CN218208481U - Shoot support - Google Patents

Abstract

The utility model provides a shooting bracket, relating to the technical field of supporting devices, comprising a clamp and a first rod body, wherein the clamp is used for loading an electronic terminal; the first rod body is used for supporting the clamp; the first rod body is provided with a first rod part and a second rod part, and the first rod part is provided with a first light-emitting part; the first lever part may be rotatable with respect to the second lever part to make the first light emitting part illuminate to the second space, and after the first lever part is rotatable with respect to the second lever part to make the first light emitting part illuminate to the second space, the lens of the electronic terminal may face to the second space. The shooting support of embodiment, first light emitting part are equipped with first light emitting part, and the light that first light emitting part sent can carry out the light filling for the shooting environment at electronic terminal, are convenient for carry out the light filling illumination to shooting environment, and it is very convenient to use.

Description

Shooting support

Technical Field

The utility model relates to a strutting arrangement technical field, concretely relates to shoot support.

Background

The shooting support is a support used for shooting, for example, the shooting support can be from rapping bar, desktop support, multi-legged support, and current shooting support generally includes anchor clamps and the body of rod, and anchor clamps are used for loading electronic terminal, and electronic terminal can be cell-phone, flat board, camera etc..

The existing shooting support is not provided with a light supplementing assembly generally, and is inconvenient to use.

SUMMERY OF THE UTILITY MODEL

To prior art's defect and not enough, the utility model discloses a first aim at provides a shoot support.

The embodiment of the utility model provides a shooting bracket, which is characterized in that the shooting bracket comprises a clamp and a first rod body, wherein the clamp is used for loading an electronic terminal; the first rod body is used for supporting the clamp; the first rod body is provided with a first rod part and a second rod part, and the first rod part is provided with a first light-emitting part; the first lever part may be rotatable with respect to the second lever part so that the first light emitting part illuminates a second space or a first space, and the lens of the electronic terminal may face the second space after the first lever part is rotatable with respect to the second lever part so that the first light emitting part illuminates the second space, or the lens of the electronic terminal may face the second space after the first lever part is rotatable with respect to the second lever part so that the first light emitting part illuminates the first space.

Preferably, initially, the first light-emitting portion illuminates the first space.

Preferably, the clamp may be rotatable with respect to the first lever so that a lens of the electronic terminal may face the second space after the first lever is rotatable with respect to the second lever so that the first light emitting portion illuminates the second space, or may be rotatable with respect to the first lever so that a lens of the electronic terminal may face the first space after the first lever is rotatable with respect to the second lever so that the first light emitting portion illuminates the first space.

Preferably, after the first lever is rotatable with respect to the second lever so that the first light-emitting portion illuminates the second space, the jig is rotatable with respect to the first lever of the first lever so that the lens of the electronic terminal may face the second space, or, after the first lever is rotatable with respect to the second lever so that the first light-emitting portion illuminates the first space, the jig is rotatable with respect to the first lever of the first lever so that the lens of the electronic terminal may face the first space.

Preferably, the clamp is hinged to the first rod portion in a universal manner, or the clamp is connected to the first rod portion through a first flexible member, or the clamp is rotatably mounted to the first rod portion around a first rotation axis.

Preferably, after the first lever portion rotates about a third rotation axis with respect to the second lever portion so that the first light-emitting portion illuminates the second space, the jig rotates about the first rotation axis with respect to the first lever portion so that the lens of the electronic terminal can face the second space, or, after the first lever portion rotates about the third rotation axis with respect to the second lever portion so that the first light-emitting portion illuminates the first space, the jig rotates about the first rotation axis with respect to the first lever portion so that the lens of the electronic terminal can face the first space; the first axis of rotation intersects or intersects the third axis of rotation.

Preferably, the first space and the second space are respectively located at two opposite sides of the first rod body, the electronic terminal is provided with a first lens and a second lens, the first lens and the second lens are respectively located at two opposite sides of the electronic terminal, and an included angle between the first rotation axis and the third rotation axis is 75-90 °.

Preferably, the included angle between the first rotation axis and the third rotation axis is 90 °, the first rotation axis intersects with the third rotation axis, the first rod extends along a straight line, and the third rotation axis is parallel to the extending direction of the first rod.

Preferably, the clamp is retainable to the first stem portion; the included angle between the first rotating axis and the axis of the lens is 75-90 degrees; the clamp is provided with a back surface, the back surface of the clamp is rotatably arranged on the first rod part, the first rotating axis does not penetrate through the back surface of the clamp, and the minimum distance from the first rotating axis to the back surface of the clamp is less than or equal to 2cm; when the lens of the electronic terminal faces the second space or the first space, the back of the clamp is close to or attached to one side of the first rod body.

Preferably, the lens of the electronic terminal may be initially directed toward the first space.

Preferably, the first space is located at a side space of the first stick, and the second space is located at a side space of the first stick.

Preferably, the lens of the electronic terminal may be initially directed toward the first space after the first lever portion is rotated with respect to the second lever portion to cause the first light emitting portion to illuminate toward the second space, or may be directed toward the first space after the first lever portion is rotated with respect to the second lever portion to cause the first light emitting portion to illuminate toward the first space.

Preferably, the clamp is rotatably mounted on the first rod part around a second rotation axis, the display width direction of the electronic terminal can be changed by rotating the clamp around the second rotation axis, an included angle between the second rotation axis and a normal line of a display surface of the electronic terminal is less than or equal to 15 degrees, and the second rotation axis intersects or crosses with the first rotation axis; when the lens of the electronic terminal is shielded by the first rod body, the clamp rotates around the second rotation axis relative to the first rod body so as to prevent the lens of the electronic terminal from being shielded by the first rod body; the first rod portion may be held to the second rod portion, and the clamp may be held to the first rod portion.

