components of the supporting device include a supporting component 1, a connecting component 2, a transmission component 3, and a driving component, wherein the supporting component 1 is a structure for supporting the functional components, the connecting component 2, the transmission component 3, and the driving component, and can be placed on the table top or the ground; the connecting assembly 2 is a structure for connecting the supporting assembly 1 and the functional component, and is arranged on the supporting assembly 1, for example, the top end of the supporting assembly 1, and can slide on the supporting assembly 1 along the vertical direction, namely slide up and down, because the functional component is arranged on the connecting assembly 2, the up and down sliding of the connecting assembly 2 can drive the functional component to move up and down, and further realize the lifting of the functional component on the supporting assembly 1; the transmission piece 3 is also arranged on the support component 1 and connected with the connecting component 2, the transmission piece 3 is a structure for driving the connecting component 2 and the functional components arranged on the connecting component 2 to slide, and when the transmission piece works specifically, the transmission piece can only drive the connecting component 2 and the functional components to ascend, and can also drive the connecting component 2 and the functional components to ascend and descend; the drive assembly is the power supply that realizes coupling assembling 2 and functional unit lift, and it sets up on supporting component 1 and is connected with driving medium 3 equally, and drive assembly realizes functional unit's lift through drive driving medium 3, driving medium 3 rethread drive coupling assembling 2.

The strutting arrangement of above-mentioned structure, when setting up functional unit on supporting component 1, at first realize the connection of functional unit on supporting component 1 through coupling assembling 2 that can reciprocate, then drive coupling assembling 2 through drive assembly and driving medium 3 and reciprocate the automatic rising that just has realized functional unit on supporting component 1, compare the manual lift mode among the prior art, can bring the convenience for user's use, promoted user's use experience.

In the present application, the drive assembly comprises a first drive assembly (not shown in the figures) for driving the raising of the connecting assembly 2 and the functional component on the support assembly 1 and a second drive assembly 4 for effecting the lowering of the connecting assembly 2 and the functional component on the support assembly 1. Through so setting up, can realize that coupling assembling 2 and functional component rise, descend independently go on, realize rising and descend respectively through two drive assembly's effect promptly, can avoid producing the interact between two actions. Moreover, the functional component can be lifted and lowered by using two different driving assemblies and by respectively adopting different modes by the two driving assemblies, for example, the functional component can be lifted by driving a motor, and the functional component can be lowered by changing the elastic force of the elastic piece. In addition, when the drive assembly is two, the structure of the supporting device can be more reasonably distributed, for example, one of the drive assembly and the other drive assembly is arranged at the top end of the supporting assembly 1, and the other drive assembly are arranged at the bottom end of the supporting assembly 1, so that the stress of the supporting device is more reasonable, and the supporting stability is better. Of course, the raising and lowering of the coupling assembly 2 and the functional component can also be achieved by the driving of the same drive assembly, without taking into account the above-mentioned factors.

As shown in fig. 1 and 2, the transmission member 3 is a flexible member capable of bending and is wound on the driving assembly to drive the connecting assembly 2 to slide. The structure type of driving medium 3 can have multiple selection, and this application so select driving medium 3 to be the flexible piece of flexible, because this kind of driving medium 3 self volume is less, simple structure, and through twine it so that its pulling coupling assembling 2 required transmission space of gliding mode is also less, flexible driving medium 3 installation promptly, the required space of transmission is all less, comparatively be fit for the volume less, can place on the desktop in order to support the strutting arrangement of electronic component and set up, need not to carry out too much change to strutting arrangement's major structure (being supporting component 1), make things convenient for strutting arrangement's removal and packing transportation. In this application, the flexible transmission member 3 is made of a material with good winding degree and strength, such as a steel wire rope, a glass fiber rope, a carbon fiber rope, and the like. The first driving component and/or the second driving component 4 winds the steel wire rope to pull the connecting component 2 so as to lift and/or lower the connecting component 2 and the functional components arranged on the connecting component 2.

