CN213629534U - Supporting structure, shooting supporting device, fan and lamps and lanterns of scalable buckling - Google Patents

Abstract

The utility model provides a scalable bearing structure who buckles, shooting strutting arrangement, fan and lamps and lanterns. The supporting structure comprises a telescopic sleeve assembly and an electric connection structure, the telescopic sleeve assembly comprises a first sleeve, a second sleeve and a first bending connection assembly, the first bending connecting component comprises a first pivot component and a second pivot component, the electric connecting structure sequentially penetrates through the second sleeve, the second pivot component, the first pivot component and the first sleeve, so that elements at two ends of the sleeve component can be electrically connected, wherein the support structure capable of being bent and stretched comprises a support state, a bending state and a contraction state, therefore, shooting equipment, a fan, a lamp and the like which are used for supporting can be adjusted to be positioned at different heights, angles, positions and the like by adjusting the supporting structure, elements at two ends of the supporting structure can be electrically connected through the electric connection structure, and user experience is improved.

Description

Supporting structure, shooting supporting device, fan and lamps and lanterns of scalable buckling

Technical Field

The utility model relates to a bearing structure technical field especially relates to a scalable bearing structure of buckling, has scalable bearing structure's of buckling shooting strutting arrangement, fan and lamps and lanterns.

Background

Some existing supporting structures, such as a supporting structure for a photographing supporting device or a supporting structure for supporting small-sized electric devices such as fans and lamps, generally have a telescopic function so as to meet different supporting height requirements or facilitate storage and carrying.

However, as various devices and apparatuses having a support structure are commonly used, users have made more demands on the support structure to adapt to different application environments.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a but telescopic bending's bearing structure, have but telescopic bending's bearing structure's shooting strutting arrangement, fan and lamps and lanterns.

The utility model provides an embodiment provides a scalable bearing structure of buckling, bearing structure includes scalable connected sleeve pipe assembly, sleeve pipe assembly includes first sleeve pipe, second sleeve pipe and first buckle coupling assembling, first buckle coupling assembling includes first pivot joint spare and second pivot joint spare, first pivot joint spare includes first pivot joint portion and connects the first connecting portion of first pivot joint portion, first connecting portion are used for connecting the one end of first sleeve pipe; the second pin joint component comprises a second pin joint part and a second connecting part connected with the second pin joint part, the second connecting part is used for connecting the second sleeve, the second pin joint part is used for pin joint with the first pin joint part, the supporting structure also comprises an electric connection structure, the electric connection structure sequentially penetrates through the inside of the second sleeve, the inside of the second pin joint component, the inside of the first pin joint component and the inside of the first sleeve, so that elements at two ends of the sleeve component can be electrically connected,

wherein the support structure capable of being bent and stretched comprises a support state, a bending state and a contraction state,

in the contracted state, the first sleeve, the first pivot part and the second pivot part are accommodated in the second sleeve,

in the supporting state, the extension directions of the first sleeve and the second sleeve are the same, and at least part of the first sleeve extends out of the second sleeve,

the bending state, first sleeve pipe first pin joint portion reaches in the second pin joint portion at least first sleeve pipe stretches out the second sleeve pipe, just first pin joint portion with second pin joint portion is and predetermines angle bending connection, and then first sleeve pipe with the second sleeve pipe passes through first bending connection subassembly bending connection.

In one embodiment, in the supporting state, a part of the first sleeve extends out of the second sleeve, and the other part of the first sleeve, the first pivot portion and the second pivot portion are all accommodated in the second sleeve; alternatively, the first and second electrodes may be,

in the supporting state, the first sleeve and the first pivoting part extend out of the second sleeve; alternatively, the first and second electrodes may be,

in the supporting state, the first sleeve, the first pivot portion and the second pivot portion all extend out of the second sleeve.

In one embodiment, the first buckling connection assembly further includes an auxiliary sleeve, the auxiliary sleeve is connected to the second connection portion, and the auxiliary sleeve is connected to the second sleeve such that the second connection portion is connected to the second sleeve, and in the contracted state, the auxiliary sleeve is also received in the second sleeve.

In one embodiment, the first connecting portion is received in one end of the first sleeve; the second connecting part is accommodated in the second sleeve; in the bent state, the first sleeve, the first pivot portion and the second pivot portion all extend out of the second sleeve.

In one embodiment, the first pivot portion and the second pivot portion each include a pivot hole, and the first bending connection assembly further includes a first pivot member pivotally connecting the first pivot portion and the second pivot portion through the pivot hole of the first pivot portion and the pivot hole of the second pivot portion.

In one embodiment, the first pivot member includes a first cap portion and a first shaft portion connected to the first cap portion, the first shaft portion passes through the pivot hole of the first pivot portion and the pivot hole of the second pivot portion, and the bending connection assembly further includes a first locking member fixed to an end of the first shaft portion away from the first cap portion, such that the first locking member and the first cap portion sandwich the first pivot portion and the second pivot portion therebetween.

In one embodiment, one of the first pivot portion and the second pivot portion includes a first base and a second base opposite to the first base, each base is provided with one pivot hole, at least a portion of the other of the first pivot portion and the second pivot portion is located between the two bases, and the first pivot member passes through the pivot hole of the first base, the pivot hole of the other of the first pivot portion and the second pivot portion, and penetrates into the pivot hole of the second base to pivot the first pivot portion and the second pivot portion.

In an embodiment, the first bending connection assembly further includes two first pads having first through holes and two second pads having second through holes, two sides of the other of the first pivot portion and the second pivot portion are respectively provided with a groove, the first pads and the second pads are respectively located in the grooves on the two sides, and the first pivot member passes through the pivot hole of the first base, the first through hole, the pivot hole of the other of the first pivot portion and the second pivot portion, and the second through hole and penetrates into the pivot hole of the second base to pivot the first pivot portion and the second pivot portion.

In one embodiment, a side of the second base body, which is away from the first base body, is provided with a first accommodating groove communicated with the pivot hole of the second base body, and at least a part of the first locking member is located in the first accommodating groove.

In one embodiment, the first pivot portion includes a body and a limiting portion connected between the body and the first connecting portion, the body is pivoted to the second pivot portion, the limiting portion and the first connecting portion form a step portion, the first sleeve accommodates the first connecting portion, and an end surface of the first sleeve abuts against the limiting portion.

In one embodiment, the first buckling connection assembly further comprises at least one positioning element sandwiched between the second connection portion and the inner wall of the second sleeve; the at least one positioning piece is arc-shaped; the positioning piece comprises a first positioning piece and a second positioning piece arranged opposite to the first positioning piece; one of the first positioning piece and the second positioning piece is a plastic positioning piece, and the other one of the first positioning piece and the second positioning piece is a metal positioning piece; the first bending connection assembly further comprises a limiting sleeve arranged at one end, close to the first sleeve, of the second sleeve, and the limiting sleeve is sleeved on the periphery of the second connection portion and used for preventing the second connection portion from being separated from the second sleeve.

In one embodiment, the sleeve assembly further comprises a first connection sleeve telescopically slidably connected to an end of the first sleeve remote from the second sleeve, and the first connection sleeve is slidably extended out of or received in the first sleeve; the sleeve assembly further comprises a second connecting sleeve, the second connecting sleeve is telescopically and slidably connected to one end, far away from the first sleeve, of the second sleeve, and the second sleeve can slidably extend out or be accommodated in the second connecting sleeve.

In one embodiment, the electrical connection structure includes a wire, the first pivot includes a first through hole penetrating through the first connection portion and/or the first pivot, the second pivot includes a second through hole penetrating through the second connection portion and/or the second pivot, and the wire sequentially passes through the second sleeve, the second through hole, the first through hole, and the first sleeve.

In one embodiment, at least one of the first pivot member and the second pivot member is further fixed to the electrical connection structure by a glue.

In one embodiment, the electrical connection structure includes a first portion of conductive wires, a second portion of conductive wires, a first electrical connection portion and a second electrical connection portion, the first electrical connection portion is disposed on the first pivot portion or the first connection portion, the second electrical connection portion is disposed on the second pivot portion or the second connection portion, the first electrical connection portion contacts the second electrical connection portion, one end of the first portion of conductive wires is electrically connected to the first electrical connection portion, the other end of the first portion of conductive wires extends into the first sleeve, one end of the second portion of conductive wires is electrically connected to the second electrical connection portion, the other end of the second portion of conductive wires extends into the second sleeve, and when the first pivot portion rotates relative to the second pivot portion, the first electrical connection portion rotates relative to the second electrical connection portion and keeps electrical contact with the second electrical connection portion.

In one embodiment, the first portion of the conductive wires and the second portion of the conductive wires are in a spring shape and sequentially pass through the second sleeve, the second through hole, the first through hole and the first sleeve.

In one embodiment, one of the first electrical connection portion and the second electrical connection portion is an electrical connection column, the other one of the first electrical connection portion and the second electrical connection portion is an electrical connection sheet, the electrical connection column includes an end surface adjacent to one side of the electrical connection sheet, the electrical connection sheet includes an outer side surface, the end surface of the electrical connection column contacts with the outer side surface of the electrical connection sheet, and when the first pivot portion rotates relative to the second pivot portion, the end surface of the electrical connection column slides along the outer side surface of the electrical connection sheet.