Preferably, the first lever part further has a second light emitting part which illuminates the second space at an initial time, the second light emitting part illuminates the first space after the first lever part is rotatable with respect to the second lever part so that the first light emitting part illuminates the second space, or the second light emitting part illuminates the second space after the first lever part is rotatable with respect to the second lever part so that the first light emitting part illuminates the first space.

Preferably, the first rod part is hinged with the second rod part in a universal mode, or the first rod part is connected with the second rod part through a second flexible part.

The shooting support of this embodiment is implemented, and first light emitting part is equipped with first light emitting part, and the light that first light emitting part sent can carry out the light filling for the shooting environment of electron terminal, is convenient for carry out the light filling illumination to the shooting environment, and it is very convenient to use. The first rod part can rotate relative to the second rod part, the irradiation angle of the first light-emitting part can be adjusted, and after the irradiation angle of the first light-emitting part is adjusted, the lens direction of the electronic terminal can also be adjusted, so that the lens and the first light-emitting part point to the same space, and the shooting support is more convenient to use.

Furthermore, the first rod body is provided with a first light-emitting part, and a lens of the electronic terminal can face the same direction as the first light-emitting part, so that the electronic terminal is more convenient to use.

Furthermore, the first rod body is provided with two first light-emitting parts, so that the light supplement range of the shooting support is enlarged, and the use is more convenient.

Drawings

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

Fig. 1 is a schematic structural diagram of an implementation manner of a shooting bracket according to an embodiment of the present invention;

FIG. 2 is a perspective view of the camera stand of FIG. 1;

FIG. 3 is a schematic perspective view of another angle of the photographing support of FIG. 1;

FIG. 4 is a left side view of the camera stand of FIG. 1;

FIG. 5 isbase:Sub>A cross-sectional view of the photographing bracket shown in FIG. 4, taken along the line A-A;

FIG. 6 is an enlarged view of the structure at B in FIG. 5;

FIG. 7 is an enlarged view of the structure of FIG. 5 at C;

fig. 8 is a schematic structural view of the photographing bracket shown in fig. 1 after hiding the second rod part, the first connecting arm, and the like;

FIG. 9 is an enlarged view of the structure shown in FIG. 8 at D;

fig. 10 is a schematic structural view of the photographing bracket shown in fig. 1 after hiding structures such as the first rod part, the clamp, the second connecting part and the like;

fig. 11 is a schematic structural view of the camera stand shown in fig. 1 after the structures of the camera stand hiding jig, the second connecting part, and the like are completed;

FIG. 12 is an enlarged view of the structure at E in the structure shown in FIG. 11;

FIG. 13 is a schematic view from another angle of the structure shown in FIG. 11;

FIG. 14 is an enlarged view of the structure at F in the structure shown in FIG. 13;

FIG. 15 is a rear view of the photographing bracket shown in FIG. 1;

FIG. 16 is a sectional view of the photographing bracket shown in FIG. 15 taken along the line G-G;

fig. 17 is a state diagram of the photographing bracket shown in fig. 4 in which the electronic terminal is loaded (in which the first lens faces the second space and the second lens faces the first space);

fig. 18 is a state view of the photographing bracket shown in fig. 17 after the second lever portion is rotated with respect to the first lever portion such that the first light-emitting portion faces the second space (wherein the first lens faces the first space and the second lens faces the second space);

fig. 19 is a state diagram of the photographing bracket shown in fig. 18 after the clamp rotates relative to the first rod so that the first lens faces the second space and the second lens faces the first space;

FIG. 20 is a view of the camera stand of FIG. 17 after the clamp has been rotated relative to the first rod such that the first lens faces the first space and the second lens faces the second space;

FIG. 21 is a state view of the photographing bracket shown in FIG. 1 after being loaded with an electronic terminal;

FIG. 22 is a rear view of the photographing bracket shown in FIG. 21;

fig. 23 is a state view of the photographing bracket shown in fig. 21 after the first lever portion is rotated at an angle with respect to the second lever portion;

FIG. 24 is a schematic perspective view of the camera stand of FIG. 23 at another angle;

fig. 25 is a state view of the photographing bracket shown in fig. 1 after the jig is rotated at an angle about the second rotation axis;

fig. 26 is a schematic structural view of the photographing bracket shown in fig. 1 after the first lamp shade is hidden;

FIG. 27 is an enlarged view of the structure of FIG. 26 at H;

fig. 28 is a schematic structural view of the photographing bracket shown in fig. 1 after the second cover is hidden;

FIG. 29 is an enlarged view of the structure at I in the structure shown in FIG. 28;

fig. 30 is a schematic view showing the structure of a first lamp cover in the photographing bracket shown in fig. 1;

fig. 31 is a schematic view of another angled configuration of the first housing shown in fig. 30;

fig. 32 is a schematic structural view of a second lamp cover in the photographing bracket shown in fig. 1;

figure 33 is a schematic view of an alternate angle configuration of the second housing shown in figure 32;

fig. 34 is a schematic structural diagram of another implementation mode of the shooting stand shown in fig. 1.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The specific embodiments are only for explaining the present invention, and it is not a limitation to the present invention, and those skilled in the art can make modifications without contribution to the present embodiments as required after reading the present specification, but all the embodiments are protected by patent law within the scope of the present invention.

