CN112912656A - Support base, electronic equipment and selftimer - Google Patents

Abstract

A support base (100), an electronic apparatus and a self-timer apparatus, the support base (100) being used for supporting an object, comprising: the device comprises a base (10), wherein a containing part (60) is arranged in the base (10), an opening (11) is formed in the side surface of the base (10), and the opening (11) is communicated with the containing part (60); a support mechanism which is connected with the containing part (60) in a sliding way; the supporting mechanism can slide along the containing part (60), so that the supporting mechanism can extend out of the base (10) from the opening (11) to support an object, and the supporting mechanism can retract into the containing part (60) from the opening (11) to be contained in the base (10). Through setting up storage portion (60) in base (10), with supporting mechanism swing joint in storage portion (60), when supporting, supporting mechanism can stretch out from storage portion (60) in order to support the article, when accomodating, supporting mechanism can retract storage portion (60) in order to accomodate in base (10), from this, when supporting structure is accomodated, storage portion (60) sets up in base (10), and the dust can't get into, solves the deposition problem.

Description

Support base, electronic equipment and selftimer

Technical Field

The application relates to the technical field of supporting structures, in particular to a supporting base, electronic equipment and self-timer equipment.

Background

In order to meet the requirement of miniaturization of electronic equipment, a novel folding device and a fan and a desk lamp using the same are disclosed in the prior art, the application number of the novel folding device is cn201910759824.x, the novel folding device is provided with an accommodating groove in the bottom surface of a base, and a telescopic mechanism can be accommodated in the accommodating groove to realize miniaturization. In addition, a folding device with the functions of extension and retraction and a folding fan thereof are also disclosed in the prior art, and the application number of the folding device is CN201910759811.2, the folding device with the functions of extension and retraction is provided with a storage groove on the surface of a base, and an extension mechanism can be stored in the storage groove to realize miniaturization. However, the receiving grooves of the two schemes are arranged on the surface or the bottom surface of the base, dust is easy to fall into or adhere to the receiving grooves, and the receiving grooves are difficult to clean.

Disclosure of Invention

The present application provides a supporting base and an electronic device, and aims to solve the problem that a storage groove formed on a surface or a bottom surface of a base is prone to dust accumulation in the related art.

In a first aspect, a support base provided in an embodiment of the present application is used for supporting an object, and includes: the base is provided with a containing part, an opening is formed in the side face of the base, and the opening is communicated with the containing part; a support mechanism slidably connected to the receiving portion; the supporting mechanism can slide along the containing part, so that at least part of the supporting mechanism can protrude out of the base from the opening to support the object, and at least part of the supporting mechanism can retract into the containing part from the opening to be contained in the base.

Further, in some embodiments, the supporting mechanism includes a supporting member and a connecting member, a top end of the supporting member is used for supporting the object, the supporting member is connected to the connecting member, and the connecting member is capable of rotating relative to the base when the supporting member extends out of the opening, so as to drive the supporting member to rotate relative to the base, so that the supporting member is in a supporting state.

Further, in some embodiments, the support mechanism further comprises a hinge connected to a top end of the support, the hinge configured to hinge the object; the support member comprises a telescopic support rod; the support is slidably received in the connector.

Further, in some embodiments, a notch is formed at an edge of the upper surface and/or the lower surface of the base, and the notch is communicated with the opening; the connecting piece can rotate to abut against the notch after extending out of the opening.

Furthermore, the supporting mechanism further comprises a locking sleeve, the connecting piece is sleeved with the locking sleeve, and when the connecting piece abuts against the notch, the locking sleeve can move towards the base to enable the locking sleeve to abut against the base.

Further, in some embodiments, the supporting mechanism further includes a limiting ring, the limiting ring is sleeved on the connecting member and is close to one end of the supporting member, and the locking sleeve can move away from the base to the locking sleeve to abut against the limiting ring.

Further, in some embodiments, the connecting member is a connecting sleeve, one end of the connecting sleeve is sleeved outside the supporting member, and the other end of the connecting sleeve extends radially to form a sliding portion; the accommodating part is a sliding groove, the sliding part is connected to the sliding groove in a sliding mode, the peripheral surface of the sliding part is partially or completely an arc surface, and the sliding part can rotate relative to the base when sliding to the opening so that the connecting sleeve abuts against the notch.

Further, in some embodiments, two ends of the sliding groove are further provided with limiting arc surfaces, and the limiting arc surfaces are matched with the arc surfaces of the sliding portion.

Further, in some embodiments, the base includes a bottom plate, a cover plate disposed opposite to the bottom plate, and a side plate connected between the bottom plate and the cover plate, the receiving portion is located between the bottom plate and the cover plate, and the opening is located on the side plate; the accommodating part comprises a sliding groove located between the bottom plate and the cover plate, and the supporting mechanism is connected to the sliding groove in a sliding mode.

Further, in some embodiments, the surface of the cover plate away from the bottom plate also has a receiving groove for receiving at least part of the object and/or a remote controller.

Further, in some embodiments, the base further includes a first fastening portion, one side of the connecting member, which is away from the supporting member, includes a second fastening portion, one of the first fastening portion and the second fastening portion is a slot, the other of the first fastening portion and the second fastening portion is a protrusion which can be received and fastened to the slot, and when the supporting member is in the supporting state, the first fastening portion is fastened to the second fastening portion.

Further, in some embodiments, the connecting member includes an inner sleeve and an outer sleeve, the inner sleeve is configured to be sleeved outside the supporting member and slidably receive the supporting member, the inner sleeve is further configured to be slidably connected to the sliding groove, the outer sleeve is sleeved outside the inner sleeve, and the outer sleeve is configured to lock a relative position between the supporting member and the base when the supporting member is in the supporting state.

Further, in some embodiments, the outer surface of the inner sleeve has a first thread structure, the inner surface of the outer sleeve has a second thread structure matching with the first thread structure, the outer sleeve is configured to rotate relative to the inner sleeve through the first thread structure and the second thread structure so as to abut against or separate from the base, the outer sleeve can lock the relative position of the support and the base when abutting against the base, and the outer sleeve can enable the support mechanism to rotate around the base when separating from the base.

Further, in some embodiments, the outer sleeve includes a first locking portion disposed away from an outer surface of the inner sleeve, and the base includes a second locking portion disposed corresponding to the first locking portion, the first locking portion for locking a relative position of the support and the base in a snap or sliding fit with the second locking portion.

Further, in some embodiments, one of the first locking portion and the second locking portion is a slider, and the other of the first locking portion and the second locking portion is a sliding groove engaged with the slider.

Further, in some embodiments, the inner sleeve includes a first sleeve main body, the connecting member further includes an elastic element and a limiting sleeve connected to one end of the first sleeve main body, the limiting sleeve is located at one end of the first sleeve main body away from the base when the supporting mechanism is in the supporting state, the outer sleeve includes a second sleeve main body and a first limiting end connected to one end of the second sleeve main body, the elastic element is sandwiched between the limiting sleeve and the first limiting end, and the elastic element is configured to drive the outer sleeve to move towards one side of the base through the first limiting end, so that the first locking portion slides into the second locking portion to be locked with the second locking portion.

Further, in some embodiments, the first sleeve main body further includes a first fastening portion, the position-limiting sleeve includes a second fastening portion engaged with the first fastening portion, and the first fastening portion and the second fastening portion are engaged with each other to connect the position-limiting sleeve and the first sleeve main body.

Further, in some embodiments, the limiting sleeve further includes a side wall structure and a second limiting end disposed on a side of the side wall structure away from the first sleeve main body, and the second limiting end is used for abutting and limiting one end of the outer sleeve away from the base when the supporting mechanism is in the supporting state.