In one embodiment, the outer side surface of the electrical connection sheet is arc-shaped, and can be electrically connected with the end surface of the electrical connection column when the first bending connection assembly is bent.

In one embodiment, the electric connection column is arranged on the first connection part, the electric connection piece is arranged on the second pivot part and comprises a fixing hole, the first pivot part and the second pivot part comprise pivot holes, the first bending connection assembly further comprises a first pivot piece, and the first pivot piece passes through the pivot hole of the first pivot part, the pivot hole of the second pivot part and the fixing hole of the electric connection piece to connect the first pivot part with the second pivot part.

In one embodiment, the number of the electrical connection posts, the electrical connection pads, the first portion of wires and the second portion of wires is two, and each first portion of wires is connected with a corresponding one of the electrical connection pads, a corresponding one of the electrical connection posts and a corresponding one of the second portion of wires;

one of the first pivoting part and the second pivoting part comprises a first base body and a second base body arranged opposite to the first base body, each base body is provided with one pivoting hole, at least part of the other one of the first pivoting part and the second pivoting part is positioned between the two base bodies, and the first pivot sequentially penetrates through the pivoting hole of the first base body, the fixing hole of one of the electric connecting sheets, the pivoting hole of the other one of the first pivoting part and the second pivoting part, the fixing hole of the other one of the electric connecting sheets and penetrates into the pivoting hole of the second base body to pivot the first pivoting part and the second pivoting part.

An embodiment of the utility model provides a shoot strutting arrangement, shoot strutting arrangement includes:

the clamping mechanism is used for clamping the shooting equipment; and

a support structure as claimed in any preceding claim, the support structure being arranged to support the clamping mechanism.

In an embodiment, the shooting strutting arrangement still includes the second coupling assembling of buckling, the second buckle the coupling assembling be used for connect in bearing structure reaches between the fixture, make the fixture can be relative bearing structure rotates, the second buckle the coupling assembling including having third pin joint piece and fourth pin joint piece, third pin joint piece include third pin joint portion and with the third connecting portion that third pin joint portion is connected, third connecting portion be used for with bearing structure connects, fourth pin joint piece include fourth pin joint portion and with the fourth connecting portion that fourth pin joint portion is connected, third pin joint portion be used for with the pin joint of fourth pin joint portion, fourth connecting portion be used for with fixture connects.

In an embodiment, the third connecting portion further includes a first rotating portion connected to the third pivot portion and a second rotating portion connected to the supporting structure, and the first rotating portion is configured to be rotatably connected to the second rotating portion, so that the third connecting portion can drive the third pivot portion, the fourth pivot member and the clamping mechanism to rotate around an axis defined by an extending direction of the second sleeve.

In one embodiment, the sleeve assembly further comprises a first connection sleeve adjacent to the clamping mechanism for connecting the third connection; the first rotating part comprises a clamping part connected with the third pivoting part, a rod part connected with the clamping part and far away from the third pivoting part, a fixing part arranged at one end of the first rotating part far away from the clamping part and connected with the rod part, and an elastic part; the second rotating part is sleeved on the periphery of the rod part and meshed with the clamping part, and the elastic piece is clamped between the fixed part and the second rotating part; the second rotating portion comprises a limiting end and a pipe portion connected with the limiting end, the limiting end is used for being meshed with the clamping portion, the pipe portion and the limiting end form a step portion, the fixing portion and the pipe portion are accommodated in the first connecting sleeve, and the end face of the first connecting sleeve is abutted to the limiting end.

In one embodiment, an end of the first sleeve away from the first pivot is further used for connecting the third connecting portion; the first rotating part comprises a clamping part connected with the third pivoting part, a rod part connected with the clamping part and far away from the third pivoting part, a fixing part arranged at one end of the first rotating part far away from the clamping part and connected with the rod part, and an elastic part; the second rotating part is sleeved on the periphery of the rod part and meshed with the clamping part, and the elastic piece is clamped between the fixed part and the second rotating part; the second rotating portion comprises a limiting end and a pipe portion connected with the limiting end, the limiting end is used for being meshed with the clamping portion, the pipe portion and the limiting end form a step portion, the steering portion and the pipe portion are accommodated in the first sleeve, and the end face of the first sleeve is abutted to the limiting end.

In one embodiment, the third pivot portion and the fourth pivot portion have fourth pivot holes, the second bending connection assembly further includes a second pivot member, the second pivot member pivotally connects the third pivot portion and the fourth pivot portion through the pivot holes of the third pivot portion and the fourth pivot portion, the second pivot member includes a second cap portion and a second shaft portion connected to the second cap portion, the second shaft portion passes through the pivot holes of the third pivot portion and the pivot holes of the fourth pivot portion, and the bending connection assembly further includes a second locking member, the second locking member is fixed at an end of the second shaft portion far from the second cap portion, so that the second locking member and the second cap portion clamp the third pivot portion and the fourth pivot portion therebetween.

In an embodiment, the shooting supporting device further includes a light emitting element, the light emitting element is connected to the fourth pivot, and the fourth pivot can drive the clamping mechanism and the light emitting element to rotate relative to the third pivot and the supporting structure.

In one embodiment, the sleeve assembly further comprises a second connection sleeve located at an end remote from the clamping mechanism, and the photographing support device further comprises a support base on which the second connection sleeve is configured to be mounted; the supporting base comprises a first substrate and a second substrate which are arranged oppositely, the second substrate is located between the first substrate and the clamping mechanism, and the second connecting sleeve is installed on the second substrate.

In one embodiment, the shooting supporting device further comprises a supporting base, and the second sleeve is further used for being mounted on the supporting base; the supporting base comprises a first base plate and a second base plate which are arranged oppositely, the second base plate is located between the first base plate and the clamping mechanism, and one end, far away from the second pivot piece, of the second sleeve is installed on the second base plate.

In one embodiment, the shooting supporting device further comprises a supporting base, one end of the supporting structure far away from the clamping mechanism is mounted on the supporting base, and the electric connection structure is used for electrically connecting elements on the clamping mechanism with elements inside the supporting base; the element on the clamping mechanism comprises a light-emitting component; the components inside the support base include power supply components and/or switch control components.

An embodiment of the utility model provides a fan, the fan includes:

a fan main body;

a support structure as claimed in any preceding claim, the support structure being for supporting the fan body.

In one embodiment, the fan further comprises a support base on which an end of the support structure remote from the fan body is mounted, the electrical connection structure being for electrically connecting the fan body with components inside the support base; the components inside the support base include power supply components and/or switch control components.

An embodiment of the utility model provides a lamp, lamp includes:

a light emitting assembly;

a support structure according to any preceding claim, the support structure being configured to support the light emitting assembly, wherein the electrical connection structure is configured to electrically connect the light emitting assembly to an element located on a side of the second sleeve remote from the light emitting assembly; the element at the side of the second sleeve far away from the light-emitting component comprises a power supply component and/or a switch control component.

Compared with the prior art, the embodiment of the utility model provides an among scalable bearing structure of buckling, shooting strutting arrangement, fan and lamps and lanterns, scalable bearing structure of buckling is on satisfying scalable, be convenient for accomodate and carry, support function such as height-adjustable basis, through being located the coupling assembling of buckling between first sleeve and the second sleeve for can also realize the connection of buckling except scalable between first sleeve and the second sleeve, thereby be convenient for adjust supporting height and support angle, can make through the electric connection structure who sets up on the bearing structure and be located the component at sleeve subassembly both ends can be connected electrically, and convenience of customers uses in multiple application scene, if realize fixture, fan main part and light-emitting component's position, height and angular adjustment etc. through buckling connection, has promoted user experience.

Drawings

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

Fig. 1 is a perspective view of a photographing support device having a supporting structure capable of being bent and extended according to a first embodiment of the present invention in a contracted state.

Fig. 2 is a perspective view of the photographing support device shown in fig. 1 in a support state.

Fig. 3 is an exploded view of the photographing support device shown in fig. 2.

Fig. 4 is an enlarged schematic view of a portion of the photographing support device IV shown in fig. 3.

Fig. 5 is a schematic reverse view of the portion IV shown in fig. 4.

Fig. 6 is an enlarged schematic view of a portion of the photographing support device V shown in fig. 3.

Fig. 7 is a perspective view of the photographing support device shown in fig. 1 in a bent state.

Fig. 8 is an exploded view of the photographing support device shown in fig. 7.

Fig. 9 is a schematic partial perspective exploded view of a support structure of a photographing support device according to a second embodiment of the present invention.

Fig. 10 is an assembled structural schematic view of the support structure shown in fig. 9.

Fig. 11 is a schematic view of the IV portion shown in fig. 4 including an electrical connection structure.

Fig. 12 is a schematic view of an assembled structure of the structure of fig. 11 in an upright state.

Fig. 13 is a schematic view of the assembled structure of fig. 11 in a bent state.

Fig. 14 is a schematic view of another electrical connection structure of fig. 11.

Fig. 15 is a schematic view of an assembled structure of the structure of fig. 14 in an upright state.

Fig. 16 is a schematic view of the assembled structure of the structure of fig. 14 in a bent state.