The embodiment of the utility model provides a shoot support, refer to fig. 1-33, including anchor clamps 100 and first body of rod 200, anchor clamps 100 are used for loading electronic terminal 300; the first rod 200 is used for supporting the clamp 100; the first rod 200 has a first rod 210 and a second rod 220, the first rod 210 has a first light-emitting portion 211, and the first light-emitting portion 211 illuminates the first space 201 initially; the first lever part 210 may be rotatable with respect to the second lever part 220 so that the first light-emitting part 211 illuminates the second space 202, and after the first lever part 210 may be rotatable with respect to the second lever part 220 so that the first light-emitting part 211 illuminates the second space 202, the lens 310 of the electronic terminal 300 may face the second space 202.

In the photographing bracket of the embodiment, the first light-emitting portion 211 is provided with the first light-emitting portion 211, light emitted by the first light-emitting portion 211 can supplement light for a photographing environment of the electronic terminal 300, and the photographing bracket is very convenient to use, and the first rod portion 210 can rotate relative to the second rod portion, so that an irradiation angle of the first light-emitting portion 211 can be adjusted, and after the irradiation angle of the first light-emitting portion 211 is adjusted, a direction of the lens 310 of the electronic terminal 300 can also be adjusted, so that the photographing bracket is more convenient to use.

Illustratively, the photographing bracket may be a handheld self-timer bracket, which may be used, for example, by holding the first stick body 200.

For example, the first rod 200 of the photographing bracket may be mounted to a support part 600 to become a desktop bracket, a floor bracket, a vehicle-mounted bracket, etc., the support part 600 may be a support plate, a spider, a magnetic suction part, an air suction cup, etc., and the support part 6004 may also be a hand-held part for facilitating hand holding.

For example, the clamp 100 may be directly or indirectly mounted to the first rod 200, e.g., the clamp 100 is directly mounted to the first rod 200, and e.g., the clamp 100 may be mounted to the first rod 200 via an intermediate member.

Illustratively, referring to fig. 1, 21, etc., the clip 100 has two clamping portions 110 (which may be stowed or open) that clamp the electronic terminal 300, e.g., the two clamping portions 110 (which may be stowed or open) may adjust the width of the clamp to accommodate different sized electronic terminals 300.

Illustratively, the fixture 100 has a magnetic portion for magnetically attracting the electronic terminal 300, and the magnetic portion magnetically attracts the electronic terminal 300 to thereby enable loading of the electronic terminal 300.

Illustratively, the clip 100 has a fixing portion for fixing the electronic terminal 300, which can fix the electronic terminal 300 to realize a device for the electronic terminal 300, for example, the fixing portion can be a screw.

Illustratively, the holder 100 has a suction cup for sucking the electronic terminal 300, the suction cup may be an air bag having an opening, and a suction cup exhaust gas may be sucked to the electronic terminal 300, thereby achieving loading of the electronic terminal 300.

For example, the first rod 200 may be a straight rod, a bent rod, or the like, and the first rod 200 may be a fixed-length rod or a telescopic rod.

For example, for a rod-shaped object such as the first rod 200, the space surrounding the rod may be divided into a side space and an end space, when the rod extends in the left-right direction, the side space of the rod includes an upper side space, a lower side space, a front side space, and a rear side space, and the end space of the rod includes a left end space and a right end space; when the rod body extends along the up-down direction, the side space of the rod body comprises a front side space, a rear side space, a left side space and a right side space, and the end space of the rod body comprises an upper end space and a lower end space; when the body of rod extends along the fore-and-aft direction, the side space of the body of rod includes upside space, downside space, left side space, right side space, and the end space of the body of rod includes front end space and rear end space.

For example, the side space of the rod body may be a space on the right side of the rod body, or may be a space on the oblique side of the rod body; the end space of the rod body can be a space right opposite to the end part of the rod body, and can also be a space obliquely opposite to the end part of the rod body.

For example, the first space 201 may be located at a side space or an end space of the first stick 200, and the second space 202 may be located at a side space or an end space of the first stick 200.

Illustratively, the electronic terminal 300 may be a mobile phone, a tablet, a camera, etc., and the electronic terminal 300 has a display surface 301 and a lens 310, and the display surface 301 is used for displaying a screen. The lens 310 and the display surface 301 are located on the same side or opposite sides of the electronic terminal 300, an angle between an axis of the lens 310 and the alignment line is 0-5 ° (e.g., 0 °, 1 °, 2 °, 3 °, 4 °, 5 °, etc.) (more preferably, an angle between an axis of the lens 310 and the alignment line is 0 °), for example, the display surface 301 is a plane, an angle between an axis of the lens 310 and a normal of the display surface 301 is 0-5 ° (e.g., 0 °, 1 °, 2 °, 3 °, 4 °, 5 °, etc.), or the display surface 301 is a curved surface, and an angle between an axis of the lens 310 and a normal of a point of the display surface 301 is 0-5 ° (e.g., 0 °, 1 °, 2 °, 3 °, 4 °, 5 °, etc.).

Specifically, the orientation of the lens 310 of the electronic terminal 300 refers to a direction toward the object to be photographed along the axis of the lens 310.

For example, the first light emitting part 211 may be a point light source or a surface light source, and the first light emitting part 211 may be a direct light source or a diffuse light source.