In addition, the transmission member 3 may be of other types of structures, such as rigid transmission structures, i.e. nut-and-screw structure, rack-and-pinion structure, worm-and-wheel structure, etc. which are common in the mechanical field, and these structures may also be as described above, and the raising and lowering of the coupling assembly 2 and the functional components can be realized by the driving of the same driving assembly, for example, in the nut-and-screw structure, the raising and lowering of the coupling assembly 2 connected with the nut can be realized by rotating the output shaft of the motor in the opposite direction to drive the screw to rotate in the opposite direction; or two driving assemblies can be arranged to respectively realize the ascending and descending of the connecting assembly 2, for example, in a rack-and-pinion structure, two gears meshed with the same rack are arranged, the two gears respectively rotate in opposite directions under the driving of two motors, when the connecting assembly 2 connected with the rack needs to ascend, one motor is used for driving one gear to rotate in a forward direction (the other motor and the other gear do not work and only rotate passively under the driving of the rack), the ascending of the connecting assembly 2 is realized, and when the connecting assembly 2 connected with the rack needs to descend, the other motor is used for driving the other gear to rotate in a reverse direction, so that the descending of the connecting assembly 2 is realized.

As shown in fig. 1 to 3, the supporting device further includes a guiding assembly 5 disposed on the connecting assembly 2 and the supporting assembly 1, wherein the guiding assembly 5 is used for guiding and limiting the transmission member 3. The guide component 5 is arranged because the transmission component 3 is a flexible component, and because the transmission component 3 has flexibility, the transmission component 3 is easy to bend and deflect during transmission, so that the guide component 5 is arranged to guide and limit the transmission component 3 so as to further improve the reliability and the stability of transmission, so that the transmission component 3 is driven according to a preset track, and the supporting device has better working performance.

In the present application, as shown in fig. 1 to 3, the supporting component 1 includes a base (not shown in the figures) and a vertical rod 101 disposed on the base, the vertical rod 101 has an inner cavity; and, first drive assembly sets up in the bottom of pole setting 101, and second drive assembly 4 is located the top of pole setting 101, and driving medium 3 passes the inner chamber and both ends are connected with first drive assembly and second drive assembly 4 respectively. In this structure, the base is the part that is used for with the desktop, ground contact, it has great area of contact between with desktop and the ground, thereby make whole strutting arrangement can be more stable place on the desktop, ground, pole setting 101 sets up on the base, for example can stand on the base along vertical direction, thereby make strutting arrangement have certain height, in order to realize the support to the functional unit, pole setting 101's inner chamber is along the axial extension of pole setting 101 and run through pole setting 101, this inner chamber is used for holding driving medium 3 so that driving medium 3 can extend to the top of pole setting 101 from the bottom of pole setting 101 and enter into coupling assembling 2, and driving medium 3 can move in the inner chamber and realize the pulling to coupling assembling 2. When the first driving component and the second driving component 4 are provided, the first driving component can be arranged on the base, the transmission member 3 enters the inner cavity of the upright rod 101 from the bottom end of the upright rod 101 after being connected with the first driving component, and extends out from the top end of the upright rod 101 after penetrating through the inner cavity, and then the extending end enters the connecting component 2 and is connected with the second driving component 4 arranged inside the connecting component 2, so that when the first driving component is started and winds one end of the transmission member 3 (for convenience of description, the end of the transmission member 3 connected with the first driving component is called a first end, and the end of the transmission member 3 connected with the second driving component 4 is called a second end), the distribution length of the transmission member 3 (the distribution length refers to the distribution length of the transmission member 3 between the first driving component and the second driving component 4) is gradually reduced, so that the second end of the transmission member 3 can move towards the inner cavity, because the opening of the inner cavity is positioned at the top end of the upright rod 101, the second end moving towards the inner cavity can pull the connecting assembly 2 to move towards the top end of the upright rod 101, and further the rising of the functional part is realized; when the functional component needs to be lowered, the first driving component can be kept in a closed state, namely the first end of the transmission component 3 is fixed, the second driving component 4 can enable the distribution length of the transmission component 3 to be gradually increased by performing a releasing operation (namely the reverse operation of a winding operation) on the second end, the functional component and the connecting component 2 can move downwards on the upright rod 101 under the action of self gravity (the friction force between the connecting component 2 and the upright rod 101 is smaller than the gravity of the functional component and the connecting component 2) while the distribution length is increased, when the functional component moves downwards to the proper position, the releasing operation of the second driving component 4 is stopped, the distribution length of the transmission component 3 is not increased any more, and the functional component and the connecting component 2 are stopped at the position after the downwards moving under the lifting action of the transmission component 3; alternatively, the lowering of the functional component can be achieved by other means, for example, by the second driving assembly 4 winding the transmission member 3, which is described in detail later.