Further, in some embodiments, the outer sleeve further includes a first retaining member located on the inner surface, the retaining sleeve further includes a second retaining member located on the outer surface and engaged with the first retaining member, and the first retaining member is slidably engaged with the second retaining member; one of the first limiting part and the second limiting part is a sliding groove, and the other one of the first limiting part and the second limiting part is a strip-shaped protrusion.

Further, in some embodiments, the receiving portion includes a slot disposed on the bottom plate, and the inner sleeve further includes a first fastening end connected to the first sleeve main body, and the first fastening end is received in the slot when the supporting member is in the supporting state.

Further, in some embodiments, the connecting member includes a sleeve body, a rotating end and an elastic element located between the sleeve body and the rotating end, the sleeve body is rotatably or slidably connected to the base, the sleeve body is sleeved outside the supporting member and enables the supporting member to slide relative to the sleeve body, the rotating end is disposed at an end of the supporting member away from the object, the base includes a bottom plate, the receiving portion is located at a side of the bottom plate adjacent to the supporting member, when the supporting member is in the supporting state, the rotating end is located between the sleeve body and the bottom plate, and the elastic element is compressed to press the sleeve body and the rotating end, so that a side of the rotating end away from the supporting member abuts against the bottom plate; when the supporting mechanism rotates relative to the base so that the extending direction of the supporting piece is the same as the extending direction of the accommodating part, the elastic element can release elastic force to drive the rotating end to drive the supporting piece to slide into the accommodating part.

Further, in some embodiments, the sheath body is rotatably connected to the base, the base further includes two extending portions connected to one side of the bottom plate adjacent to the supporting member, the two extending portions are adjacent to the opening and are oppositely disposed, and two ends of the sheath body are rotatably connected to the two extending portions respectively.

Further, in some embodiments, the sheath body is slidably connected to the base, the base further includes a first extension portion connected to a side of the base plate adjacent to the support, the two first extension portions are disposed opposite to each other, the receiving portion is located between the two first extension portions, the first extension portion includes a first portion adjacent to the opening, a second portion connected to the first portion, and a third portion located at an end of the first portion away from the second portion, the second portion and the third portion are higher than the first portion such that the second portion, the first portion, and the third portion enclose a first gap portion, the sheath body includes a main body sleeved on the periphery of the support and extension shafts connected to two sides of the main body, the extension shafts are slidably connected to the first gap portion, and the extension shafts are rotatable with respect to the third portion,

when the support base is in the support state, the extension shaft abuts against the third portion,

when the supporting mechanism rotates relative to the base and the extending shaft rotates relative to the third portion, so that the extending direction of the supporting piece is the same as the extending direction of the accommodating portion, the elastic element can release elastic force to drive the rotating end to drive the supporting piece to slide into the accommodating portion, the extending shaft can slide along the first notch portion, so that the sleeve body slides into the accommodating portion, and the extending shaft can abut against the second portion.

Further, in some embodiments, the elastic element is a spring sleeved on the periphery of the support; the cover body comprises a substrate portion with an opening and a side wall portion which is connected to the edge of the substrate portion and is annularly arranged, the spring is located between the substrate portion and the rotating end, and one end, close to the substrate portion, of the spring is located in a containing space surrounded by the substrate portion and the side wall portion.

Further, in some embodiments, the base further includes a slot, and when the support is in the supporting state, the bottom of the connector abuts against the slot.

Further, in some embodiments, the rotating end includes a rotating body and a second fastening end disposed on a side of the rotating body away from the support, the receiving portion includes a fastening groove disposed on the bottom plate, and when the support is in the supporting state, the second fastening end is received in the fastening groove.

In a second aspect, the present application also provides a support base for supporting an article, comprising: the base is internally provided with a sliding chute, the side surface of the base is provided with an opening, and the opening is communicated with the sliding chute; a notch is arranged at the edge of the upper surface and/or the lower surface of the base and is communicated with the opening; the top end of the telescopic rod is connected with an articulated piece, and the articulated piece is used for articulating the object; the telescopic rod is sleeved with one end of the connecting sleeve, a sliding portion is formed by radially extending the other end of the connecting sleeve, the sliding portion is connected to the sliding groove in a sliding mode, the connecting sleeve can be stored in the sliding groove in a storage state and at least partially extends out of the sliding groove in a stretching state, the peripheral surface of the sliding portion is partially or completely an arc surface, and the sliding portion can slide to the opening relative to the base to enable the connecting sleeve to abut against the notch.

In a third aspect, the present application further provides an electronic device, which includes: the supporting base is the first aspect, the equipment main body is hinged to the supporting mechanism, and when the supporting mechanism is accommodated in the base, the equipment main body can be superposed on the upper surface or the lower surface of the base.

In a fourth aspect, the present application further provides a fan, comprising: the fan comprises a fan body and a supporting base, wherein the supporting base is the supporting base of the first aspect, the fan body is hinged to the supporting mechanism, and when the supporting mechanism is accommodated in the base, the fan body can be superposed on the upper surface or the lower surface of the base.

In a fifth aspect, the present application further provides a self-timer device, which includes: the clamp comprises a clamp body and a supporting base, wherein the supporting base is the supporting base of the first aspect, the clamp body is hinged to a supporting mechanism, and when the supporting mechanism is accommodated in the base, the clamp body can be superposed on the upper surface or the lower surface of the base.

Further, be equipped with the clamping part on the anchor clamps main part, be equipped with the recess on the upper surface or the lower surface of base, when the anchor clamps main part superpose in the upper surface or the lower surface of base, the clamping part can be accomodate in the recess.

Furthermore, a light supplement lamp is arranged on the first surface of the clamp body and the second surface opposite to the first surface.

Further, the clamp main body is hinged to the supporting mechanism through a buckling part, and when the clamp main body is overlapped on the upper surface or the lower surface of the base, the buckling part is buckled on the opening to seal the opening.

The beneficial effect of this application lies in: according to the dust collecting device, the containing part is arranged in the base, the supporting mechanism is movably connected to the containing part, when the supporting mechanism is supported, the supporting mechanism can extend out of the containing part to support an object, when the supporting mechanism is contained, the supporting mechanism can retract into the containing part to be contained in the base, therefore, when the supporting mechanism is contained, the containing part is arranged in the base, dust cannot enter the containing part, and the problem of dust accumulation is solved.

Drawings

Embodiments of the present application will be described in further detail below with reference to the following figures and examples, wherein:

FIG. 1 is a schematic view of a support base according to a first embodiment of the present application;

FIG. 2 is a schematic view showing a supporting state of a supporting base according to the first embodiment of the present application;

FIG. 3 is a schematic view of a first embodiment of the present application showing a stowed position of a support base;

FIG. 4 is a schematic view of a base of the first embodiment of the present application supporting the base;

FIG. 5 is a schematic view of a support mechanism supporting a base according to a first embodiment of the present application;

FIG. 6 is a schematic view of a coupling sleeve of the support base of the first embodiment of the present application;

FIG. 7 is a schematic view of a receptacle of a support base according to a first embodiment of the present application;

FIG. 8 is a schematic illustration of a support base according to a second embodiment of the present application in a disassembled state;

FIG. 9 is a cross-sectional view of a second embodiment of the present application, illustrating a support base in a supporting configuration;

FIG. 10 is an exploded view of a portion of the structure of a connector of a second embodiment of the support base of the present application;

FIG. 11 is a schematic view of a portion of the connector of FIG. 10;

FIG. 12 is a cross-sectional view of a support base of a third embodiment of the present application in a supporting configuration;

FIG. 13 is a schematic view of a portion of a support base according to a third embodiment of the present application;

FIG. 14 is an exploded view of the support base of the embodiment of FIG. 13;

FIG. 15 is a cross-sectional view of a support base of a fourth embodiment of the present application in a supporting configuration;