For example, referring to fig. 2, 26, 27, and the like, the first light-emitting portion 211 is a surface light source, the first light-emitting portion 211 includes a first lamp shade 211a and a plurality of first lamp beads 211b, the first rod portion 210 is provided with a first accommodating space 207a for accommodating the plurality of first lamp beads 211b, the first accommodating space 207a has a first opening 207b extending to the first rod portion 210, the first lamp shade 211a is used for covering the first opening 207b of the first accommodating space 207a, further, the first opening 207b extends to the surface of the first rod portion 210, the first lamp shade 211a is flush with the surface of the first rod portion 210, and light emitted by the first lamp beads 211b generates a scattering effect after passing through the first lamp shade 211 a.

For example, referring to fig. 2, 26, 27, etc., the first lamp cover 211a is fixedly installed at the first opening 207b of the first accommodating space 207a, for example, the first lamp cover 211a is glued to the first opening 207b of the first accommodating space 207a, and for example, the first lamp cover 211a is provided with a first clamping portion 211c, the first accommodating space 207a is provided with a second clamping portion 207c, and the first clamping portion 211c is clamped with the second clamping portion 207 c.

Illustratively, the first lever portion 210 is connected to the second lever portion 220 by a second flexible member, and the first lever portion 210 rotates relative to the first lever portion 210 by the second flexible member. Illustratively, the second flexible member may be an elastic member, a bellows, or the like, for example, the second flexible member may be a cylindrical spring. Rotation of the first lever portion 210 relative to the second lever portion 220 may be achieved by a second flexible member.

Illustratively, the first rod 210 is hinged to the second rod 220 in a universal manner, that is, the first rod 210 has two rotational degrees of freedom relative to the second rod 220, for example, the first rod 210 is connected to the second rod 220 by a universal joint, and for example, the first rod 210 is hinged to the second rod 220 in a ball joint manner (e.g., a ball head and a ball socket).

Illustratively, electronic terminal 300 has one or more lenses 310, and for electronic terminals 300 having multiple lenses 310, the orientation of lens 310 refers to the orientation of lens 310 that is currently being used. Illustratively, the lens 310 of the electronic terminal 300 includes a first lens 311 and a second lens 312, and the first lens 311 and the second lens 312 are respectively located at two opposite sides of the electronic terminal 300.

For example, the lens 310 of the electronic terminal 300 may face the second space 202, which means that after the first light-emitting portion 211 illuminates the second space 202, the lens 310 of the electronic terminal 300 faces the second space 202, or the orientation of the lens 310 of the electronic terminal 300 needs to be adjusted so that the lens 310 of the electronic terminal 300 faces the second space 202.

Referring to fig. 17 to 20, the second space 202 may be a space where the object to be photographed is located, and rotating the first rod 210 may cause the first light-emitting portion 211 to illuminate the second space 202, so that the object to be photographed in the second space 202 is illuminated, and further cause the lens 310 of the electronic terminal 300 to face the second space 202, so as to facilitate photographing of the object to be photographed by the photographing stand.

In some implementations of embodiments of the present invention, referring to fig. 17-19, after the first rod portion 210 is rotatable with respect to the second rod portion 220 so that the first light-emitting portion 211 illuminates the second space 202, the clamp 100 is rotatable with respect to the first rod body 200 so that the lens 310 of the electronic terminal 300 can face the second space 202.

For another example, the clamp 100 may be rotated with respect to the second shaft portion 220 so that the lens 310 of the electronic terminal 300 may be directed toward the second space 202.

In some implementations of embodiments of the present invention, referring to fig. 17-19, after the first rod portion 210 is rotatable with respect to the second rod portion 220 so that the first light-emitting portion 211 illuminates the second space 202, the clamp 100 is rotatable with respect to the first rod portion 210 of the first rod body 200 so that the lens 310 of the electronic terminal 300 can face the second space 202.

In some implementations of embodiments of the present invention, the clamp 100 is universally hinged to the first rod portion 210, or the clamp 100 is connected to the first rod portion 210 through a first flexible member. For example, the clamp 100 and the first rod 210 are connected by a universal joint, or the clamp 100 and the first rod 210 are connected by a ball joint, such as a ball head and a ball socket.

For another example, the first flexible member may be an elastic member such as a cylindrical spring, or the first flexible member may be a bellows.

In some implementations of embodiments of the present invention, referring to fig. 5, 7, 18, etc., the first rod portion 210 rotates around the third rotation axis 203 relative to the second rod portion 220 so that the first light-emitting portion 211 illuminates the second space 202, the clamp 100 rotates around the first rotation axis 501 relative to the first rod portion 210 so that the lens 310 of the electronic terminal 300 may face the second space 202, and the first rotation axis 501 intersects or crosses the third rotation axis 203.

When the first lever part 210 rotates with respect to the second lever part 220, the clamp 100 may rotate following the first lever part 210, and after the first lever part 210 rotates with respect to the second lever part 220 about the third rotation axis 203 so that the first light-emitting part 211 illuminates to the second space 202, the clamp 100 rotates with respect to the first lever part 210 about the first rotation axis 501 so that the lens 310 of the electronic terminal 300 may face to the second space 202. Embodiments of the present invention do not limit the relationship between the first rotation axis 501 and the third rotation axis 203.

In some implementations of the embodiment of the present invention, referring to fig. 17-22, etc., the first space 201 and the second space 202 are respectively located at two opposite sides of the first shaft 200, the electronic terminal 300 has the first lens 311 and the second lens 312, the first lens 311 and the second lens 312 are respectively located at two opposite sides of the electronic terminal 300, and the first rotation axis 501 and the third rotation axis 203 form an angle of 75 ° -90 ° (e.g., 75 °, 80 °, 85 °, 90 °, etc.). This has the advantage that if the first lens 311 is facing the second space 202, rotating the clamp 100 about the first rotation axis 501 can conveniently allow the second lens 312 to face the second space 202, and if the second lens 312 can face the second space 202, rotating the clamp 100 about the first rotation axis 501 can conveniently allow the first lens 311 to face the second space 202.