Fig. 17 is a perspective view of a fan with a support structure that can flex and expand according to an embodiment of the present invention in a contracted state.

Fig. 18 is a perspective view of the fan shown in fig. 17 in a supported state.

Fig. 19 is a perspective view of the fan shown in fig. 17 in a folded state.

Fig. 20 is a perspective view of a light fixture with a support structure that can be telescopically bent according to an embodiment of the present invention in a retracted state.

FIG. 21 is a perspective view of the light fixture of FIG. 20 in a supported state.

FIG. 22 is a perspective view of the light fixture of FIG. 20 in a bent state.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

In order to make the technical solution of the present invention better understood, the technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

The terms "first," "second," and "third," etc. in the description and claims of the present invention and the above-described drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "comprises" and any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Referring to fig. 1 to 8, fig. 1 is a perspective view of a photographing support device 100 with a supporting structure 1 capable of being telescopically bent according to a first embodiment of the present invention in a contracted state, fig. 2 is a perspective view of the photographing support device 100 in a supporting state shown in fig. 1, fig. 3 is an exploded view of the photographing support device 100 shown in fig. 2, fig. 4 is an enlarged schematic view of an IV portion of the photographing support device 100 shown in fig. 3, fig. 5 is a reverse schematic view of the IV portion shown in fig. 4, fig. 6 is an enlarged schematic view of a V portion of the photographing support device 100 shown in fig. 3, fig. 7 is a perspective view of the photographing support device 100 shown in fig. 1 in a bent state, and fig. 8 is an exploded view of the photographing support device 100 shown in fig. 7. The utility model discloses the shooting strutting arrangement 100 of first embodiment can include fixture 2, bearing structure 1. Wherein, fixture 2 is used for the centre gripping to shoot equipment, such as cell-phone, camera, panel computer etc. support structure 1 supports fixture 2.

According to the first embodiment of the present invention, the supporting structure 1 comprises a telescopic connection sleeve assembly 10, the sleeve assembly 10 comprises a first sleeve 11, a second sleeve 12 and a first bending connection assembly 13, wherein the first bending connection assembly 13 comprises a first pivot component 131 and a second pivot component 132, the first pivot component 131 comprises a first pivot portion 131a and a first connection portion 131b connected to the first pivot portion 131a, and the first connection portion 131b is connected to one end of the first sleeve 11; the second pivot member 132 includes a second pivot portion 132a and a second connecting portion 132b connected to the second pivot portion 132a, the second connecting portion 132b is connected to the second sleeve 12, the second pivot portion 132a is pivotally connected to the first pivot portion 131a, so that the supporting structure 1 can be bent in a telescopic manner, and the supporting structure 1 which can be bent in a telescopic manner includes a supporting state, a bending state and a contracting state, so that the shooting device on the shooting supporting device 100 can be located at different heights, angles, positions, and the like.

In detail, in the retracted state, the first sleeve 11, the first pivot portion 131a, and the second pivot portion 132a may be substantially accommodated in the second sleeve 12, so that the volume of the whole supporting structure 1 may be reduced to the volume of the second sleeve 12, and in the retracted state, the photographing supporting device 100 may be placed on a desktop to support a photographing apparatus, which is particularly suitable for live broadcasting of a user.

In the supporting state, the first sleeve 11 and the second sleeve 12 extend in the same direction, and at least a portion of the first sleeve 11 protrudes beyond the second sleeve 12. Specifically, in some embodiments, in the supporting state, a portion of the first sleeve 11 may further extend out of the second sleeve 12, and another portion of the first sleeve 11, the first pivot portion 131a and the second pivot portion 132a are all received in the second sleeve 12; in some embodiments, in the supporting state, the first sleeve 11 and the first pivot portion 131a may both extend out of the second sleeve 12, and the second pivot portion 132a may be received in the second sleeve 12; in some embodiments, the first sleeve 11, the first pivot portion 131a and the second pivot portion 132a may all extend out of the second sleeve 12.

In addition, in the present embodiment, the first connecting portion 131b is accommodated at one end of the first sleeve 11 to be connected to the first sleeve 11; the second connecting portion 132b is received in the second sleeve 12 to connect with the second sleeve 12; in the supporting state, the photographing support device 100 may be placed on the ground to support a photographing apparatus, and a user may flexibly adjust the length of the support structure 1 by the height of a photographing object.

Further, it can be understood that, in addition to the first sleeve 11 and the second sleeve 12, in order to increase the telescopic range of the supporting structure and enhance the application scenario of the photographing supporting device 100, the sleeve assembly 10 of the supporting structure 1 may further include a plurality of connection sleeves 14 and 15 and a connection assembly 16 connected between two adjacent sleeves. In particular, the connection sleeve 14 is telescopically connected to an end of the first sleeve 11 remote from the second sleeve 12, and the connection sleeve 15 is telescopically connected to an end of the second sleeve 12 remote from the first sleeve 11. A connection assembly 16 may be correspondingly disposed between two adjacent sleeves (e.g. between the first sleeve 11 and the connection sleeve 14, between the connection sleeve 14 and the connection sleeve 14, between the second sleeve 12 and the connection sleeve 15, and between the connection sleeve 15 and the connection sleeve 15), so as to enable a telescopic connection between two adjacent sleeves.

Furthermore, it will be appreciated that the inner diameter of the casing below (i.e. the casing remote from the gripping means 2) of two adjacent casings is slightly larger than the outer diameter of the casing above (i.e. the casing adjacent to the gripping means 2) so that the casing above can be retracted into or extended out of the casing below. Specifically, the connection assembly 16 may include a stop collar 168 mounted on the lower casing and at least one retainer 167 sandwiched between the outer wall of the upper casing and the inner wall of the lower casing; in this embodiment, the at least one positioning element 167 is arc-shaped; the at least one positioning element 167 comprises a first positioning element 167a and a second positioning element 167b arranged opposite to the first positioning element 167 a; one of the first positioning member 167a and the second positioning member 167b is a plastic positioning member, and the other one of the first positioning member 167a and the second positioning member 167b is a metal positioning member. The stop collar 168 is used to prevent the upper cannula from disengaging from the lower cannula.

Further, in the bent state, at least the first sleeve 11 of the first sleeve 11, the first pivot portion 131a and the second pivot portion 132a extends out of the second sleeve 12, and the first pivot portion 131a and the second pivot portion 132a are connected in a bent manner at a predetermined angle, so that the first sleeve 11 and the second sleeve 12 are connected in a bent manner through the first bending connection assembly 13, in this embodiment, in the bent state, the first sleeve 11, the first pivot portion 131a and the second pivot portion 132b may also extend out of the second sleeve 12. Under the state of buckling, shoot strutting arrangement 100 can make through the adjustment angle of buckling the shooting equipment of 2 centre grippings of fixture shoots according to the angle that the user needs, and it is more convenient to use, promotes user experience.

Specifically, in some embodiments, in the bent state, the bending connection angle between the first pivot portion 131a and the second pivot portion 132b (i.e. the preset bending angle, which is also equal to the included angle between the first sleeve 11 and the second sleeve 12) may be 90 degrees, so that the shooting device on the clamping mechanism 2 can shoot an object, such as a document, etc., placed on a horizontal desktop or a floor. However, in other embodiments, the bending connection angle between the first pivot portion 131a and the second pivot portion 132b may be set to be various angles such as 70 degrees, 80 degrees, 110 degrees, 120 degrees, etc., and is not limited to 90 degrees. In addition, in some embodiments, the pivot friction between the first pivot portion 131a and the second pivot portion 132b may be set, so that the bending connection angle between the first pivot portion 131a and the second pivot portion 132b may be adjusted within a range of 0 to 180 degrees, so as to meet the requirement of a user for shooting at different bending angles.

In addition, as shown in fig. 7, it can be understood that the bending connection between the first pivot portion 131a and the second pivot portion 132b may be: the first pivoting portion 131a is bent toward one side (right side as shown in fig. 7) to form a bent connection (e.g., a 90-degree bent connection) with the second pivoting portion 132b, or the bent connection between the first pivoting portion 131a and the second pivoting portion 132b may be: the first pivoting portion 131a is bent toward the other side (the left side as shown in fig. 7), so as to form a bent connection (e.g., a 90-degree bent connection) with the second pivoting portion 132b, so as to meet the shooting requirements of objects at different positions or angles.

Further, the first pivot portion 131a includes a pivot hole 131c, the second pivot portion 132a includes a pivot hole 132c, the first bending connection assembly 13 further includes a first pivot member 134, and the first pivot member 134 pivotally connects the first pivot portion 131a and the second pivot portion 132a through the pivot hole 131c of the first pivot portion 131a and the pivot hole 132c of the second pivot portion 132 a. The first pivot member 134 includes a first cap portion 134a and a first shaft portion 134b connected to the first cap portion 134a, the first shaft portion 134b passes through the pivot hole 131c of the first pivot portion 131a and the pivot hole 132c of the second pivot portion 132a, and the bending connection assembly 13 further includes a first locking member 134c, the first locking member 134c is fixed at an end of the first shaft portion 134b away from the first cap portion 134a, so that the first locking member 134c and the first cap portion 134a sandwich the first pivot portion 131a and the second pivot portion 132a therebetween.