FIG. 16 is a schematic perspective view of a portion of a support base according to a fourth embodiment of the present application;

FIG. 17 is a schematic reverse side view of a cover plate of a base of a support base of a fourth embodiment of the present application;

FIG. 18a is a schematic view of a fan according to an embodiment of the present disclosure;

FIG. 18b is another schematic view of a fan according to an embodiment of the present disclosure in a stowed position;

FIG. 19 is a schematic view of a fan according to an embodiment of the present disclosure;

FIG. 20 is a schematic view of a self-timer device according to an embodiment of the present application;

FIG. 21 is a schematic view of a main body of a self-timer device according to an embodiment of the present application;

FIG. 22 is a diagram illustrating a storage state of a self-timer device according to an embodiment of the present application;

the figures are numbered:

a base 10; an opening 11; a notch 12; a groove 13; a base plate 14; a card slot 141; a chute 142; a cover plate 15; a receiving groove 152; side plates 16; a second locking portion 17; an extension 18; the first extension 19 a; a first portion 19 b; a second portion 19 c; a third portion 19 d; a second extension 19 e; a fourth portion 19 f; a fifth portion 19 g; a sixth portion 19 h; a support member 20; a hinge 30; a connecting member 40; a slide portion 41; an outer sleeve 42; a first locking portion 421; a second sleeve body 422; a first stopper end 423; a first stopper 424; an elastic member 43; a stop collar 44; a first latching portion 441; sidewall structures 442; a second position-limiting end 4421; a second stopper 443; an inner sleeve 45; the first inner sleeve body 451; a first locking portion 4510; a first buckle end 4511; a sheath body 46; a main body 460; a substrate portion 461; the sidewall portion 462; an extension shaft 463; a rotating end 47; the rotating body 470; a second snap end 471; a locking sleeve 50; a retainer ring 51; a housing section 60; a limiting arc surface 61; a support base 100; a fan main body 200; a jig main body 300; a clamping portion 301; a fastening portion 302; and a fill-in lamp 303.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The preferred embodiments of the present application will now be described in detail with reference to the accompanying drawings.

First embodiment

Referring to fig. 1-7, a first embodiment of a support base 100 provided herein is illustrated. The support base 100 is used to support an object, which may be a small electronic device such as a fan, a desk lamp, or a stereo, or a small living article such as a mobile phone or a tablet stand, a reading stand, or a mirror. The supporting base 100 comprises a base 10 and a supporting mechanism, wherein a containing part 60 is arranged in the base 10, an opening 11 is arranged on the side surface of the base 10, and the opening 11 is communicated with the containing part 60; the supporting mechanism is movably connected to the receiving portion 60, and moves or rotates the supporting mechanism, at least a portion of the supporting mechanism can extend out of the base 10 from the opening 11 to support the object, and at least a portion of the supporting mechanism can retract into the receiving portion 60 from the opening 11 to be received in the base 10.

In specific implementation, the base 10 may be a rectangular base 10 or a circular base 10, but may also be a base 10 with other shapes as long as the side of the base 10 can be opened by the opening 11. The opening 11 communicates with the housing portion 60, so that the support mechanism can be extended from the opening 11 or retracted into the housing portion 60. The supporting mechanism is movably connected with the receiving portion 60 in various ways, for example, rotatably connected, rolling connected or slidably connected, and specifically, the supporting mechanism may be provided with a roller, so that the roller can roll on the receiving portion 60 to extend or retract into the receiving portion 60; or the receiving part 60 is provided with internal threads, the supporting mechanism is provided with external threads which are screwed together, and the supporting mechanism can extend out of or retract into the receiving part 60 by rotating; alternatively, the support mechanism may be provided with a slider, the housing portion 60 may be provided with a guide rail, and the support mechanism may slide on the housing portion 60 to extend or retract into the housing portion 60. By implementing the embodiment, the receiving portion 60 is disposed in the base 10, the supporting mechanism can move relative to the receiving portion 60, and the supporting mechanism can extend out of the receiving portion 60 from the base 10 to support an object and retract from the receiving portion 60 to be received in the base 10, so that external dust cannot enter the receiving portion 60 disposed in the base 10, thereby solving the problem of dust deposition, and the appearance is more concise and neat.

Referring to fig. 1 to 3, the supporting mechanism includes a supporting member 20 and a connecting member 40, a top end of the supporting member 20 is used for supporting the object, the supporting member 20 is connected to the connecting member 40, and the connecting member 40 is capable of rotating relative to the base 10 when the supporting member 20 protrudes out of the opening 11. Specifically, the connecting member 40 has a function of being movable relative to the receiving portion 60 on the one hand, and a function of being rotatable relative to the base 10 on the other hand. The connecting member 40 is movably connected to the receiving portion 60 and moves relative to the receiving portion 60 in a rotating, rolling or sliding manner, for example, a roller is arranged on the connecting member 40 to realize rolling; or the connecting piece 40 is provided with internal threads, and the accommodating part 60 is provided with external threads and is screwed with the accommodating part 60 to realize rotation; or a sliding block is arranged on the connecting piece 40, the accommodating part 60 is provided with a guide rail, and the sliding block is matched with the slide rail to realize sliding. The connector 40 is rotatable relative to the base 10, for example, the connector 40 may be provided with a shaft or a hose, and the connector 40 may be rotated when protruding out of the opening 11. The connecting member 40 may be provided in various manners, and any form may be adopted as long as the connecting member 40 has a function of moving relative to the receiving portion 60 and a function of rotating relative to the base 10, and those skilled in the art may set the connecting member according to actual requirements.

Referring to fig. 3, the supporting mechanism further includes a hinge 30, the hinge 30 is connected to a top end of the supporting member 20, and the hinge 30 is used for hinging the object. The object is hinged to the supporting member 20 through the hinge 30, so that the object can rotate relative to the base 10 when the supporting mechanism is received in the receiving portion 60, and thus the object is received on the base 10, the receiving is more integrated, and the product volume is smaller.

Referring to fig. 19 or 20, the supporting member 20 may be a supporting rod or a telescopic rod. The telescopic link expandes can adjust the support height of article, the telescopic link can be from locking when expanding to guarantee the support intensity of article, and because the flexible characteristic of telescopic link can improve the flexibility of supporting. Specifically, the telescopic rod or the supporting rod can be selected and applied according to actual requirements, and is not limited herein.

Referring to fig. 4, a gap 12 is formed at a connection portion of the opening 11 and a surface of the base 10. One surface of the base 10 may be an upper surface or a lower surface. If the notch 12 is provided at the connection position between the upper surface of the base 10 and the opening 11, the connecting member 40 can rotate relative to the base 10 to abut against the notch 12 when extending out of the opening 11; when the supporting mechanism is received in the receiving portion 60, the object can be received on the upper surface of the base 10 by abutting the rotating portion of the object against the notch 12 with respect to the base 10. Similarly, if the notch 12 is formed on the lower surface of the base 10, the object can be received on the lower surface of the base 10. The gap 12 provides a space for the connecting piece 40 and the object to rotate and accommodate, so that the structure is more compact, and the integration effect is better.

Referring to fig. 5 and 6, the supporting mechanism further includes a locking sleeve 50, the locking sleeve 50 is sleeved on the connecting member 40, when the connecting member 40 abuts against the notch 12, the locking sleeve 50 moves (e.g., rotates or slides) toward the base 10, and the locking sleeve 50 abuts against the base 10. Specifically, the locking sleeve 50 is provided with an internal thread, the connecting member 40 is provided with a thread, and the locking sleeve 50 is screwed with the connecting member 40, so that the locking sleeve 50 can be rotated to move along the axis of the connecting member 40. When supporting the object, the connecting member 40 abuts against the notch 12, and the locking sleeve 50 moves (e.g., rotates or slides) toward the base 10, so that the locking sleeve 50 moves toward the base 10 relative to the connecting member 40 until the locking sleeve 50 abuts against the base 10, thereby fixing the connecting member 40 and the base 10, ensuring the stability of the supporting member 20 and preventing the object from shaking. Specifically, the locking sleeve 50 may directly abut against the surface of the base 10, or a flange may be disposed on the notch 12, and the locking sleeve 50 abuts against the flange as long as it can be pressed against the base 10 to keep the connection member 40 and the base 10 stable.