In some implementations of embodiments of the present invention, referring to fig. 5-7 and so on, the first rotation axis 501 and the third rotation axis 203 form an angle of 90 °, the first rotation axis 501 intersects with the third rotation axis 203, the first stick 200 extends along a straight line, and the third rotation axis 203 is parallel to the extending direction of the first stick 200. This has the advantage that if the first lens 311 is facing the second space 202, it is convenient to rotate the clamp 100 about the first rotation axis 501 so that the second lens 312 can be facing the second space 202, and if the second lens 312 is facing the second space 202, it is more convenient to rotate the clamp 100 about the first rotation axis 501 so that the first lens 311 can be facing the second space 202.

In some implementations of embodiments of the present invention, referring to fig. 5, 17, 20, etc., the clamp 100 can be retained to the first rod portion 210; the first rotation axis 501 forms an angle of 75 ° to 90 ° (e.g., 75 °, 80 °, 85 °, 90 °, etc.) with the axis of the lens 310; the clamp 100 has a back surface, the back surface 103 of the clamp 100 is rotatably mounted on the first rod portion 210, the first rotation axis 501 does not pass through the back surface 103 of the clamp 100, a minimum distance from the first rotation axis 501 to the back surface 103 of the clamp 100 is less than or equal to 2cm (e.g., 0.5cm, 1cm, 1.5cm, 2cm, etc.), and when the lens 310 of the electronic terminal 300 faces the second space 202, the back surface 103 of the clamp 100 is close to or attached to one side of the first rod portion 200.

In some implementations of the embodiment of the present invention, referring to fig. 17 and the like, initially, the lens 310 of the electronic terminal 300 may face the first space 201, that is, the lens 310 of the electronic terminal 300 initially faces the first space 201, or in an initial state, the lens 310 of the electronic terminal 300 may be adjusted to face the first space 201, for example, rotating the clamp 100 around the first rotation axis 501 may make the lens 310 of the electronic terminal 300 face the first space 201. Illustratively, initially, the second lens 312 of the electronic terminal 300 faces the first space.

For another example, referring to fig. 17 and the like, initially, the lens 310 of the electronic terminal 300 may face the second space 202, for example, the lens 310 of the electronic terminal 300 may face the second space 202 initially, or in an initial state, the lens 310 of the electronic terminal 300 may be adjusted to face the second space 202, for example, the clamp 100 may be rotated around the first rotation axis 501 so that the lens 310 of the electronic terminal 300 faces the second space 202. Illustratively, initially, the first lens 311 of the electronic terminal 300 faces the first space.

In some implementations of the embodiment of the present invention, referring to fig. 17 and the like, the first space 201 is located in a side space of the first stick 200, and the second space 202 is located in a side space of the first stick 200. Illustratively, when the first lever 210 rotates relative to the second lever 220, the first light-emitting portion 211 always illuminates a side space of the first stick 200.

For the first stick 200, the side space of the first stick 200 should be defined by the overall extending direction of the first stick 200.

Illustratively, the first space 201 and the second space 202 may be located at opposite sides or adjacent sides of the first stick body 200, for example, the first space 201 and the second space 202 may be located at opposite sides of the first stick body 200, and the first space 201 and the second space 202 do not intersect.

For example, referring to fig. 17 and the like, when the first space 201 and the second space 202 may be located at opposite sides of the first stick 200, the position of the first stick 200 itself or the position of the user with respect to the first stick 200, and the first space 201 and the second space 202 are respectively located at upper and lower sides, or left and right sides, or front and rear sides, and the like of the first stick 200.

Illustratively, referring to fig. 17, 20, etc., in a process in which the lens 310 of the electronic terminal 300 faces the first space 201 to the second space 202, a change angle of the direction is 165 ° or more and 180 ° or less (e.g., 165 °, 170 °, 175 °, 180 °, etc.). This has the advantage of enabling the multi-legged stand to adjust the shooting angle of the electronic terminal 300 to a greater extent. Specifically, the angle of change of the direction of the lens 310 refers to an angle between an initial direction of the using direction and a final direction thereof, and can be understood as an angle of a vector (which ranges from 0 to 180 °), that is, the angle of change of the direction of the lens 310 ranges from 0 ° or more to 180 ° or less.

For example, referring to fig. 17-20, etc., when the lens 310 of the electronic terminal 300 is oriented toward the first space 201, the back surface 103 of the clip 100 is close to or attached to the first side of the first stick 200, and when the lens 310 of the electronic terminal 300 is oriented toward the second space 202, the back surface 103 of the clip 100 is close to or attached to the second side of the first stick 200, the first side and the second side being respectively located at two opposite sides of the first stick 200.

For example, the clamp 100 may be held on the first stick 200 during the rotation process relative to the first stick 200 to change the direction of the lens 310.

For example, referring to fig. 6, 16, etc., the clamp 100 may be held on the first stick 200 during rotation relative to the first stick 200 by hand force of a user.

Illustratively, the clip 100 is directly or indirectly interference fitted with the first rod 200.