Specifically, as shown in fig. 1 to 3, the connecting assembly 2 includes: a first connecting piece 201 which is arranged in the inner cavity of the upright rod 101 and can move in the inner cavity; the damping piece 202 is arranged on the first connecting piece 201 and is abutted against the inner wall of the upright rod 101 so as to provide damping force for the first connecting piece 201; a second connector 203 with a receiving cavity is connected to the first connector 201 and can be connected to the functional component. In this structure, the first connecting member 201 is a component for connecting the connecting assembly 2 and the vertical rod 101, and may be a cylindrical structure (a through hole for the transmission member 3 to pass through is also formed in the axis of the cylindrical structure), when the first connecting member 201 is disposed in the inner cavity of the vertical rod 101, it is inserted into the inner cavity, and a gap is formed between the outer wall of the first connecting member 201 and the inner wall of the vertical rod 101, so that the first connecting member 201 can move up and down in the inner cavity, and in order to ensure that the first connecting member 201 can move stably in the inner cavity, a damping member 202 is disposed in the gap between the outer wall of the first connecting member 201 and the inner wall of the vertical rod 101, the damping member 202 is connected to the outer wall of the first connecting member 201 and can abut against the inner wall of the vertical rod 101, and provides a damping force for the movement of the first connecting member 201 by generating a friction force with the inner wall of the vertical rod 101, so that the stable movement of the first connecting member 201 in the inner cavity can be realized, the damping force may be different according to the descending manner of the functional component, for example, when the second driving assembly 4 performs the releasing operation to descend the functional component, the damping force provided by the damping member 202 needs to be smaller than the gravity of the functional component and the connecting assembly 2, so that the functional component and the connecting assembly 2 can descend under the gravity thereof, and when the second driving assembly 4 performs the descending operation of the functional component by performing the winding operation, the damping force provided by the damping member 202 needs to be slightly larger than the gravity of the functional component and the connecting assembly 2. To improve the working life of the damping member 202, the damping member 202 may be a POM material with excellent wear resistance. The second connecting piece 203 is a part of the connecting assembly 2, which is located outside the upright rod 101, one end of the second connecting piece 203 is fixedly connected with the first connecting piece 201, and the other end of the second connecting piece 203 can be connected with a functional component, in order to ensure that the second connecting piece 203 is smoothly connected with the first connecting piece 201 located in the inner cavity, one end of the second connecting piece 203 needs to extend into the inner cavity, and in order to ensure that the upright rod 101 does not interfere with one end extending into the inner cavity to affect the normal lifting of the functional component, an avoiding opening 102 is formed in the upright rod 101, the avoiding opening 102 is a long-strip opening, and extends downwards from the top end of the upright rod 101 along the axial direction of the upright rod 101, so that the second connecting piece 203 can move in the avoiding opening 102, that the distribution track of the avoiding opening 102 is the moving track of the connecting assembly 2 and the functional component; in addition, the second connecting piece 203 is provided with an accommodating inner cavity, partial structure of the guide assembly 5 and the second driving assembly 4 can be arranged in the second connecting piece 203, namely, the second connecting piece 203 is an accommodating box at the same time, so that the second connecting piece 203 can also have an accommodating function while playing a connecting function, the second driving assembly 4 and the guide assembly 5 are prevented from being exposed, the second driving assembly 4 and the guide assembly 5 are protected, and the appearance aesthetic degree of the supporting device can be improved.