Referring to fig. 5 and 6, the supporting mechanism further includes a limiting ring 51, and the limiting ring 51 is sleeved on the connecting member 40 and is close to one end of the supporting member 20. Specifically, one end of the connecting member 40 close to the supporting member 20 is provided with a clamping block or a clamping groove, the limiting ring 51 is provided with a matched clamping opening, and the clamping opening is matched with the clamping block or the clamping groove so as to sleeve the limiting ring 51 on the connecting member 40. It is understood that, instead of the stop ring 51 being sleeved on the connecting member 40 by a snap connection, a threaded connection may be adopted, which is not limited herein. The locking sleeve 50 moves (e.g., rotates or slides) toward the support member 20 to abut against the stop ring 51, and the stop ring 51 stops the locking sleeve 50 to prevent the locking sleeve 50 from falling off from the connecting member 40.

Referring to fig. 7, the connecting member 40 is a connecting sleeve, one end of the connecting sleeve is sleeved on the supporting member 20, and the other end of the connecting sleeve extends towards two sides to form a sliding portion 41; the receiving portion 60 is a sliding groove, and the sliding portion 41 is slidably connected to the sliding groove, wherein a part or all of a peripheral surface of the sliding portion 41 is an arc surface, and when the sliding portion 41 slides to the opening 11, the sliding portion can rotate relative to the base 10 to make the connection sleeve abut against the notch 12. Specifically, the sliding portion 41 of the connection sleeve is a cylinder, and the circumferential surface of the cylinder is perpendicular to the connection sleeve. Steps are arranged on two opposite side walls along the sliding groove, and the circumferential surfaces of two ends of the cylinder are arranged on the steps on two sides, so that the sliding part 41 can slide in the sliding groove. Since the sliding portion 41 is a cylinder, when the sliding portion 41 slides on the chute to the opening 11, the cylinder can rotate by using the circumference of the cylinder, that is, the arc surface thereof, and the connection sleeve can rotatably abut against the notch 12. It is of course understood that the circumferential surface of the sliding part 41 may also be partially curved, as long as the curved surface is placed on the sliding groove and can rotate.

With reference to fig. 7, the two ends of the sliding groove are further provided with a limiting arc surface 61, and the limiting arc surface 61 is matched with the arc surface of the sliding part 41. The limiting arc surface 61 is used for limiting the sliding part 41 and preventing the connecting sleeve from sliding out of the opening 11; on the other hand, the arc surface is arranged to match with the arc surface of the sliding part 41, when the sliding groove slides to the end, close to the opening 11, of the sliding groove, the arc surface of the sliding part 41 is abutted to the limiting arc surface 61, when the sliding part 41 rotates, the sliding groove can be attached to the limiting arc surface 61 to rotate, and the rotation is smoother.

The base 10 is further provided with a balancing weight, and the balancing weight is used for increasing the gravity of the base 10 so as to improve the supporting strength of the base 10, so that the supporting mechanism can support objects with heavier weight.

The supporting base 100 provided by the present application is characterized in that the receiving portion 60 is disposed in the base 10, the supporting mechanism can move relative to the receiving portion 60, the supporting mechanism can extend out of the receiving portion 60 from the base 10 to support the object, and retract from the receiving portion 60 to be received in the base 10, so that external dust cannot enter into the receiving portion 60 disposed in the base 10, thereby solving the problem of dust deposition, and the appearance is more concise and regular.

Second embodiment

Parts of the supporting base 100 shown in the second embodiment of the present application that have the same structure as the supporting base 100 shown in the first embodiment are not repeated, and the following description mainly refers to different structural parts.

Referring to fig. 8 and 9, fig. 8 is a schematic view illustrating a support base 100 according to a second embodiment of the present application in a disassembled state; fig. 9 is a cross-sectional view of a supporting base 100 according to a second embodiment of the present application in a supporting state. In each embodiment, it is understood that the base 10 includes a bottom plate 14, a cover plate 15 disposed opposite to the bottom plate 14, and a side plate 16 connected between the bottom plate 14 and the cover plate 15, the receiving portion 60 is located between the bottom plate 14 and the cover plate 15, and the opening 11 is located on the side plate 16. Wherein, the base 10 can improve the stability of the support of the base 10 through a simple structural design. And, be located the opening of curb plate makes the base be difficult for advancing the ash by upper and lower surface, is convenient for arrange and can avoid advancing the support base function unstability that the ash leads to.

Further, it is understood that in each embodiment, the surface of the cover plate 15 away from the bottom plate 14 further has a receiving groove 152, and the receiving groove 152 is used for receiving at least a portion of the object and/or the remote controller. In detail, the receiving groove 152 may receive the object, such as a small electronic device, or a small living article, such as at least a portion of a mobile phone or a tablet holder, a reading holder, a fan, a desk lamp, or a mirror; of course, the receiving groove 152 may also be a part for receiving the object, such as a smaller object like a remote controller of a fan or a desk lamp. It can be understood that the storage groove 152 is added to effectively arrange and store the objects, reduce the loss of the objects, improve the user experience and improve the aesthetic feeling of the appearance of the support base.

Further, the receiving portion 60 includes a sliding groove 142 between the bottom plate 14 and the cover plate 15, and the supporting mechanism having the connecting member 40 and the supporting member 20 is slidably connected to the sliding groove 142. It is understood that the sliding slot 142 can be disposed on a side of the cover plate 15 opposite to the bottom plate 14, and the supporting mechanism is slidably connected to the cover plate 15 through the sliding slot 142 when being received or extended from the receiving portion 60; the sliding groove 142 can also be arranged on one side of the bottom plate 14 opposite to the cover plate 15; the sliding grooves 142 may be respectively disposed on the bottom plate 14 and the cover plate 15 on the side opposite to the receiving portion 60. Specifically, in the present embodiment, the sliding groove 142 is disposed on a side of the bottom plate 14 opposite to the cover plate 15. It can be understood that the supporting mechanism can slide better through the sliding groove 142, so that the sliding resistance of the supporting mechanism can be reduced, and the experience of a user is improved.

Further, the receiving portion 60 further includes a locking groove 141 disposed on the bottom plate 14, and when the supporting member 20 is in the supporting state, the bottom of the connecting member 40 abuts against the locking groove 141. Specifically, the card slot 141 may communicate with the opening 11 and the receiving portion 60.

It will be appreciated that the opening of the slot 141 is sized to fully receive the bottom of the connector 40, thereby securing the bottom of the connector 40. In this embodiment, the locking groove 141 is disposed at the bottom of the sliding groove 142 near one end of the opening 11, and is communicated with the opening 11; the opening of the card slot 141 is smaller than or equal to the opening of the sliding slot 142. The fastening groove 141 can fix and support the connecting member 40, thereby improving the supporting stability of the supporting base 100.

Referring to fig. 10, fig. 10 is an exploded view of a portion of the connecting member 40 of the support base 100 according to the second embodiment of the present application. The connecting member 40 includes an inner sleeve 45 and an outer sleeve 42, the inner sleeve 45 is used for being sleeved outside the supporting member 20 and slidably receiving the supporting member 20, the inner sleeve 45 is further used for being slidably connected with the sliding groove 142, the outer sleeve 42 is sleeved outside the inner sleeve 45, and the outer sleeve 42 is used for locking the relative position of the supporting member 20 and the base 10 when the supporting member 20 is in the supporting state. By arranging the inner sleeve 45, the supporting part 20 can be better protected, and the service life of the supporting part 20 is prolonged; the outer sleeve 42 can better fix the supporting member 20 and the base 10, and improve the supporting stability of the supporting member 20, thereby improving the service life and the supporting stability of the supporting base 100.