For example, in the process of rotating the clamp 100 relative to the first shaft 200 to change the orientation of the lens 310 of the electronic terminal 300, the clamp 100 may be locked to the first shaft 200, for example, the clamp 100 is fastened to the first shaft 200 by a fastener, or the clamp 100 is clamped to the first shaft 200 by a clamping structure. In the process of rotating the clamp 100 relative to the first shaft 200 to change the use direction of the electronic terminal 300, when the clamp 100 needs to be locked, the clamp 100 may be locked to the first shaft 200 by a fastener or a retaining structure.

Illustratively, the clamp 100 is configured to damp rotation of the first rod 200, and during the process of rotating the clamp 100 relative to the first rod 200 to change the usage direction of the electronic terminal 300, the clamp 100 can damp and hold on the first rod 200, for example, a damping ring is configured between the clamp 100 and the first rod 200, and the damping ring can be made of a flexible material. For another example, the first rod 200 is directly or indirectly in frictional contact with the clamp 100, so that frictional damping is generated between the first rod 200 and the clamp 100, and a frictional force may be generated between the first rod 200 and the clamp 100 by a fastener (e.g., the fastener applies a fastening force to the first rod 200 and the clamp 100 along the direction of the first rotation axis 501, and the fastener may be a screw, a rivet, or the like).

For example, the clamp 100 may be held at the first lever part 210 during a rotation process with respect to the first lever part 210 to change the direction of the lens 310.

For example, the clamp 100 may be held on the first rod 200 during the rotation process relative to the first rod 210 by the hand force of the user.

Illustratively, clip 100 is directly or indirectly interference fit with first stem portion 210.

Illustratively, during the process of rotating the clamp 100 relative to the first shaft portion 210 to change the orientation of the lens 310 of the electronic terminal 300, the clamp 100 can be locked to the first shaft portion 210, for example, the clamp 100 is fastened to the first shaft portion 210 by a fastener, or the clamp 100 is clamped to the first shaft portion 210 by a clamping structure. The clamp 100 can be locked to the first rod portion 210 by a fastener or a retaining structure when the clamp 100 needs to be locked during rotation of the clamp 100 relative to the first rod portion 210 to change the use direction of the electronic terminal 300. Illustratively, the clamp 100 is rotatably damped to the first rod portion 210, and the clamp 100 can be held in the first rod portion 210 in a damping manner during rotation of the clamp 100 relative to the first rod portion 210 to change the use direction of the electronic terminal 300, for example, a damping ring is provided between the clamp 100 and the first rod portion 210, and the damping ring can be made of a flexible material. For another example, the first shaft 210 directly or indirectly frictionally contacts the clamp 100 to generate frictional damping between the first shaft 210 and the clamp 100, and a fastener may generate frictional force between the first shaft 210 and the clamp 100 (e.g., the fastener applies fastening force to the first shaft 210 and the clamp 100 in the direction of the first rotation axis 501, and the fastener may be a screw, a rivet, or the like).

Specifically, referring to fig. 1, 2, and the like, the photographing bracket further includes a second connecting portion 510, the second connecting portion 510 is mounted to the clamp 100, the second connecting portion 510 is rotatable about a first rotation axis 501 with respect to the first lever portion 210, and the second connecting portion 510 is retainable to the first lever portion 210 so as to retain the clamp 100 to the first lever portion 210.

Illustratively, second connecting portion 510 is retained to first shaft portion 210 by the hand power of the user.

Illustratively, the first rod 200 and the second connecting portion 510 are directly or indirectly interference-fitted such that the first rod 200 is retained at the second connecting portion 510.

More specifically, referring to fig. 5, 6, 16, etc., the first fastener 400 causes the first rod portion 210 and the second connecting portion 510 to generate a damping force, the first fastener 400 includes a first fastening portion 410 and a second fastening portion 420, the first rod portion 210 is rotatably connected to the second connecting portion 510, the first fastening portion 410 and the second fastening portion 420 interact to cause the first rod portion 210 and the second connecting portion 510 to have a rotational damping force therebetween, the first fastening portion 410 is in tight contact with the first rod portion 210, and the second fastening portion 420 is in tight contact with the second connecting portion 510. After the first fastening member 400 is fastened, the first fastening portion 410 is directly fastened and contacted with the first rod portion 210, and the second fastening portion 420 is directly fastened and contacted with the second connecting portion 510, so that the first rod portion 210 and the second connecting portion 510 directly form a damping force, and the first rod portion 210 can be easily and quickly damped and arranged on the second connecting portion 510. The first fastener 400 may be a threaded fastener, a rivet, etc., for example, the first fastener 400 may be a combination of a nut and a screw, the first fastening portion 410 is a screw, and the second fastening portion 420 may be a nut, for example, the first fastener 400 may be a rivet, the first fastening portion 410 is a rivet body, and the second fastening portion 420 is a rivet portion.

Due to the action of the first fastener 400, pressure is applied between the first rod portion 210 and the second connecting portion 510, and when the first rod portion 210 tends to rotate relative to the second connecting portion 510, a static friction force is applied between the first rod portion 210 and the second connecting portion 510, so that a rotational damping force is applied between the first rod portion 210 and the second connecting portion 510. When the rotational torque between the first lever portion 210 and the second connecting portion 510 is smaller than the rotational damping force, the first lever portion 210 and the second connecting portion 510 are held to each other, and when the rotational torque between the first lever portion 210 and the second connecting portion 510 is larger than the rotational damping force, the first lever portion 210 rotates relative to the second connecting portion 510, thereby adjusting the angles of the jig 100 and the first rod 200.