Further, make foretell pole setting 101 be the arris pole (this arris pole can be understood as the prism of seting up the inner chamber), the cross sectional shape of pole setting 101 is the polygon promptly, for example hexagon, nonagon etc. make first connecting piece 201 also be the prism the same with arris pole cross sectional shape simultaneously, so just so can make pole setting 101 and first connecting piece 201 through mutually supporting between the parallel arris face of multiunit more steady carry out the relative slip, further promoted the stability that the functional component goes up and down. Furthermore, the upright 101 and the first connector 201 may also be a round rod and a cylinder, respectively.

Specifically, as shown in fig. 1 to 3, the second driving assembly 4 is disposed in the accommodating cavity, and the bendable transmission member 3 extends into the accommodating cavity after passing through the hollow first connecting member 201 to be connected with the second driving assembly 4; wherein the second drive assembly 4 comprises: a second winding member 401 rotatably disposed in the accommodating chamber and capable of being wound by the transmission member 3; and an elastic member 402 for rotating the second winding member 401. Further, the guide assembly 5 includes: a first pulley 501 rotatably disposed at the top end of the vertical rod 101 for changing the extending direction of the transmission member 3; a second pulley 502 rotatably disposed in the accommodating chamber for changing the extending direction of the transmission member 3; the limiting wheels 503 are rotatably arranged in the containing cavity and are respectively positioned at two sides of the transmission member 3, and the limiting wheels 503 are used for clamping the transmission member 3 to limit the moving direction of the transmission member 3; wherein, the second winding part 401, the clamping position of the limiting wheel 503, the first pulley 501 and the second pulley 502 are arranged in alignment. Specifically, when the transmission member 3 is disposed on the basis of the above structure, first, a first end of the transmission member 3 is connected to the first driving component, then a second end of the transmission member 3 extends (or moves) from the bottom end to the top end of the upright rod 101 and passes through the first connecting member 201, then the second end is wound around the first pulley 501 (the winding angle is less than 360 degrees) and changes the extending direction through the guide of the first pulley 501, the second end with the changed extending direction extends into the accommodating cavity of the second connecting member 203, and is wound around the second pulley 502 (the winding angle is also less than 360 degrees) in the accommodating cavity, so that the extending direction of the second end is changed again under the guide of the second pulley 502, the second end with the changed extending direction passes through between the limiting wheels 503 to enable the limiting wheels 503 to limit the moving direction of the transmission member 3, and finally the second end is connected to the second winding member 401, so that the winding and unwinding of the transmission member 3 can be achieved when the second winding member 401 rotates. When the first pulley 501 is arranged, there may be a plurality of different arrangement modes, one arrangement mode is to fixedly arrange the first pulley 501 at the top end of the vertical rod 101 through the fixing member 504 and the first installation member 505 fixedly connected with the fixing member 504, so that the first pulley 501 can only rotate around its own axis and cannot move up and down relative to the vertical rod 101, that is, the first pulley 501 becomes a fixed pulley, and on this basis, the functional component descends, as mentioned in the foregoing, by making the second winding member 401 pay out the transmission member 3 (that is, pay out the transmission member 3) and utilizing the gravity of the functional component itself (the damping force in this arrangement mode is smaller than the gravity of the functional component and the connection assembly 2); another way of arranging is to arrange the first pulley 501 on the first connecting member 201 through the first mounting member 505, so that the first pulley 501 can be lifted and lowered synchronously with the connecting assembly 2, and on the basis, the functional component is lowered, so that the second winding member 401 can wind the transmission member 3, that is, the elastic member 402 drives the second winding member 401 to rotate, so that the transmission member 3 is wound on the second winding member 401 more, the distribution length of the transmission