It will be appreciated that in some embodiments, as shown in fig. 6, the outer surface of the inner sleeve 45 may have a first thread structure (specifically, the thread structure of the outer surface of the connecting member 40 shown in fig. 6), the inner surface of the outer sleeve 42 may have a second thread structure (specifically, the thread structure of the inner surface of the locking sleeve 50 shown in fig. 5) which is engaged with the first thread structure, the outer sleeve 42 may be configured to rotate relative to the inner sleeve 45 via the first and second thread structures so as to abut against or disengage from the base 10, the outer sleeve 42 may lock the relative positions of the support member 20 and the base 10 when abutting against the base 10, and the outer sleeve 42 may be configured to rotate around the base 10 when disengaging from the base 10. It can be understood that the thread structure is a common rotating structure, has a good practical effect, is high in use stability, and can reduce the production cost. However, in the present embodiment, the outer sleeve 42 includes a first locking portion 421 disposed far from the outer surface of the inner sleeve 45, the base 10 includes a second locking portion 17 disposed corresponding to the first locking portion 421, and the first locking portion 421 is used for locking the relative position of the support 20 and the base 10 by snap or slide fit with the second locking portion 17. By the cooperative locking of the first locking portion 421 and the second locking portion 17, the supporting stability of the supporting mechanism can be improved, thereby improving the supporting stability of the supporting base 100.

Specifically, in this embodiment, one of the first locking portion 421 and the second locking portion 17 may be a slider, and the other of the first locking portion 421 and the second locking portion 17 is a sliding groove engaged with the slider. In detail, in the present embodiment, the first locking portion 421 is a slider, and the second locking portion 17 is a chute; it is understood that in other embodiments, the first locking portion 421 can be a sliding slot and the second locking portion 17 can be a sliding block. It can be understood that the sliding fit locking structure is a common locking structure, the stability of the locking effect is high, the cost is low, the production cost can be effectively reduced, and the supporting stability of the supporting base 100 is improved.

Further, the inner sleeve 45 includes a first sleeve main body 411, the connecting member 40 further includes an elastic element 43 and a position-limiting sleeve 44 connected to one end of the first sleeve main body 411, the position-limiting sleeve 44 is located at one end of the first sleeve main body 411 away from the base 10 when the supporting mechanism is in the supporting state, the outer sleeve 42 includes a second sleeve main body 422 and a first position-limiting end 423 connected to one end of the second sleeve main body 422, the elastic element 43 is sandwiched between the position-limiting sleeve 44 and the first position-limiting end 423, and the elastic element 43 is configured to drive the outer sleeve 42 to move towards one side of the base 10 through the first position-limiting end 423, so that the first locking portion 421 slides into the second locking portion 17 to be locked with the second locking portion 17. In detail, the elastic member 43 may be a spring, but is not limited thereto. It can be understood that the elastic element 43 can better drive the outer sleeve 42 to be fixed with the base 10 through self elasticity, so that the operation is more convenient and labor-saving, the user experience feeling is improved, the abrasion degree of each component structure is reduced, and the service life of the product is prolonged.

Further, the first sleeve main body 411 further includes a first buckling portion 4510, the position limiting sleeve 44 includes a second buckling portion 441 matched with the first buckling portion 4510, and the first buckling portion 4510 is buckled and matched with the second buckling portion 441, so that the position limiting sleeve 44 is connected with the first sleeve main body 411. The first fastening portion 4510 is fastened with the second fastening portion 441 to fix the position limiting sleeve 44 and the first sleeve main body 411 well, so as to improve the stability of the connecting member 40 and further improve the supporting stability of the supporting base 100.

Further, the position-limiting sleeve 44 further includes a side wall structure 442 and a second position-limiting end 4421 disposed on a side of the side wall structure 442 away from the first sleeve main body 411, where the second position-limiting end 4421 is used for abutting and limiting one end of the outer sleeve 42 away from the base 10 when the supporting mechanism is in the supporting state. It will be appreciated that the second position-limiting end 4421 can better limit the position of the outer sleeve 42, and prevent the outer sleeve 42 from moving to a larger position, thereby affecting the fixing effect of the outer sleeve 42 and the base 10, and further affecting the stability of the connecting member 40.

Referring to fig. 11, fig. 11 is a partial structural view of the connecting member 40 shown in fig. 10. The outer sleeve 42 further includes a first limiting member 424 located on the inner surface, the limiting sleeve 44 further includes a second limiting member 443 located on the outer surface and cooperating with the first limiting member 424, the first limiting member 424 and the second limiting member 443 are slidably engaged; one of the first limiting member 424 and the second limiting member 443 is a sliding slot, and the other one of the first limiting member 424 and the second limiting member 443 is a strip-shaped protrusion. Specifically, in the present embodiment, the first limiting member 424 is a sliding slot, and the second limiting member 443 is a strip-shaped protrusion; it is understood that in other embodiments, the first limiting member 424 is a protrusion with a bar shape, and the second limiting member 443 is a sliding slot. In detail, in the present embodiment, there are two first limiting members 424 and two second limiting members 443; it is understood that, in other embodiments, the number of the first limiting members 424 and the second limiting members 443 corresponding to each other may be one or more. It can be understood that, by the sliding fit between the first retaining member 424 and the second retaining member 443, the outer sleeve 42 and the retaining sleeve 44 can be further fixed, and the relative rotation between the outer sleeve 42 and the retaining sleeve 44 is reduced, so as to improve the stability of the connecting member 40, and further better ensure the supporting stability of the supporting mechanism.

Further, in some embodiments, the receiving portion 60 includes a catch 141 disposed on the bottom plate 14, and the inner sleeve 45 further includes a first catch end 4511 connected to the first sleeve body 411, and the first catch end 4511 is received in the catch 141 when the support member 20 is in the supporting state. The connecting member 20 can be better fixed and supported by the engagement of the engaging groove 141 and the first engaging end 4511, so that the supporting stability of the supporting base 100 is improved.

Third embodiment

Parts of the supporting base 100 shown in the third embodiment of the present application that have the same structure as the supporting base 100 shown in the first two embodiments are not repeated, and different structural parts are mainly described below.

Referring to fig. 12, fig. 12 is a schematic cross-sectional view of a supporting base of the third embodiment of the present application in a supporting state. In this embodiment, the connecting member 40 includes a sleeve 46, a rotating end 47 and an elastic element 43 located between the sleeve 46 and the rotating end 47, the sleeve 46 is rotatably connected to the base 10, the sleeve 46 is sleeved outside the supporting member 20 and enables the supporting member 20 to slide relative to the sleeve 46, the rotating end 47 is disposed at an end of the supporting member 20 away from the object, the base 10 includes a bottom plate 14, the receiving portion 60 is located at a side of the bottom plate 14 adjacent to the supporting member 20, when the supporting member 20 is in the supporting state, the rotating end 47 is located between the sleeve 46 and the bottom plate 14, and the elastic element 43 is compressed to press the sleeve 46 and the rotating end 47, so that a side of the rotating end 47 away from the supporting member 20 is pressed against the bottom plate 14; when the supporting mechanism rotates relative to the base 10 so that the extending direction of the supporting member 20 is the same as the extending direction of the receiving portion 60, the elastic element 43 can release the elastic force to drive the rotating end 47 to drive the supporting member 20 to slide into the receiving portion 60. By utilizing the elasticity of the elastic member 43, the supporting member 20 can be well compressed into the accommodating portion 60, so that the external force used by the user is reduced, and the experience of the user is improved; meanwhile, when the supporting member 20 is in the supporting state, the supporting member 20 can be better supported by the elasticity of the elastic member 43, so that the stability of the supporting base 100 is improved.