One of the first pivot portion 131a and the second pivot portion 132a includes a first base 132d and a second base 132e opposite to the first base 132d, at least a portion of the other of the first pivot portion 131a and the second pivot portion 132a is located between the two bases, in this embodiment, the second pivot portion 132a includes a first base 132d and a second base 132e opposite to the first base 132d, at least a portion of the first pivoting portion 131a is located between the two bases, each of which is provided with one of the pivot holes 132c, the first pivot member 134 passes through the pivot hole 132c of the first base 132d, the pivot hole 131c of the other one of the first pivot portion 131a and the second pivot portion 132a, and extends into the pivot hole 132c of the second base 132e to pivot the first pivot portion 131a and the second pivot portion 132 a. The first base 132d and the second base 132e are used for clamping and limiting at least part of the first pivot part 131a, and the first pivot part is used for pivoting, so that the stability of the first bending connecting component 13 in the bending process is guaranteed.

It can be understood that the pivot connection manner of the first pivot connection portion 131a and the second pivot connection portion 132a is not limited to the above embodiments, and various modified embodiments may also be provided, as long as the bendable connection (also rotatable connection) between the first pivot connection portion 131a and the second pivot connection portion 132a can be realized, which is not exhaustive, and therefore, the detailed description is omitted here.

In another embodiment, the first bending connecting component 13 may further include two first pads 135 having first through holes 135a and two second pads 136 having second through holes 136a, both sides of the other one of the first pivot portion 131a and the second pivot portion 132a are provided with a groove 131d communicated with the pivot hole 132c, in this embodiment, both sides of the first pivoting part 131a are provided with grooves 131d communicating with the pivoting holes 131c, the first pad 135 and the second pad 136 are respectively located in the grooves 131d of the two sides, the first pivot member 134 passes through the pivot hole 132c of the first base 132d, the first through hole 135a, the pivot hole 131c of the other one of the first pivot portion 131a and the second pivot portion 132a, and the second through hole 136a and extends into the pivot hole 132c of the second base 132e to pivot the first pivot portion 131a and the second pivot portion 132 a. The first and second spacers 135 and 136 reduce friction between the first pivot portion 131a and the second pivot portion 132a, facilitate bending of the first bending connection assembly 13, and increase the pivot fixing strength between the first pivot portion 131a and the second pivot portion 132 a.

Further, in this embodiment, a first receiving groove 132f communicating with the pivot hole 132c of the second base 132e is formed on a side of the second base 132e away from the first base 132d, and the first locking member 134c is located in the first receiving groove 132f, so that the first locking member 134c and the second base 132e are integrated into a whole, and the second pivot portion 132a is not obstructed in the extending and retracting process. The first pivot portion 131a includes a body 131e and a limiting portion 131f connected between the body 131e and the first connecting portion 131b, the body 131e is pivotally connected to the second pivot portion 132a, the limiting portion 131f and the first connecting portion 131b form a step portion 131g, the first sleeve 11 receives the first connecting portion 131b, and an end surface of the first sleeve 11 abuts against the limiting portion 131 f. In the process of extension and retraction, the step portion 131g may limit the first sleeve 11.

The first bending connection assembly 13 further includes at least one positioning element 137 clamped between the second connection portion 132b and the inner wall of the second sleeve 12, and the positioning element 137 is used for adjusting the friction force between the second sleeve 12 and the second connection portion 132 b; the at least one positioning member 137 may be of an arc type. In this embodiment, the at least one positioning element 137 includes a first positioning element 137a and a second positioning element 137b opposite to the first positioning element 137a, and the two positioning elements 137a and 137b are opposite to each other and used for adjusting the friction force together. In order to achieve a moderate force, one of the first positioning element 137a and the second positioning element 137b may be a plastic positioning element, and the other one of the first positioning element 137a and the second positioning element 137b may be a metal positioning element.

Further, the first bending connection assembly 13 may further include a limiting sleeve 138 disposed at an end of the second sleeve 12 adjacent to the first sleeve 11, wherein the limiting sleeve 138 is sleeved on the periphery of the second connection portion 132b for preventing the second connection portion 132b from being separated from the second sleeve 12. In this embodiment, when the number of the first sleeves 11 and the second sleeves 12 is two or more, the number of the positioning members 137 and the number of the limiting sleeves 138 may also be multiple, and the positioning members 137 and the limiting sleeves 138 may be used for limiting between adjacent first sleeves 11 and adjacent second sleeves 12, so as to prevent the adjacent first sleeves 11 and adjacent second sleeves 12 from being separated.

Furthermore, in this embodiment, the shooting supporting device 100 further includes a second bending connecting component 3, the second bending connecting component 3 is configured to be connected between the supporting structure 1 and the clamping mechanism 2, so that the clamping mechanism 2 can rotate relative to the supporting structure 1, the second bending connecting component 3 includes a third pivot component 31 and a fourth pivot component 32, the third pivot component 31 includes a third pivot portion 311 and a third connecting portion 312 connected to the third pivot portion 311, the third connecting portion 312 is connected to the supporting structure 1, the fourth pivot component 32 includes a fourth pivot portion 321 and a fourth connecting portion 322 connected to the fourth pivot portion 321, the third pivot portion 311 is pivoted to the fourth pivot portion 321, and the fourth pivot connecting portion 322 is connected to the clamping mechanism 2. Specifically, the third pivoting portion 311 is pivoted to the fourth pivoting portion 321, so that the third pivoting portion 311 and the fourth pivoting portion 321 can rotate relatively to realize bending connection at different angles, and then an angle between the clamping mechanism 2 connected to the fourth connecting portion 322 and the supporting structure 1 connected to the third connecting portion 311 can be adjusted, and further a shooting angle of a shooting device on the clamping mechanism 2 can be adjusted.

The third pivoting portion 311 has a pivoting hole 311a, the fourth pivoting portion 321 has a pivoting hole 321a, the second bending connection assembly 3 further includes a second pivot member 33, the second pivot member 33 pivotally connects the third pivot portion 311 and the fourth pivot portion 321 through the pivot hole 311a of the third pivot portion 311 and the pivot hole 321a of the fourth pivot portion 321, the second pivot member 33 includes a second cap portion 331 and a second shaft portion 332 connected to the second cap portion 331, the second shaft portion 332 passes through the pivot hole 311a of the third pivot portion 311 and the pivot hole 321a of the fourth pivot portion 321, the second bending connection component 3 further includes a second locking component 34, the second locking component 34 is fixed on an end of the second shaft portion 332 far away from the second cap portion 321, so that the second locking member 34 and the second cap 331 sandwich the third pivoting portion 311 and the fourth pivoting portion 321 therebetween. It is understood that the pivot connection manner of the third pivot connection portion 311 and the fourth pivot connection portion 321a is not limited to the above embodiments, and various modified embodiments may be provided as long as the third pivot connection portion 311 and the fourth pivot connection portion 321a can be flexibly (also rotatably) connected, and the implementation manner is not exhaustive, and is not repeated herein.

In this embodiment, the third connecting portion 312 further includes a first rotating portion 312a connected to the third pivot portion 311 and a second rotating portion 312b connected to the supporting structure 1, and the first rotating portion 312a and the second rotating portion 312b are rotatably connected, so that the third connecting portion 312 can drive the third pivot portion 311, the fourth pivot member 32 and the clamping mechanism 2 to rotate around an axis defined by the extending direction of the second sleeve 12. The user can be through adjusting thereby the object in different position is shot to messenger's shooting equipment to the angle that fixture 2 rotated, has made things convenient for user's use more, has promoted user experience. Specifically, the first rotating portion 312a is rotatably connected to the second rotating portion 312b, so that the third connecting portion 312 drives the third pivot portion 311, the fourth pivot member 32 and the clamping mechanism 2 to rotate within a range of 0-360 degrees around an axis defined by an extending direction of the second sleeve 12, preferably, when the clamping mechanism 2 rotates 180 degrees around the axis defined by the extending direction of the second sleeve 12, the user can switch the front and rear cameras of the shooting device to shoot, and when the clamping mechanism 2 continues to rotate 360 degrees around the axis defined by the extending direction of the second sleeve 12, the clamping mechanism can switch back to the original position to shoot.

In this embodiment, the connection sleeve 14 includes a first connection sleeve 14a adjacent to the clamping mechanism 2, the first connection sleeve 14a connecting the third connection portion 312; the first rotating portion 312a includes a fastening portion 312c connected to the third pivoting portion 311, a rod portion 312d connected to the fastening portion 312c and away from the third pivoting portion 311, a fixing portion 312e disposed at an end of the first rotating portion 312a away from the fastening portion 312c and connected to the rod portion 312d, and an elastic member 312 f; the second rotating portion 312b is sleeved on the periphery of the rod portion 312d and engaged with the engaging portion 312c, and the elastic member 312f is sandwiched between the fixing portion 312e and the second rotating portion 312 b; the second rotating portion 312b includes a limiting end 312g and a tube portion 312h connected to the limiting end 312g, the limiting end 312g is engaged with the engaging portion 312c, the tube portion 312h and the limiting end 312g form a step portion, the first connecting sleeve 14 accommodates the fixing portion 312e and the tube portion 312h, and an end surface of the first connecting sleeve 14a abuts against the limiting end 312g, so that the first connecting sleeve 14a is limited.