member 3 is reduced, so that the transmission member 3 applies a downward pressure to the first pulley 501 at the highest position of the extension path, and the downward pressure is matched with the gravity of the functional component and the connecting assembly 2 to overcome the damping force (the damping force in this way is slightly larger than the gravity of the functional component and the connecting assembly 2, and the difference between the damping force and the gravity is smaller than the downward pressure, that the sum of the downward pressure and the gravity is larger than the damping force), the lowering of the connection assembly 2 and the functional components arranged thereon is effected. The second link 203 includes a base plate 2031 and a cover 2032 covering the base plate 2031, and the second pulley 502 is fixedly disposed on the base plate 2031 by the second mounting member 506 when disposed in the second link 203, so that the second pulley 502 can only rotate around its axis and cannot move in the second link 203, and the axes of the second pulley 502 and the first pulley 501 can be horizontally disposed. The limiting wheels 503 can be arranged as two and rotatably arranged on the bottom plate 2031, the rotating axes of the limiting wheels are vertically arranged, the grooves on the two limiting wheels 503 form a horizontal channel, and the transmission member 3 passes through the horizontal channel to maintain the linear movement of the transmission member 3 in the up-down dimension and the left-right dimension, so that the transmission member 3 is prevented from loosening and deflecting. The second winding member 401 is a rotary winding drum disposed on the bottom plate 2031 and having a vertical axis, and a winding groove for orderly winding the transmission member 3 is disposed on the outer circumferential wall of the winding drum. The elastic member 402 is disposed in the winding drum, and may be a coil spring or a torsion spring, one end of the coil spring or the torsion spring is fixedly connected to the bottom plate 2031, and the other end of the coil spring or the torsion spring is fixedly connected to the inner wall of the winding drum, and in order to stably release or wind the transmission member 3 to stably lift the functional component, the elastic member 402 is a constant force spring applying a constant magnitude elastic force to the winding drum, in the releasing operation of the second winding member 401 to lower the functional component, the coil spring is tightened, that is, the elastic member 402 contracts and deforms under the action of the gravity of the functional component and the connecting assembly 2, and in the winding operation of the second winding member 401 to lower the functional component, the coil spring expands, that is, the elastic member 402 expands and deforms under the action of the gravity of the functional component and the connecting assembly 2. When the operation of unwinding or winding the transmission member 3 is not required by the second winding member 401, for example, when raising a functional component, the second winding member 401 may be positioned so as not to rotate. The first pulley 501 and the second pulley 502 can also play a role of tensioning the transmission member 3 while playing a role of changing the extending direction of the transmission member 3.

The first driving assembly may include a motor and a first winding member (the motor and the first winding member are not shown) rotated by the motor and connected to the first end of the driving member 3, and the structure of the first winding member may be the same as that of the second winding member 401. In addition, in order to increase the service life of the first pulley 501, the second pulley 502, the limiting wheel 503, the first winding member and the second winding member 401, the first pulley 501, the second pulley 502, the limiting wheel 503, the first winding member and the second winding member 401 may be made of POM, or a wear-resistant layer made of POM may be provided at a portion of the first pulley 501, the second pulley 502, the limiting wheel 503, the first winding member and the second winding member 401, which is in contact with the transmission member 3.

In the present application, it is preferable that the functional component is a display, and the support member 1 is a stand for supporting the display. Moreover, this application is still preferably connected through rotating assembly 6 between coupling assembling 2 and the display, and this rotating assembly 6 can make the display rotate for coupling assembling 2 for the regulation of every single move angle can be realized to the display, with the user demand that satisfies the user more diversified.