Referring to fig. 13 and 14, fig. 13 is a partial structural view of a supporting base 100 according to a third embodiment of the present application; fig. 14 is an exploded view of the support chassis 100 of fig. 13. The sheath 46 is rotatably connected to the base 10, the base 10 further includes two extending portions 18 connected to one side of the bottom plate 14 adjacent to the supporting member 20, the two extending portions 18 are adjacent to the opening 11 and are oppositely disposed, and two ends of the sheath 46 are rotatably connected to the two extending portions 18 respectively. Specifically, the sleeve body 46 has two first pivot portions, the extension portion 18 has a second pivot portion corresponding to the first pivot portion, and the sleeve body 46 and the extension portion 18 can be rotatably connected by the cooperation of the first pivot portion and the second pivot portion, wherein the rotatable connection can be realized by a pivot shaft arranged outside the sleeve body 46 extending into a pivot hole of the extension portion 18, or the rotatable connection can be realized by another pivot shaft penetrating through the sleeve body 46 and the extension portion 18; the elastic element 43 may be a spring sleeved on the periphery of the supporting member 20, but is not limited to the above; the sheath 46 includes a base portion 461 with an opening and a side wall portion 462 connected to an edge of the base portion 461 and disposed annularly, the spring is located between the base portion 461 and the rotating end 47, and an end of the spring adjacent to the base portion 461 can be located in a receiving space surrounded by the base portion 461 and the side wall portion 462, and in addition, when the supporting base 100 is in a supporting state, the spring can be substantially completely received in the receiving space surrounded by the base portion 461 and the side wall portion 462, at this time, the sheath can contact with the rotating end 47, so that the elastic element 43 is completely hidden. It will be appreciated that by providing two extensions 18, the sheath 46 can be better secured, thereby improving the support stability of the support member 20 and thus the support base 100. By accommodating the elastic element 43 in the base plate 461 and the side wall 462, the spring can be hidden, and the appearance of the supporting base 100 is more beautiful. However, in some variations, when the supporting base 100 is in the supporting state, the elastic element 43 may also be exposed outside the sheath 46, and at this time, the outer surface of the elastic element 43 may be plated with a metal coating or a resin coating for protection and appearance.

Further, the rotating end 47 includes a rotating body 470 and a second latching end 471 arranged at a side of the rotating body 470 away from the supporting member 20, the receiving portion 60 includes a latching groove 141 arranged on the bottom plate 14, and when the supporting member 20 is in the supporting state, the second latching end 471 is received in the latching groove 141. It can be understood that, by the mutual snap-fit between the catching groove 141 and the second catching end 471, the rotating end 47 is better fixed to the base 10, so as to improve the supporting stability of the supporting member 20, and thus the stability of the supporting base 100.

Fourth embodiment

Parts of the supporting base 100 shown in the fourth embodiment of the present application that have the same structure as the supporting base 100 shown in the first two embodiments are not repeated, and different structural parts are mainly described below.

Referring to fig. 15-16, fig. 15 is a cross-sectional view of a supporting base 100 of a fourth embodiment of the present application in a supporting state; fig. 16 is a partial perspective view of a support base 100 according to a fourth embodiment of the present application. In this embodiment, the sheath 46 is slidably connected to the base 10, the base 10 further includes a first extending portion 19a connected to a side of the bottom plate 14 adjacent to the support 20, the two first extending portions 19a are disposed opposite to each other, the receiving portion 60 is located between the two first extending portions 19a, the first extending portion 19a includes a first portion 19b adjacent to the opening 11, a second portion 19c connected to the first portion 19b, and a third portion 19d located at an end of the first portion 19b away from the second portion 19c, the second portion 19c and the third portion 19d are higher than the first portion 19b such that the second portion 19c, the first portion 19b, and the third portion 19d enclose a first gap portion, the sheath 46 includes a main body 460 sleeved on an outer periphery of the support 20 and an extending shaft 463 connected to two sides of the main body 460, the extension shaft 463 is slidably coupled to the first notch portion, and the extension shaft 463 is rotatable with respect to the third portion 19 d; when the support base 100 is in the support state, the extension shaft 463 abuts against the third portion 19 d; when the supporting mechanism rotates relative to the base 10 and the extending shaft 463 rotates relative to the third portion 19d, such that the extending direction of the supporting member 20 is the same as the extending direction of the receiving portion 60, the elastic element 43 can release the elastic force to drive the rotating end 47 to drive the supporting member 20 to slide into the receiving portion 60, the extending shaft 463 can slide along the first notch portion such that the sheath 46 slides into the receiving portion 60, and the extending shaft 463 can abut against the second portion 19 c. In detail, the structure of the first portion 19b connected to the second portion 19c and the third portion 19d may be provided with a certain curvature, so that the extension shaft 463 may better slide along the first notch portion; it will be appreciated that the structure of the first portion 19b connecting to the second portion 19c and the third portion 19d, respectively, may also be other angled structural shapes. Through the symmetrical arrangement of the first extension parts 19a, the support part 20 slides more quickly and smoothly when extending out or being accommodated in the accommodating part 60; through the structural design of the first notch part, the abrasion between the sleeve body 46 and the base 10 can be better reduced, and the service life of a product is prolonged; in addition, through the structural design of the sleeve body 46, the components inside the sleeve body 46 are better protected, and meanwhile, the appearance of the product is more attractive.

Specifically, the bottom plate 14 may further include a strip-shaped protrusion 142, the bottom of the rotating end 47 is provided with a slot 472, and the protrusion 472 and the slot 142 may be matched with each other and fastened together. It is understood that in other embodiments, as in the third embodiment, a locking groove 141 may be disposed on the bottom plate 14, a protrusion 471 is disposed at the bottom of the rotating end 47, and the protrusion 471 and the locking groove 141 may be mutually matched and fastened. When the supporting member 20 is in the supporting state, the bottom of the connecting member 40 (i.e., the protrusion 471) abuts against the inside of the engaging groove 141.

Referring to fig. 17, fig. 17 is a schematic diagram of a cover plate 15 of a base 10 for supporting a base 100 according to a fourth embodiment of the present application. The base 10 further comprises a cover plate 15 and a second extension part 19e connecting one side of the cover plate 15 adjacent to the bottom plate 14; the cover plate 15 may be disposed opposite to the base plate 14, and the receiving portion 60 is located between the cover plate 15 and the base plate 14 and adjacent to one side of the support 20; the two second extending portions 19e are oppositely disposed, the receiving portion 60 is located between the two second extending portions 19e, the second extending portions 19e include a fourth portion 19f adjacent to the opening 11, a fifth portion 19g connected to the fourth portion 19f, and a sixth portion 19h located at an end of the fourth portion 19f away from the fifth portion 19g, the fifth portion 19e and the sixth portion 19h have a height greater than that of the fourth portion 19f, so that the fifth portion 19g, the fourth portion 19f, and the sixth portion 19h enclose a second notch portion, the second notch portion is disposed opposite to the first notch portion, the extending shaft 463 is also slidably connected to the second notch portion, and the extending shaft 463 can rotate relative to the sixth portion 19 h; when the support base 100 is in the support state, the extension shaft 463 also abuts against the sixth portion 19 h; when the supporting mechanism rotates relative to the base 10 and the extending shaft 463 rotates relative to the sixth portion 19h, such that the extending direction of the supporting member 20 is the same as the extending direction of the receiving portion 60, the elastic element 43 can release the elastic force to drive the rotating end 47 to drive the supporting member 20 to slide into the receiving portion 60, the extending shaft 463 can slide along the second notch portion such that the sheath 46 slides into the receiving portion 60, and the extending shaft 463 can abut against the fifth portion 19 g. In detail, the connection structure of the fourth portion 19f and the fifth portion 19g and the sixth portion 19h can be arranged with a certain curvature, so that the extension shaft 463 can better slide along the second notch portion; it will be appreciated that the structure of the fourth portion 19f connecting to the fifth portion 19g and the sixth portion 19h, respectively, may also be other angled structural shapes. By arranging the second extending portion 19e corresponding to the first extending portion 19a on the cover plate 15 of the base 10, the internal structures such as the sleeve body 46 can be better protected, the supporting member 20 can be ensured to slide more quickly and stably when extending out of or being accommodated in the accommodating portion 60, and the experience of a user is improved.