The fastening force of the first fastening member 400 is adjustable, wherein the adjustment portion 430 may be provided at the first fastening portion 410 and/or the second fastening portion 420. This provides the advantage that as the damping force of the first shank portion 210 and the second connecting portion 510 becomes smaller, the first fastener 400 can be adjusted to increase the damping force between the first shank portion 210 and the second connecting portion 510.

The first fastening portion 410 includes a first connecting rod 411 and a first connecting head 412 disposed on the first connecting rod 411, the first connecting head 412 is in fastening contact with the first rod portion 210, the second fastening portion 420 is a threaded member in threaded connection with the first connecting rod 411, and the first connecting rod 411 passes through the first rod portion 210 and the second connecting portion 510 so that the first rod portion 210 is rotatably connected to the second connecting portion 510.

The first joint 412 is integrally provided to the first connecting rod 411, the first fastening member 400 is a screw, and the second fastening portion 420 is a nut; illustratively, the first connector 412 is screwed to the first connecting rod 411, the first connecting rod 411 is a threaded post, the first connector 412 is a nut, and the second fastening portion 420 is a nut. The first lever portion 210 rotates about the first rotation axis 501 with respect to the second connecting portion 510, the first connecting head 412 is provided with an adjusting portion 430 for adjusting the fastening force of the first fastening member 400, and the second fastening portion 420 is circumferentially fixed about the first rotation axis 501 with respect to the first lever portion 210. The advantage of this arrangement is that, on the one hand, when rotating the adjusting portion 430, the second fastening portion 420 is prevented from rotating along with the first connecting portion 412, thereby facilitating adjustment of the first fastening member 400, and on the other hand, because the second fastening portion 420 is in fastening contact with the second connecting portion 510 and is circumferentially fixed relative to the first rod portion 210, when the first rod portion 210 rotates relative to the second connecting portion 510, the second connecting portion 510 is prevented from driving the second fastening portion 420 to rotate, thereby preventing the first rod portion 210 from rotating relative to the second connecting portion 510 and causing loosening of the first fastening member 400.

The adjusting part 430 may be a groove, which may be a linear groove, a cross-shaped groove, a plum blossom groove, or a polygonal columnar groove; for example, the adjusting portion 430 may be a protrusion having a shape of a straight line, a protrusion having a shape of a cross, a protrusion having a shape of a plum blossom, or a protrusion having a polygonal shape.

The cross section of the second fastening portion 420 may be in a non-circular shape such as a polygon, a semicircle, an ellipse, etc., the first rod portion 210 is provided with the second receiving groove 205, the cross section of the second receiving groove 205 may be in a non-circular shape such as a polygon, a semicircle, an ellipse, etc. adapted to the second fastening portion 420, and the second fastening portion 420 is received in the second receiving groove 205, so that the second fastening portion 420 is circumferentially fixed with respect to the first rod portion 210; alternatively, the second fastening part 420 is provided with a groove with a non-circular cross section such as a polygon, a semicircle, an ellipse, etc., the first rod part 210 is provided with a corresponding protrusion, and the groove of the second fastening part 420 is matched with the protrusion of the first rod part 210 so that the second fastening part 420 is circumferentially fixed relative to the first rod part 210.

The first lever portion 210 has a first extension arm 211 and a second extension arm 212, the second connection portion 510 is located between the first extension arm 211 and the second extension arm 212, the first connection portion 411 sequentially passes through the first extension arm 211, the second connection portion 510 and the second extension arm 212, the first connection portion 412 is in fastening contact with the first extension arm 211, and the second fastening portion 420 is circumferentially fixed around the first rotation axis 501 with respect to the second extension arm 212. The advantage of providing the first extension arm 211 and the second extension arm 212 is that it is convenient to arrange the second fastening portion 420 and the first fastening portion 410 in such a manner that the second fastening portion 420 is circumferentially fixed with respect to the first rod portion 210, the first fastening portion 410 is in fastening contact with the first rod portion 210, and the second fastening portion 420 is in fastening contact with the second connecting portion 510.

The second extension arm 212 is provided with a second receiving groove 205, and the second fastening portion 420 is circumferentially fixed around the first rotation axis 501 relative to the second receiving groove 205. Specifically, the second receiving groove 205 is a polygonal groove, and the second fastening portion 420 is polygonal.

For example, referring to fig. 5, 6, 16, etc., the first extension arm 211 is provided with a first receiving groove 204, the first connection head is received in the first receiving groove 204, and/or the second fastening portion is received in the second receiving groove 205. The advantage of the first receiving groove 204 and the second receiving groove 205 is that the first connecting head and the second fastening portion are hidden, so that the rotating connection structure is more beautiful and compact.

Illustratively, in the case that the first extension arm is provided with the first receiving groove 204, the first extension arm is provided with a first cover 213, the first cover 213 is detachably mounted to the first receiving groove 204, and the first cover 213 encloses the first connector in the first receiving groove 204; in the case that the second extending arm is provided with the second receiving groove 205, the second extending arm is provided with a second cover 214, the second cover 214 is detachably mounted in the second receiving groove 205, and the second cover 214 seals the second fastening portion in the second receiving groove 205. The first cover 213 and the second cover 214 are provided to further hide the first connecting head and the second fastening portion, so that the rotating connection structure is more attractive and compact. When the first fastener needs to be adjusted, the second cover 214 or the first cover 213 can be detached.

For example, referring to fig. 5, 6, 16, etc., the first cover 213 is tightly fitted in the first receiving groove 204, and the second cover 214 is tightly fitted in the second receiving groove 205.