In the above embodiment, the first connection sleeve 14a is connected to the third connection portion 312, however, in a modified embodiment, the sleeve assembly 10 may not include the connection sleeves 14 and 14a, and the end of the first sleeve 11 away from the first pivot assembly 131 is further used for connecting the third connection portion 312; the first rotating portion 312a includes a fastening portion 312c connected to the third pivoting portion 311, a rod portion 312d connected to the fastening portion 312c and away from the third pivoting portion 311, a fixing portion 312e disposed at an end of the first rotating portion 312a away from the fastening portion 312c and connected to the rod portion 312d, and an elastic member 312 f; the second rotating portion 312b is sleeved on the periphery of the rod portion 312d and engaged with the engaging portion 312c, and the elastic member 312f is sandwiched between the fixing portion 312e and the second rotating portion 312 b; the second rotating portion 312b includes a limiting end 312g and a tube portion 312h connected to the limiting end 312g, the limiting end 312g is engaged with the engaging portion 312c, the tube portion 312h and the limiting end 312g form a stepped portion, the first connecting sleeve 14 accommodates the fixing portion 312e and the tube portion 312h, and an end surface of the first connecting sleeve 14a abuts against the limiting end 312g, so that the first sleeve 11 is limited.

Further, the photographing support device 100 further includes a light emitting element 4, the light emitting element 4 is connected to the fourth pivot member 321, and the fourth pivot member 321 can drive the clamping mechanism 2 and the light emitting element 4 to rotate relative to the third pivot member 31 and the support structure 1. In the shooting process, the light-emitting component 4 can provide an auxiliary shooting light source, so that a better shooting environment and a better shooting effect are provided for a user. Specifically, the light emitting assembly 4 may include a support 41, a light emitting member 42, and a lamp cover 43. The supporting member 41 is connected to the fourth pivoting member 32, and the light emitting member 42 is disposed on the supporting member 41 and may include a circuit board and a light emitting element (e.g., a light emitting diode) disposed on the circuit board. The lamp cover 43 covers the side of the light emitting plate 42 away from the supporting member 41; the supporting member 41, the light emitting member 42 and the lamp housing 43 are all ring-shaped structures; the supporting member 41 includes a fixing portion 41a, the fixing portion 41a is a section of the annular structure of the supporting member 41, two sides of the fixing portion 41a are respectively connected to the fourth pivot portion 321 and the fourth connecting portion 322, and the clamping mechanism 2 is located in the annular structure of the supporting member 41. The clamping mechanism 2 may include a support plate 21 and a clamping portion 22 connected to the support plate 21 and extending toward a first direction, and the light emitting plate 42 emits light toward the first direction.

In this embodiment, the connection sleeve 15 further includes a second connection sleeve 15a located at an end away from the clamping mechanism 2, and the photographing support device 100 further includes a support base 5, and the second connection sleeve 15a is mounted on the support base 5; the supporting base 5 includes a first substrate 51 and a second substrate 52 disposed oppositely, the second substrate 52 is located between the first substrate 51 and the clamping mechanism 2, and the second connecting sleeve 15a is mounted on the second substrate 52. The support base 5 can provide stable support for the shooting support device 100, so as to be convenient for stable shooting.

In the above described embodiment, the second connection sleeve 15a is mounted on the support base 5, but in a variant embodiment, the sleeve assembly 10 may not comprise the connection sleeves 15 and 15a, and the second sleeve 12 is mounted on the support base 5; the supporting base 5 includes a first substrate 51 and a second substrate 52 disposed oppositely, the second substrate 52 is located between the first substrate 51 and the clamping mechanism 2, and the second sleeve 12 is mounted on the second substrate 52. The support base 5 can provide stable support for the shooting support device 100, so as to be convenient for stable shooting.

The following briefly describes three states that the supporting structure 1 of the photographing supporting device 100 can be in, with reference to fig. 1, 2 and 7. It can be understood that, as shown in fig. 1, when the supporting structure 1 is in the retracted state, the sleeves 15, 12, 11, and 14 of the sleeve assembly 10 may be sequentially retracted, so that most of the plurality of sleeves 15, 12, 11, 14, and 14a located above are retracted into the lowermost sleeve 15a, and at this time, the supporting height of the supporting structure 1 is small, which is also convenient for storing and carrying with the photographing supporting device 100, and is also applicable to photographing or light supplement performed by placing the photographing supporting device 100 on a desktop. In particular, in the retracted state, the first sleeve 11, the second sleeve 12 and the first kink connecting assembly 13 are all retractable into the lowermost sleeve 15a, so that the first sleeve 11, the second sleeve 12 and the first kink connecting assembly 13 can achieve the effects of being hidden, not easily damaged, beautiful and the like.

Further, when the support height of the support structure 1 needs to be adjusted, at least part of the sleeves of the sleeve assembly 10 may be extended, so that the support height of the support structure 1 becomes high, in particular, as shown in fig. 2, when the sleeves are all fully extended, the support structure 1 may reach the highest support height. However, it will be appreciated that where the highest support height need not be available, it is also possible to have part of the support sleeve partially extended or part of the sleeve fully extended without having all of the sleeve fully extended.

Further, when the supporting structure 1 needs to be adjusted so that the shooting device on the clamping mechanism 2 can shoot an object aligned with a horizontal supporting surface (such as a desktop, a ground), at least a portion of the second sleeve 12 can be pulled out, the first sleeve 11 is pulled out of the second sleeve 12, the first pivot portion, the first sleeve 11, the other connecting sleeve 14 connected to the first sleeve, the clamping mechanism 1 connected to the connecting sleeve 14a, and the like are bent by an external force, so that the first pivot portion drives the first sleeve 11, the other connecting sleeve 14 connected to the first sleeve, the clamping mechanism 1 connected to the connecting sleeve 14a, and the like to rotate (to rotate towards either one of the left side or the right side) compared with the second pivot portion, the second sleeve 12, the connecting sleeve 15, and the like, thereby facilitating the shooting device on the clamping mechanism 2 to shoot the horizontal supporting surface (such as the desktop, the ground, a camera, ground) is photographed. At this time, it is understood that the position of the clamping mechanism 2 may also be adjusted by adjusting the protruding length of the first sleeve 11, the connection sleeves 14, 14a, etc.; the height of the gripping means can also be adjusted by adjusting the extension of the second sleeve 12, the connection sleeve 15, 15 a.

It can be understood that the switching among the states of the supporting mechanism 1 shown in fig. 1, fig. 2 and fig. 7 can be realized by adjusting the contraction and bending states of the sleeves through an external force, and since the operation mode is also simple, a person skilled in the art can understand that the switching is not described herein.

In addition, in each of the states of fig. 1, 2 and 7, the connection angle and/or rotation angle of the clamping mechanism 2 relative to the supporting structure 1 can be adjusted by the second bending connection assembly, so that the photographing apparatus clamped by the clamping mechanism 2 of the photographing supporting device 100 can correspondingly photograph target objects at different angles, positions and the like.

In this embodiment, shoot strutting arrangement 100 and pass through scalable buckling's bearing structure 1 is satisfying on the basis of functions such as scalable, be convenient for accomodate and carry, support height adjustable, through being located first sleeve 11 reaches between the second sleeve 12 first bending connection subassembly 13 makes first sleeve 11 reaches can also realize buckling except scalable between the second sleeve 12, thereby be convenient for adjust fixture's support height and support angle use in convenient to use's multiple application scene, if through buckle the position, height and the angular adjustment etc. of electronic equipment such as light-emitting component and cell-phone that realize on the fixture, promoted user experience.

In particular, when the photographing support device 100 is used, for example, when a user uses the photographing support device 100 in a live broadcasting process, a camera (e.g., a front camera or a rear camera) of a photographing apparatus (e.g., a mobile phone) on the photographing support device 100 can photograph corresponding to a face or a target position of the user, at this time, a display screen surface of the photographing apparatus can be substantially parallel to a vertical direction, however, when it is further required to photograph an object located on a horizontal support surface by using the photographing apparatus on the photographing support device 100, at this time, the first bending connection assembly 13 can enable the first pivot portion to drive the first sleeve 11, the connection sleeve 14, the clamping mechanism 2 and the photographing apparatus to rotate (e.g., rotate 90 degrees) relative to the second pivot portion, so that the camera (e.g., the rear camera) of the photographing apparatus can correspond to the object located on the horizontal support surface, the display screen of the shooting device is located above the shooting device, so that a user can view a shot object displayed on the display screen, and at this time, the support heights of the connecting sleeves 15 of the sleeve assembly 10 can be adjusted to adjust the distance between the shooting device and the shot object, or the telescopic lengths of the connecting sleeves 14 of the sleeve assembly 10 are adjusted to enable the camera of the shooting device to be equal to the shot object. Therefore, the support structure capable of being bent in a telescopic manner enables the shooting support device 100 to be conveniently applied to various scenes, and user experience is high.