To sum up, in the second to fourth embodiments, the base 10 includes a first fastening portion (e.g., 141, 142), one side of the connecting member 40 away from the supporting member 20 includes a second fastening portion (e.g., 4511, 471, 472), one of the first fastening portion and the second fastening portion is a fastening slot (e.g., 141, 472), the other one of the first fastening portion and the second fastening portion is a protrusion (e.g., 4511, 471, 142) that can be received and fastened in the fastening slot (e.g., 141, 472), and when the supporting member 20 is in the supporting state, the first fastening portion is fastened with the second fastening portion, so that the supporting mechanism can stably support the object.

Referring to fig. 1 to 17, the present embodiment also provides a support base 100 for supporting an article. The support base 100 includes: the telescopic rod comprises a base 10, a telescopic rod and a connecting sleeve, wherein a sliding chute is arranged in the base 10, an opening 11 is formed in the side face of the base 10, the opening 11 is communicated with the sliding chute, and a gap 12 is formed in the joint of the opening 11 and one surface of the base 10; the top end of the telescopic rod is connected with a hinge 30, and the hinge 30 is used for hinging the object; one end of the connecting sleeve is sleeved on the telescopic rod, the other end of the connecting sleeve extends towards two sides to form a sliding portion 41, the sliding portion 41 is connected to the sliding groove in a sliding mode, the connecting sleeve can be switched between a storage state where the connecting sleeve is stored in the sliding groove and an extending state where at least part of the connecting sleeve extends out of the sliding groove, and the peripheral surface of the sliding portion 41 is partially or completely an arc surface.

Through the embodiment, the chute is arranged in the base 10, the sliding portion 41 of the connecting sleeve is slidably connected to the chute, when supporting, the connecting sleeve can extend out of the chute and rotate relative to the base 10 to abut against the notch 12 arranged on the base 10, and the telescopic rod sleeved on the connecting sleeve can support an object; when the connecting sleeve is stored, the connecting sleeve can retract into the sliding groove to be stored in the base 10.

Referring to fig. 18a to fig. 20, an embodiment of the present application further provides an electronic device, which includes: the supporting base 100 is the supporting base 100 according to any one of the above embodiments, and the apparatus main body is hinged to the supporting mechanism so that the apparatus main body can be accommodated on the base 10. The electronic device is a small-sized electric device, such as a fan, a desk lamp, a sound box, a cosmetic mirror capable of lighting or supplementing light, a mobile phone or a tablet support capable of lighting or supplementing light, a reading support and the like.

In an embodiment, referring to fig. 18a, 18b and 19, the electronic device may be a fan, the fan includes a fan main body 200 and a supporting base 100, the fan main body 200 is hinged to the supporting mechanism, and when the supporting mechanism is received in the base 10, the fan main body 200 may be overlapped on the upper surface or the lower surface of the base 10. Specifically, the fan main body 200 may independently exhaust air, and the fan main body 200 may be a turbofan or may be a bladeless fan, which is not limited herein. The fan main body 200 is hinged to the hinge 30, so that the fan main body 200 can rotate relative to the base 10 when the supporting mechanism is received in the receiving portion 60, and thus the fan main body is folded on the base 10, and is integrated with the base 10, so that the fan main body is more convenient to receive, neat and beautiful in appearance and convenient to carry. And the fan main body 200 is hinged with the hinge 30, and can rotate to adjust the air outlet direction, so that the flexibility is high. As shown in fig. 15a and 15b, the notches 12 in the present embodiment are provided on the upper and lower surfaces of the base 10 and are communicated with the openings 11, so that the fan body 200 can be stacked on the upper or lower surface of the base 10 when stacked on the base 10.

In an embodiment, referring to fig. 20 to 22, the electronic device may also be a self-timer device, such as a self-timer stand which can hold a mobile phone, a tablet pc, a camera, and the like for live broadcasting or shooting, specifically, the self-timer device includes a clamp main body 300 and a support base 100, the support base 100 may adopt the support base 100 according to any of the above embodiments, the clamp main body 300 is hinged to the support mechanism, and when the support mechanism of the support base 100 is received in the base 10, the clamp main body 300 may be stacked on an upper surface or a lower surface of the base 10. Specifically, the clamp body 300 is provided with a clamping portion 301, the clamping portion 301 is used for clamping a mobile phone or other electronic equipment, the base 10 is further provided with a groove 13 or 152 for accommodating the clamping portion 301, and when the clamp body 300 is accommodated on the base 10, the clamping portion 301 is accommodated in the groove 13 or 152. The anchor clamps main part 300 still is provided with the buckling parts, anchor clamps main part 300 passes through the buckling parts with the articulated elements 30 is articulated, from this, anchor clamps main part 300 is in supporting mechanism accomodate in during the portion 60 of accomodating, can be relative base 10 rotates, thereby folding be in on the base 10, with base 10 is integrative, it is more convenient to accomodate, and the appearance is neat and artistic, convenient to carry, just buckling parts 302 is in when anchor clamps main part 300 rotates to accomodate in on the base 10, buckling parts 302 lock is in breach 12 of base 10, from this, through buckling parts 302 lock is in breach 12 can seal breach 12 prevents the dust and gets into, improves the leakproofness. In this embodiment, a first surface of the clamp body 300 and a second surface opposite to the first surface are both provided with a light supplement lamp 303, and the light supplement lamp 303 is used for supplementing light when the mobile phone starts a self-timer.

In other embodiments, the electronic device may also be a live broadcast device, a cradle head, a sound device, a projection device, and the like, the type of the electronic device is multiple, which is not repeated herein, and the electronic device, whichever type of the electronic device, is suitable for the supporting base 100 of this embodiment, all falls into the protection scope of this application.

According to the electronic equipment provided by the embodiment of the application, the accommodating part 60 is arranged in the base 10, the supporting mechanism is movably connected to the accommodating part 60, when the supporting mechanism is supported, the supporting mechanism can extend out of the accommodating part 60 to support the equipment main body, when the supporting mechanism is accommodated, the supporting mechanism can retract into the accommodating part 60 to be accommodated in the base 10, therefore, when the supporting structure is accommodated, the accommodating part 60 is arranged in the base 10, dust cannot enter, and the problem of dust accumulation is solved.

It should be understood that the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same, and those skilled in the art may modify the technical solutions described in the above embodiments or substitute some technical features thereof; and all such modifications and alterations should fall within the scope of the claims appended hereto.

Claims (20)

1. A support base for supporting an article, comprising:

the base is provided with a containing part, an opening is formed in the side face of the base, and the opening is communicated with the containing part;

a support mechanism slidably connected to the receiving portion; the supporting mechanism can slide along the containing part, so that at least part of the supporting mechanism can protrude out of the base from the opening to support the object, and at least part of the supporting mechanism can retract into the containing part from the opening to be contained in the base.