In addition, this application still provides an electronic equipment, including the display and the strutting arrangement who supports the display, strutting arrangement includes: a support assembly 1; the connecting component 2 is arranged on the supporting component 1 in a sliding mode and can be connected with a display; the transmission part 3 is arranged on the supporting component 1 and drives the connecting component 2 to slide so as to realize the lifting of the display on the supporting component 1; the driving component is used for driving the transmission part 3, so that the transmission part 3 can drive the connecting component 2 to slide.

That is to say, the electronic device has the supporting device, and please refer to the above contents for the beneficial effects brought by the supporting device, which is not described herein again.

In the present specification, the structure of each part is described in a progressive manner, the structure of each part is mainly described as different from the existing structure, and the whole and partial structure of the supporting device can be obtained by combining the structures of the 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 (10)

1. A support device, comprising:

a support assembly;

the connecting assembly is arranged on the supporting assembly in a sliding mode and can be connected with a functional component;

the transmission part is arranged on the supporting component and drives the connecting component to slide so as to realize the lifting of the functional component on the supporting component;

and the driving component is used for driving the transmission component so that the transmission component can drive the connecting component to slide.

2. The support device of claim 1, the drive assembly including a first drive assembly for driving the connection assembly and the functional component up on the support assembly and a second drive assembly for effecting the connection assembly and the functional component down on the support assembly.

3. The supporting device according to claim 1, wherein the transmission member is a flexible member capable of bending and driving the connecting member to slide by winding on the driving member.

4. The support device of claim 1, further comprising a guide assembly disposed on the connection assembly and the support assembly, the guide assembly for guiding and limiting the drive member.

5. The support device of claim 1, the support assembly comprising a base and a pole disposed on the base, the pole having an interior cavity; and,

the first driving component is arranged at the bottom end of the vertical rod, the second driving component is arranged at the top end of the vertical rod, and the transmission part penetrates through the inner cavity and the two ends of the transmission part and is connected with the first driving component and the second driving component respectively.

6. The support device of claim 5, the connection assembly comprising:

the first connecting piece is arranged in the inner cavity of the upright rod and can move in the inner cavity;

the damping piece is arranged on the first connecting piece and is abutted against the inner wall of the upright rod so as to provide damping force for the first connecting piece;

and the second connecting piece is provided with a containing cavity and is connected with the first connecting piece and can be connected with the functional component.

7. The support device according to claim 6, wherein the second drive assembly is arranged in the accommodating cavity, and the bendable transmission piece extends into the accommodating cavity after passing through the hollow first connecting piece so as to be connected with the second drive assembly;

wherein the second drive assembly comprises: the second winding piece is rotatably arranged in the accommodating cavity and can be wound by the transmission piece; and the elastic piece drives the second winding piece to rotate.

8. The support device of claim 7, the guide assembly comprising:

the first pulley is rotatably arranged at the top end of the vertical rod and used for changing the extending direction of the transmission piece;

the second pulley is rotatably arranged in the accommodating cavity and used for changing the extending direction of the transmission piece;

the limiting wheels are rotatably arranged in the containing cavity and are respectively positioned on two sides of the transmission piece, and the limiting wheels clamp the transmission piece to limit the moving direction of the transmission piece;

wherein,

the second winding piece, the clamping position of the limiting wheel, the first pulley and the second pulley are arranged in an aligned mode.

9. The support device of claim 1, the functional component being a display and the support assembly being a stand supporting the display.

10. An electronic device comprising a display and a support apparatus supporting the display, the support apparatus comprising:

a support assembly;

the connecting component is arranged on the supporting component in a sliding mode and can be connected with the display;

the transmission part is arranged on the supporting component and drives the connecting component to slide so as to realize the lifting of the display on the supporting component;

and the driving component is used for driving the transmission component so that the transmission component can drive the connecting component to slide.

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