In addition, when the support structure 1 is in a contracted state, the sleeves 15, 12, 11, and 14 of the sleeve assembly 10 may be sequentially contracted, so that most of the sleeves 15, 12, 11, 14, and 14a positioned above are contracted into the lowermost sleeve 15a, and at this time, the support height of the support structure 1 is small, which is also convenient for storage, carrying, and the like with the photographing support device 100, and may be applied to photographing or light supplement performed by placing the photographing support device 100 on a desktop. In particular, in the retracted state, the first sleeve 11, the second sleeve 12 and the first kink connecting assembly 13 are all retractable into the lowermost sleeve 15a, so that the first sleeve 11, the second sleeve 12 and the first kink connecting assembly 13 can achieve the effects of being hidden, not easily damaged, beautiful and the like.

Referring to fig. 9 and 10, fig. 9 is a schematic partial exploded perspective view of a supporting structure of a retractable and bendable structure according to a second embodiment of the present invention. Fig. 10 is a schematic view of an assembled structure of the support structure 1 shown in fig. 9. The supporting structure of the second embodiment is substantially the same as the supporting structure of the first embodiment, that is, the above description of the supporting structure of the first embodiment is substantially applied to the second embodiment, please refer to fig. 3-5, for example, the supporting structure 1 includes a first sleeve 11, a second sleeve 12 and a first bending connection component 13, wherein the first bending connection component 13 includes a first pivot member 131 and a second pivot member 132, the first pivot member 131 includes a first pivot portion 131a and a first connection portion 131b connected to the first pivot portion 131a, and the first connection portion 131b is connected to one end of the first sleeve 11; the second pivot member 132 includes a second pivot portion 132a and a second connecting portion 132b connected to the second pivot portion 132a, the second connecting portion 132b is connected to the second sleeve 12, the second pivot portion 132a is pivotally connected to the first pivot portion 131a, so that the supporting structure 1 can be bent in a telescopic manner, and the supporting structure 1 which can be bent in a telescopic manner includes a supporting state, a bending state and a contracting state, so that the shooting device on the shooting supporting device 100 can be located at different heights, angles, positions, and the like.

In detail, in the retracted state, the first sleeve 11, the first pivot portion 131a, and the second pivot portion 132a may be substantially accommodated in the second sleeve 12, so that the volume of the whole supporting structure 1 may be reduced to the volume of the second sleeve 12, and in the retracted state, the photographing supporting device 100 may be placed on a desktop to support a photographing apparatus, which is particularly suitable for live broadcasting of a user.

In the supporting state, the first sleeve 11 and the second sleeve 12 extend in the same direction, and at least a portion of the first sleeve 11 protrudes beyond the second sleeve 12. Specifically, in some embodiments, in the supporting state, a portion of the first sleeve 11 may further extend out of the second sleeve 12, and another portion of the first sleeve 11, the first pivot portion 131a and the second pivot portion 132a are all received in the second sleeve 12; in some embodiments, in the supporting state, the first sleeve 11 and the first pivot portion 131a may both extend out of the second sleeve 12, and the second pivot portion 132a may be received in the second sleeve 12; in some embodiments, the first sleeve 11, the first pivot portion 131a and the second pivot portion 132a may all extend out of the second sleeve 12.

In addition, in the present embodiment, the first connecting portion 131b is accommodated at one end of the first sleeve 11 to be connected to the first sleeve 11; the second connecting portion 132b is received in the second sleeve 12 to connect with the second sleeve 12; in the supporting state, the photographing support device 100 may be placed on the ground to support a photographing apparatus, and a user may flexibly adjust the length of the support structure 1 by the height of a photographing object.

Since the support structure 1 has been described in detail in the above-described first embodiment, the following mainly describes the differences between the support structure 1 of the second embodiment shown in fig. 9-10 and the support structure 1 of the first embodiment: in this embodiment, the first bending connecting assembly 13 may further include an auxiliary sleeve 133, the auxiliary sleeve 133 is connected to the second connecting portion 132b, and the auxiliary sleeve 133 is connected to the second sleeve 12 so that the second connecting portion 132b is connected to the second sleeve 12, and in the retracted state, the auxiliary sleeve 133 is also received in the second sleeve 12. The auxiliary sleeve 133 can strengthen the support and connection between the second connecting portion 132b and the second sleeve 12, so that the support structure of the present embodiment has better support strength and reliability, and the service life can be prolonged.

Since the support structure 1 has been described in detail in the above two embodiments, the following mainly describes the main differences between the support structure 1 of the third embodiment shown in fig. 11-13 and the fourth embodiment shown in fig. 14-16 and the support structure 1 of the first embodiment: in the third and fourth embodiments, the supporting structure 1 further includes an electrical connection structure 17, and the electrical connection structure 17 sequentially passes through the interior of the second sleeve 12, the second pivot 132, the first pivot 131 and the interior of the first sleeve 11, so that elements at two ends of the first sleeve 11 and the second sleeve 12 (such as elements at two ends of the sleeve assembly 10) can be electrically connected. Through electrical connection structure 17 set up in the sleeve subassembly, can prevent electrical connection structure 17's wearing and tearing to keep the pleasing to the eye of appearance when having reduced bearing structure 1, promote user experience.

In detail, the electrical connection structure 17 includes a wire, the first pivot member 131 includes a first through hole 131h penetrating through the first connection portion 131b and/or the first pivot portion 131a, the second pivot member 132 includes a second through hole 132h penetrating through the second connection portion 132b and/or the second pivot portion 132a, and the wire sequentially penetrates through the second sleeve 12, the second through hole 132h, the first through hole 131h and the first sleeve 11. Electric connection structure 17 is connected the electronic component that bearing structure 1 supported through the wire electricity if shoot device, fan main part, light-emitting component etc. has realized bearing structure 1's application scene diversification and has improved the practicality, has promoted user experience.

Further, at least one of the first pivot member 131 and the second pivot member 132 is further fixed to the electrical connection structure 17 by glue. It can be understood that the wires are fixed to the first pivot member 131 or the second pivot member 132 by glue, or the wires are fixed to both the first pivot member 131 and the second pivot member 132. The electric connection structure 17 or the lead is fixed through the colloid, so that the stability and the reliability of the lead can be realized, the abrasion of the lead can be delayed, and the service life of the lead is prolonged.

Further, in the third embodiment, referring to fig. 11-13, the electrical connection structure 17 includes a first partial wire 171, a second partial wire 172, a first electrical connection portion 173 and a second electrical connection portion 174, the first electrical connection portion 173 is disposed on the first pivot portion 131a or the first connection portion 131b, the second electrical connection portion 174 is disposed on the second pivot portion 132a or the second connection portion 132b, the first electrical connection portion 173 contacts with the second electrical connection portion 174, one end of the first partial wire 171 is electrically connected to the first electrical connection portion 173, the other end extends into the first sleeve 11, one end of the second partial wire 172 is electrically connected to the second electrical connection portion 174, the other end extends into the second sleeve 12, when the first pivot portion 131a rotates relative to the second pivot portion 132a, the first electrical connection portion 173 rotates relative to the second electrical connection portion 174 and maintains electrical contact. It is understood that the first portion of wires 171 and the second portion of wires 172 are schematically shown, and the actual length may be longer to connect the elements at the two ends of the support structure 1; by electrically connecting the electrical connection structure 17 in a rotatable manner, the support structure 1 can be prevented from damaging or wearing the electrical connection structure 17 when being bent, and the service life of the electrical connection structure 17 can be further prolonged.

Further, in the third embodiment, the first portion of wires 171 and the second portion of wires 172 are spirally routed in a spring shape and sequentially pass through the inside of the second sleeve 12, the second through hole 132h, the first through hole 131h and the inside of the first sleeve 11. Through with first part wire 171 reach second part wire 172 sets up to the spring shape, can guarantee that the sleeve pipe can stretch out and draw back thereupon when buckling is flexible, also convenient simultaneously accomodate the wire with set intraduct, both ensured the practicality of using and also promoted bearing structure 1's appearance aesthetic measure, still can promote the life of wire, and then promote user experience.

In the fourth embodiment, referring to fig. 14-16, one of the first electrical connection portion 173 and the second electrical connection portion 174 is an electrical connection post 1730, the other one of the first electrical connection portion 173 and the second electrical connection portion 174 is an electrical connection sheet 1740, the electrical connection post 1730 includes an end surface 1730a adjacent to one side of the electrical connection sheet 1740, the electrical connection sheet 1740 includes an outer side surface 1740a, the end surface 1730a of the electrical connection sheet 1730 contacts with the outer side surface contact 1740a of the electrical connection sheet 1740, and when the first pivot portion 131a rotates relative to the second pivot portion 132a, the end surface 1730a of the electrical connection sheet 1730 slides along the outer side surface 1740a of the electrical connection sheet 1740. Through the terminal surface 1730a of electric connection post 1730 with the contact of the lateral surface 1740a of electric connection piece 1740 realizes the electricity and connects, has realized that bearing structure 1 guarantees the electric connection of the component at bearing structure 1 both ends buckling, and the stability of electricity connection can be realized through the contact of face simultaneously, has promoted user's experience.