2. The support base of claim 1, wherein the support mechanism includes a support member and a connecting member, a top end of the support member is used for supporting the object, the support member is connected to the connecting member, and the connecting member is capable of rotating relative to the base when the support member protrudes from the opening, so as to drive the support member to rotate relative to the base, so that the support member is in a support state.

3. The support pedestal of claim 2, wherein a notch is provided at an edge of the upper surface and/or the lower surface of the pedestal, and the notch is communicated with the opening; the connecting piece can rotate to abut against the notch after extending out of the opening.

4. The support base of claim 3, wherein the support mechanism further comprises a locking sleeve, the locking sleeve is sleeved on the connecting piece, and when the connecting piece abuts against the notch, the locking sleeve can move towards the base until the locking sleeve abuts against the base.

5. The support base of claim 4, wherein the support mechanism further comprises a limiting ring, the limiting ring is sleeved on the connecting member and is close to one end of the supporting member, and the locking sleeve can move away from the base until the locking sleeve abuts against the limiting ring.

6. The support base of any one of claims 3 to 5, wherein the connecting member is a connecting sleeve, one end of the connecting sleeve is sleeved outside the support member, and the other end of the connecting sleeve extends radially to form a sliding portion; the accommodating part is a sliding groove, the sliding part is connected to the sliding groove in a sliding mode, the peripheral surface of the sliding part is partially or completely an arc surface, and the sliding part can rotate relative to the base when sliding to the opening so that the connecting sleeve abuts against the notch.

7. The support base of claim 2, wherein the base comprises a bottom plate, a cover plate disposed opposite to the bottom plate, and a side plate connected between the bottom plate and the cover plate, the receiving portion is located between the bottom plate and the cover plate, and the opening is located on the side plate; the accommodating part comprises a sliding groove located between the bottom plate and the cover plate, and the supporting mechanism is connected to the sliding groove in a sliding mode.

8. The support base of claim 2, wherein the connecting member includes an inner sleeve and an outer sleeve, the inner sleeve is configured to be sleeved outside the support member and slidably receive the support member, the inner sleeve is further configured to be slidably connected to the receiving portion, the outer sleeve is configured to be sleeved outside the inner sleeve, and the outer sleeve is configured to lock a relative position between the support member and the base when the support member is in the support state.

9. The support pedestal of claim 8, wherein an outer surface of the inner sleeve has a first threaded formation and an inner surface of the outer sleeve has a second threaded formation that cooperates with the first threaded formation, the outer sleeve being adapted to rotate relative to the inner sleeve to engage or disengage the pedestal via the first and second threaded formations, the outer sleeve being adapted to lock the relative position of the support and the pedestal when abutting the pedestal and the outer sleeve being adapted to allow the support mechanism to rotate about the pedestal when disengaging the pedestal.

10. The support base of claim 8, wherein the outer sleeve includes a first locking portion disposed away from an outer surface of the inner sleeve, and the base includes a second locking portion disposed in correspondence with the first locking portion for snap or slide fit locking the relative position of the support and the base with the second locking portion.

11. The support base of claim 10, wherein the inner sleeve includes a first sleeve body, the connector further includes a resilient element and a stop collar connected to an end of the first sleeve body, the stop collar being located at an end of the first sleeve body away from the base when the support mechanism is in the support state, the outer sleeve includes a second sleeve body and a first stop end connected to an end of the second sleeve body, the resilient element being sandwiched between the stop collar and the first stop end, the resilient element being configured to drive the outer sleeve toward a side of the base by the first stop end such that the first locking portion slides into the second locking portion to lock with the second locking portion.

12. The support base of claim 11, wherein the retaining sleeve further comprises a sidewall structure and a second retaining end disposed on a side of the sidewall structure away from the first sleeve body, the second retaining end being configured to abut against an end of the outer sleeve away from the base when the support mechanism is in the supporting state; the outer sleeve further comprises a first limiting piece positioned on the inner surface, the limiting sleeve further comprises a second limiting piece positioned on the outer surface and matched with the first limiting piece, and the first limiting piece is in sliding fit with the second limiting piece; one of the first limiting part and the second limiting part is a sliding groove, and the other one of the first limiting part and the second limiting part is a strip-shaped protrusion.

13. The support base of claim 2, wherein the connecting member includes a sleeve body, a rotating end and an elastic element located between the sleeve body and the rotating end, the sleeve body is rotatably or slidably connected to the base, the sleeve body is sleeved outside the supporting member and enables the supporting member to slide relative to the sleeve body, the rotating end is disposed at an end of the supporting member away from the object, the base includes a bottom plate, the receiving portion is located at a side of the bottom plate adjacent to the supporting member, when the supporting member is in the supporting state, the rotating end is located between the sleeve body and the bottom plate, and the elastic element is compressed to press the sleeve body and the rotating end, so that a side of the rotating end away from the supporting member abuts against the bottom plate; when the supporting mechanism rotates relative to the base so that the extending direction of the supporting piece is the same as the extending direction of the accommodating part, the elastic element can release elastic force to drive the rotating end to drive the supporting piece to slide into the accommodating part.

14. The support base of claim 13, wherein the sheath is slidably coupled to the base, the base further comprises a first extension portion coupled to a side of the base plate adjacent to the support, the two first extension portions are disposed opposite to each other, the receiving portion is disposed between the two first extension portions, the extension portion comprises a first portion adjacent to the opening, a second portion coupled to the first portion, and a third portion disposed at an end of the first portion away from the second portion, the second portion and the third portion are higher than the first portion such that the second portion, the first portion, and the third portion define a first gap portion, the sheath comprises a main body disposed around the support and extension shafts coupled to two sides of the main body, the extension shafts are slidably coupled to the first gap portion, and the extension shaft is rotatable relative to the third portion,

when the support base is in the support state, the extension shaft abuts against the third portion,

when the supporting mechanism rotates relative to the base and the extending shaft rotates relative to the third portion, so that the extending direction of the supporting piece is the same as the extending direction of the accommodating portion, the elastic element can release elastic force to drive the rotating end to drive the supporting piece to slide into the accommodating portion, the extending shaft can slide along the first notch portion, so that the sleeve body slides into the accommodating portion, and the extending shaft can abut against the second portion.

15. The support base of claim 13, wherein the elastic element is a spring sleeved on the periphery of the support member; the sleeve body comprises a substrate portion with an opening and a side wall portion which is connected to the edge of the substrate portion and is annularly arranged, the spring is located between the substrate portion and the rotating end, and one end position of the spring, which is adjacent to the substrate portion, and a containing space which is enclosed by the substrate portion and the side wall portion.

16. The support pedestal of claim 2, further comprising a first fastening portion, wherein a side of the connecting member away from the support member comprises a second fastening portion, one of the first fastening portion and the second fastening portion is a slot, the other of the first fastening portion and the second fastening portion is a protrusion capable of being received and fastened in the slot, and when the support member is in the support state, the first fastening portion is fastened in the second fastening portion.

17. An electronic device, comprising: a device body and a support base as claimed in any one of claims 1 to 16, the device body being hingedly connected to the support mechanism, the device body being stackable on an upper or lower surface of the base when the support mechanism is received in the base.

18. A self-timer device, comprising: a clamp body and a support base as claimed in any one of claims 1 to 16, the clamp body being hingedly connected to the support mechanism, the clamp body being stackable on an upper or lower surface of the base when the support mechanism is received in the base.

19. The self-timer apparatus of claim 18, wherein the clamp body has a clamping portion, and the base has a groove on an upper surface or a lower surface thereof, and the clamp body is stacked on the upper surface or the lower surface of the base such that at least a portion of the clamping portion is received in the groove.

20. The self-timer apparatus according to claim 18, wherein the clamp body is hinged to the supporting mechanism by a snap portion, and when the clamp body is superposed on the upper surface or the lower surface of the base, the snap portion is snapped on the opening to close the opening.

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