In this embodiment, the outer side 1740a of the electrical connection piece 1740 is arc-shaped, and can be electrically connected to the end surface 1730a of the electrical connection post 1730 when the first bending connection assembly 13 is bent and rotated. As can be appreciated, when the first pivot portion 131a rotates relative to the second pivot portion 132a, the end surface 1730a of the electrical connection post 1730 slides along the arc-shaped structure of the outer side surface 1740a of the electrical connection tab 1740, so as to reduce the loss of the connection end surface, achieve the stability of electrical connection, and meanwhile, keep the appearance of the support structure 1 beautiful, and improve the user experience.

Further, the electrical connection post 1730 is disposed on the first connection portion 131b, the electrical connection piece 1740 is disposed on the second pivot portion 132a and includes a fixing hole 1740b, the first pivot portion 131a and the second pivot portion 132a both include pivot holes, the first bending connection assembly 13 further includes a first pivot member 134, and the first pivot member 134 pivotally connects the first pivot portion 131a and the second pivot portion 132a through the pivot hole 131c of the first pivot portion 131a, the pivot hole 132c of the second pivot portion 132a and the fixing hole 1740b of the electrical connection piece 1740. Through first pivot spare 134 with electric connection post 1730 with electric connection plate 1740 is connected, can realize that electric connection structure 17 and first bending connection subassembly 13 are buckled in step, reduce unnecessary wearing and tearing or damage, improve electric connection structure 17's life, also promote user's experience and feel.

Furthermore, the number of the electrical connection pins 1730, the electrical connection pads 1740, the first portion of wires 171 and the second portion of wires 172 is two, and each of the first portion of wires 171 is connected to a corresponding one of the electrical connection pads 1740, a corresponding one of the electrical connection pins 1730 and a corresponding one of the second portion of wires 172; the first pivot 134 sequentially passes through the pivot hole 131c of the first base 132d, the fixing hole 1740b of one of the electrically connecting pieces 1740, the pivot hole 132c of the other of the first pivot portion 131a and the second pivot portion 132a, the fixing hole 1740b of the other electrically connecting piece 1740 and extends into the pivot hole 132c of the second base 132e to pivot the first pivot portion 131a and the second pivot portion 132 a. By limiting the number of the electrical connection structures 17, the stability of the electrical connection can be improved, and the user experience can be improved. It is understood that in the fourth embodiment, the first portion of wires 171 and the second portion of wires 172 shown in fig. 14 to 16 are schematically indicated, and may also include a spring-shaped spiral wire, and the actual length may be longer to connect the components at the two ends of the supporting structure 1.

It is understood that the shooting supporting device 100 comprises a supporting base 5, one end of the supporting structure 1 far away from the clamping mechanism 2 is mounted on the supporting base 5, and the electric connecting structure 17 is used for electrically connecting the components on the clamping mechanism 2 with the components inside the supporting base 5; the elements on the clamping mechanism 2 comprise a light emitting component 4; the elements inside the support base 5 comprise power supply components and/or switch control components. Each component is electrically connected with a power supply assembly or a switch control assembly and the like through the electric connection structure 17, so that a user can conveniently control each component, and the user experience is improved.

Referring to fig. 17 to 19, fig. 17 is a perspective view of a fan 200 with a supporting structure 1 capable of being telescopically bent in a contracted state according to an embodiment of the present invention, fig. 18 is a perspective view of the fan 200 in a supporting state shown in fig. 17, and fig. 19 is a perspective view of the fan 200 in a bent state shown in fig. 17. The fan 200 includes a fan body 6, a support structure 1, and the support structure 1 supports the fan body 6.

In this embodiment, the supporting structure 1 may be the supporting structure 1 in any one of the above embodiments. It is understood that the detailed description of the retractable supporting structure 1 of the fan 200 and the embodiments of the supporting device 100 are only briefly described here.

It can be understood that, in the present embodiment, the supporting structure 1 includes a first sleeve 11, a second sleeve 12 and a first bending connection assembly 13, wherein the first bending connection assembly 13 includes a first pivot 131 and a second pivot 132, the first pivot 131 includes a first pivot 131a and a first connection 131b connected to the first pivot 131a, and the first connection 131b is connected to one end of the first sleeve 11; the second pivot piece 132 includes second pivot portion 132a and connects the second connecting portion 132b of second pivot portion 132a, second connecting portion 132b connects second sleeve 12, second pivot portion 132a with the pin joint of first pivot portion 131a makes bearing structure 1 can stretch out and draw back the bending, but the bearing structure 1 of flexible bending includes support state, bending state and contraction state, thereby makes fan 200 main part is in different height, angle, position etc. conveniently is applied to different scenes to improve user experience.

In detail, as shown in fig. 3 to 5, in the contracted state, the first sleeve 11, the first pivot portion 131a and the second pivot portion 132a are received in the second sleeve 12, the volume of the whole supporting structure 1 can be reduced to the volume of the second sleeve 12, and in the contracted state, the fan 200 can be used on a table. In the supporting state, the extending directions of the first sleeve 11 and the second sleeve 12 are the same, and at least a portion of the first sleeve 11 extends out of the second sleeve 12, in this embodiment, in the supporting state, a portion of the first sleeve 11 may further extend out of the second sleeve 12, and the other portion of the first sleeve 11, the first pivot portion 131a, and the second pivot portion 132a are all accommodated in the second sleeve 12; alternatively, the first sleeve 11 and the first pivot portion 131a both extend out of the second sleeve 12; alternatively, the first sleeve 11, the first pivot portion 131a and the second pivot portion 132a all extend out of the second sleeve 12. In addition, the first connecting portion 131b is accommodated in one end of the first sleeve 11; the second connecting portion 132b is accommodated in the second sleeve 12; in the supporting state, the fan 200 may be used as a floor fan, and a user may adjust the height of the fan 200 by flexibly adjusting the length of the supporting structure 1. In the bent state, the first sleeve 11, the first pivot portion 131a and at least the first sleeve 11 extends out of the second sleeve 12 in the second pivot portion 132a, and the first pivot portion 131a and the second pivot portion 132a are connected in a bent manner at a predetermined angle, so that the first sleeve 11 and the second sleeve 12 are connected in a bent manner through the first bending connection assembly 13, in this embodiment, in the bent state, the first sleeve 11, the first pivot portion 131a and the second pivot portion 132b can also all extend out of the second sleeve 12. Under the state of buckling, fan 200 can change the air-out angle through the adjustment angle of buckling, and it is more convenient to use, promotes user experience.

In this embodiment, through supporting structure 1 of scalable buckling provides for the user can stretch out and draw back and accomodate, portable, can be used for the desktop or be used for ground support fan 200 has satisfied user's multiple use scene, convenient to use, has promoted user experience.

In this embodiment, the fan 200 further includes a supporting base 5, one end of the supporting structure 1 away from the fan main body 6 is mounted on the supporting base 5, and the electrical connection structure 17 is used for electrically connecting the fan main body 6 with the components inside the supporting base 5; the elements inside the support base 5 may comprise power supply components and/or switch control components. Through the supporting base 5, the fan 200 can be conveniently supported on a desktop or the ground, and the like, and the movable power supply and control functions of the fan 200 can be realized by adding elements such as a power supply assembly and/or a switch control assembly, so that the use scene is diversified, and the user experience is improved.

Referring to fig. 20, 21 and 22, fig. 20 is a perspective view of a lamp 300 with a supporting structure 1 capable of being extended and bent according to an embodiment of the present invention in a retracted state, fig. 21 is a perspective view of the lamp 300 shown in fig. 20 in a supporting state, and fig. 22 is a perspective view of the lamp 300 shown in fig. 20 in a bent state. The luminaire 300 comprises a light emitting assembly 4 and a support structure 1, wherein the support structure 1 is used for supporting the light emitting assembly 4.

In this embodiment, the supporting structure 1 may be the supporting structure 1 in any one of the above embodiments. It is understood that the detailed description of the specific structure of the retractable supporting structure 1 in the lamp 300 and the detailed description of the embodiment of the photographing supporting device 100 are provided, and only a brief description is provided here.

It can be understood that, in the present embodiment, the supporting structure 1 includes a first sleeve 11, a second sleeve 12 and a first bending connection assembly 13, wherein the first bending connection assembly 13 includes a first pivot 131 and a second pivot 132, the first pivot 131 includes a first pivot 131a and a first connection 131b connected to the first pivot 131a, and the first connection 131b is connected to one end of the first sleeve 11; the second pivot member 132 includes second pivot portion 132a and connects the second connecting portion 132b of second pivot portion 132a, second connecting portion 132b connects second sleeve 12, second pivot portion 132a with the pin joint of first pivot portion 131a makes bearing structure 1 can stretch out and draw back the bending, but the bearing structure 1 of flexible bending includes support state, bending state and contraction state, thereby makes lamps and lanterns 300 main part also can be in different height, angle, position etc. conveniently is applied to different scenes to improve user experience.

In detail, as shown in fig. 3 to 5, in the contracted state, the first sleeve 11, the first pivot portion 131a and the second pivot portion 132a are received in the second sleeve 12, the volume of the whole supporting structure 1 can be reduced to the volume of the second sleeve 12, and in the contracted state, the lamp 300 can be placed on a table for use. In the supporting state, the extending directions of the first sleeve 11 and the second sleeve 12 are the same, and at least a portion of the first sleeve 11 extends out of the second sleeve 12, in this embodiment, in the supporting state, a portion of the first sleeve 11 may further extend out of the second sleeve 12, and the other portion of the first sleeve 11, the first pivot portion 131a, and the second pivot portion 132a are all accommodated in the second sleeve 12; alternatively, the first sleeve 11 and the first pivot portion 131a both extend out of the second sleeve 12; alternatively, the first sleeve 11, the first pivot portion 131a and the second pivot portion 132a all extend out of the second sleeve 12. In addition, the first connecting portion 131b is accommodated in one end of the first sleeve 11; the second connecting portion 132b is accommodated in the second sleeve 12; in the support state, the lamp 300 may be used as a floor lamp, and a user may adjust the height of the lamp 300 by flexibly adjusting the length of the support structure 1. In the bent state, the first sleeve 11, the first pivot portion 131a and at least the first sleeve 11 extends out of the second sleeve 12 in the second pivot portion 132a, and the first pivot portion 131a and the second pivot portion 132a are connected in a bent manner at a predetermined angle, so that the first sleeve 11 and the second sleeve 12 are connected in a bent manner through the first bending connection assembly 13, in this embodiment, in the bent state, the first sleeve 11, the first pivot portion 131a and the second pivot portion 132b can also all extend out of the second sleeve 12. Under the state of buckling, lamps and lanterns 300 can change the angle of illumination through the angle of adjustment buckle, and it is more convenient to use, promotes user experience.

Further, the support structure 1 is used for supporting the light emitting assembly 4, wherein the electrical connection structure 17 is used for electrically connecting the light emitting assembly 4 with an element located on a side of the second sleeve 12 away from the light emitting assembly 4; the element on the side of the second sleeve 12 remote from the light emitting element 4 comprises a power supply element and/or a switch control element. Through electric connection structure 17 electricity connect light-emitting component 4 and power supply module or on-off control subassembly etc. convenience of customers is right light-emitting component 4's removal is used and is controlled, promotes user experience.

In this embodiment, through supporting structure 1 of scalable buckling provides for the user can stretch out and draw back and accomodate, portable, can be used for the desktop or be used for ground support lamps and lanterns 300 have satisfied user's multiple use scene, and convenient to use has promoted user experience.

Claims (15)

1. The supporting structure capable of being bent in a telescopic mode is characterized by comprising a telescopic pipe assembly and an electric connection structure which are connected in a telescopic mode, wherein the telescopic pipe assembly comprises a first sleeve, a second sleeve and a first bending connection assembly, the first bending connection assembly comprises a first pivot connection assembly and a second pivot connection assembly, the first pivot connection assembly comprises a first pivot connection portion and a first connection portion connected with the first pivot connection portion, and the first connection portion is used for being connected with one end of the first sleeve; the second pin joint part comprises a second pin joint part and a second connecting part connected with the second pin joint part, the second connecting part is used for connecting the second sleeve, the second pin joint part is used for being pin jointed with the first pin joint part, the electric connection structure sequentially passes through the inside of the second sleeve, the second pin joint part, the first pin joint part and the inside of the first sleeve, so that elements at two ends of the sleeve component can be electrically connected,

wherein the support structure capable of being bent and stretched comprises a support state, a bending state and a contraction state,

in the contracted state, the first sleeve, the first pivot part and the second pivot part are accommodated in the second sleeve,

in the supporting state, the extension directions of the first sleeve and the second sleeve are the same, and at least part of the first sleeve extends out of the second sleeve,

the bending state, first sleeve pipe first pin joint portion reaches in the second pin joint portion at least first sleeve pipe stretches out the second sleeve pipe, just first pin joint portion with second pin joint portion is and predetermines angle bending connection, and then first sleeve pipe with the second sleeve pipe passes through first bending connection subassembly bending connection.

2. The support structure of claim 1, wherein the first buckle connection assembly further comprises an auxiliary sleeve, the auxiliary sleeve being connected to the second connection portion and the auxiliary sleeve being connected to the second sleeve such that the second connection portion is connected to the second sleeve, the auxiliary sleeve also being received in the second sleeve in the collapsed state.

3. The support structure of claim 1, wherein the first connection portion is received in an end of the first sleeve; the second connecting part is accommodated in the second sleeve; in the bent state, the first sleeve, the first pivot portion and the second pivot portion all extend out of the second sleeve.

4. The support structure of claim 1, wherein the sleeve assembly further comprises a first connector sleeve telescopically slidably connected to an end of the first sleeve distal from the second sleeve, and the first connector sleeve slidably extends out of or is received in the first sleeve; the sleeve assembly further comprises a second connecting sleeve, the second connecting sleeve is telescopically and slidably connected to one end, far away from the first sleeve, of the second sleeve, and the second sleeve can slidably extend out or be accommodated in the second connecting sleeve.

5. The support structure of claim 1, wherein the electrical connection structure comprises a wire, the first pivot includes a first through hole passing through the first connection portion and/or the first pivot portion, the second pivot includes a second through hole passing through the second connection portion and/or the second pivot portion, and the wire passes through the second sleeve, the second through hole, the first through hole and the first sleeve in sequence.

6. The support structure of claim 1, wherein at least one of the first pivot and the second pivot is further secured to the electrical connection structure by glue.

7. The support structure of claim 1, wherein the electrical connection structure comprises a first portion of conductive lines, a second portion of conductive lines, a first electrical connection, and a second electrical connection,

the first electric connection part is arranged on the first pivot connection part or the first connection part, the second electric connection part is arranged on the second pivot connection part or the second connection part, the first electric connection part is in contact with the second electric connection part, one end of the first part of conducting wire is electrically connected with the first electric connection part, the other end of the first part of conducting wire extends to the inside of the first sleeve, one end of the second part of conducting wire is electrically connected with the second electric connection part, the other end of the second part of conducting wire extends to the inside of the second sleeve, and when the first pivot connection part rotates relative to the second pivot connection part, the first electric connection part rotates relative to the second electric connection part and keeps electric contact.

8. The support structure of claim 7, wherein one of the first electrical connection portion and the second electrical connection portion is an electrical connection post, the other of the first electrical connection portion and the second electrical connection portion is an electrical connection sheet, the electrical connection post includes an end surface adjacent to one side of the electrical connection sheet, the electrical connection sheet includes an outer side surface, the end surface of the electrical connection post contacts the outer side surface of the electrical connection sheet, and the end surface of the electrical connection post slides along the outer side surface of the electrical connection sheet when the first pivot portion rotates relative to the second pivot portion.

9. The support structure of claim 8, wherein the electrical connection post is disposed on the first connection portion, the electrical connection sheet is disposed on the second pivot portion and includes a fixing hole, the first pivot portion and the second pivot portion each include a pivot hole, the first bending connection assembly further includes a first pivot member, and the first pivot member pivotally connects the first pivot portion and the second pivot portion through the pivot hole of the first pivot portion, the pivot hole of the second pivot portion, and the through hole of the electrical connection sheet.

10. The support structure of claim 9, wherein the number of the electrical connection posts, the electrical connection tabs, the first portion of conductive wires, and the second portion of conductive wires are two, and each of the first portion of conductive wires is connected to a corresponding one of the electrical connection tabs, a corresponding one of the electrical connection posts, and a corresponding one of the second portion of conductive wires;

one of the first pivoting part and the second pivoting part comprises a first base body and a second base body arranged opposite to the first base body, each base body is provided with one pivoting hole, at least part of the other one of the first pivoting part and the second pivoting part is positioned between the two base bodies, and the first pivot sequentially penetrates through the pivoting hole of the first base body, the fixing hole of one of the electric connecting sheets, the pivoting hole of the other one of the first pivoting part and the second pivoting part, the fixing hole of the other one of the electric connecting sheets and penetrates into the pivoting hole of the second base body to pivot the first pivoting part and the second pivoting part.

11. A support device for photography, the support device comprising:

the clamping mechanism is used for clamping the shooting equipment; and

the support structure of any one of claims 1-10, wherein the support structure is configured to support the clamping mechanism.

12. The camera support of claim 11, further comprising a support base, an end of the support structure remote from the fixture being mounted on the support base, the electrical connection structure being for electrically connecting components on the fixture with components inside the support base; the element on the clamping mechanism comprises a light-emitting component; the components inside the support base include power supply components and/or switch control components.

13. A fan, characterized in that the fan comprises:

a fan main body;

a support structure as claimed in any one of claims 1 to 10, which is adapted to support the fan body.

14. The fan as claimed in claim 13, further comprising a support base, an end of the support structure remote from the fan body being mounted on the support base, the electrical connection structure being for electrically connecting the fan body with components inside the support base; the components inside the support base include power supply components and/or switch control components.

15. A light fixture, the light fixture comprising:

a light emitting assembly;

the support structure of any one of claims 1-10, for supporting the light emitting assembly,

wherein the electrical connection structure is used for electrically connecting the light-emitting component with an element positioned on one side of the second sleeve away from the light-emitting component; the element at the side of the second sleeve far away from the light-emitting component comprises a power supply component and/or a switch control component.

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