In order to make the second fastening portion 420 tightly contact with the second connecting portion 510, the second receiving groove 205 is disposed through the second extension arm 212.

In order to make the first connection head 412 tightly contact with the first extension arm 211, a retaining step 204a is disposed at the bottom of the first receiving groove 204, and the first connection head 412 tightly contacts with the retaining step 204a, so that the first connection head 412 tightly contacts with the first extension arm 211.

In some implementations of the embodiment of the present invention, the lens 310 of the electronic terminal 300 is initially directed toward the first space 201, and after the first lever portion 210 rotates relative to the second lever portion 220 to make the first light-emitting portion 211 illuminate the second space 202, the lens 310 of the electronic terminal 300 may be directed toward the second space 202.

In some implementations of embodiments of the present invention, the first lever portion 210 can be retained to the second lever portion 220.

Illustratively, the first lever portion 210 may be held to the second lever portion 220 directly using the hand strength of the user.

Illustratively, the first rod portion 210 is rotatably mounted to the second rod portion 220, and the first rod portion 210 and the second rod portion 220 are in interference fit directly or indirectly.

Illustratively, for example, during the rotation of the first shaft 210 relative to the second shaft 220, the first shaft 210 may be fastened to the first shaft 200 by a fastener, or the first shaft 210 may be held to the first shaft 200 by a holder.

For another example, referring to fig. 7, 9, 10, etc., the first lever portion 210 is rotationally and rotationally damped coupled to the second lever portion 220. For example, the first rod portion 210 is directly or indirectly connected with the second rod portion 220 in a rotation damping manner, for example, a second damping ring 230 is disposed between the first rod portion 210 and the second rod portion 220, the second damping ring 230 may be supported by a flexible material, and for example, the first rod portion 210 and the second rod portion 220 are directly or indirectly in frictional contact, so that a frictional damping is generated between the first rod portion 210 and the second rod portion 220, for example, a frictional force may be generated between the first rod portion 210 and the second rod portion 220 by a fastener (for example, when the first rod portion 210 rotates around the third rotation axis 203 relative to the second rod portion 220, the fastener applies a fastening force to the first rod portion 210 and the second rod portion 220 in the direction of the third rotation axis 203, and the fastener may be a screw or a rivet).

More specifically, referring to fig. 7, 9, 10, etc., the first shaft portion 210 is non-detachably mounted to the second shaft portion 220 in the direction of the third rotation axis 203, the third fastener 240 passes through the first shaft portion 210 and is fastened to the second shaft portion 220 such that the first shaft portion 210 is non-detachably mounted to the second shaft portion 220 (or the third fastener 240 passes through the second shaft portion 220 and is fastened to the first shaft portion 210 such that the first shaft portion 210 is non-detachably mounted to the second shaft portion 220), the third fastener 240 may be a threaded fastener, a rivet, etc., and the third fastener 240 is coaxial with the third rotation axis 203.

More specifically, referring to fig. 7, 9, 10, etc., the third fastening member 240 is a threaded fastening member, a threaded shaft of the third fastening member 240 passes through the second shaft 220 to be in threaded connection with the mounting post of the first shaft 210, a head of the third fastening member 240 serves to block the second shaft 220, and when the first shaft 210 rotates relative to the second shaft 220, the third fastening member 240 is circumferentially fixed relative to the second shaft 220, so that the third fastening member 240 is prevented from rotating relative to the second shaft 220, and the first shaft 210 is prevented from being separated from the second shaft 220.

Also illustratively, the third fastener 240 is a threaded fastener, the threaded shaft of the third fastener 240 passes through the second shaft 220 to be threadedly coupled with the mounting post of the first shaft 210, and the head of the third fastener 240 serves to retain the second shaft 220.

More specifically, referring to fig. 7, 9, 10, etc., the second lever part 220 is provided with a third rotating part 221, the first lever part 210 is provided with a fourth rotating part 215, the third rotating part 221 is rotatably mounted on the fourth rotating part 215, a second damping ring 230 is provided between the third rotating part 221 and the fourth rotating part 215, more specifically, the third rotating part 221 is a cylindrical protrusion, the fourth rotating part 215 is a cylindrical groove, and the third rotating part 221 is received in the fourth rotating part 215, or the third rotating part 221 is a cylindrical groove, the fourth rotating part 215 is a cylindrical protrusion, and the fourth rotating part 215 is received in the third rotating part 221.

In some implementations of embodiments of the present invention, referring to fig. 17-20 and the like, the first rod portion 210 further has a second light emitting portion 216, the second light emitting portion 216 initially illuminates the second space 202, and the second light emitting portion 216 illuminates the first space 201 after the first rod portion 210 is rotatable relative to the second rod portion 220 such that the first light emitting portion 211 illuminates the second space 202.

For example, the second light emitting part 216 may be a point light source or a surface light source, and the second light emitting part 216 may be a direct light source or a diffuse light source.

Illustratively, referring to fig. 28, 29 and the like, the second light-emitting part 216 is a surface light source, the second light-emitting part 216 includes a second lamp shade 216a and a plurality of second lamp beads 216b, the second rod portion 210 is provided with a second accommodating space 208a for accommodating the plurality of second lamp beads 216b, the second accommodating space 208a has a second opening 208b extending to the first rod portion 210, the second lamp shade 216a is used for covering the second opening 208b of the second accommodating space 208a, further, the second opening 208b extends to the surface of the first rod portion 210, the second lamp shade 216a is flush with the surface of the second rod portion 210, and light emitted by the second lamp beads 216b generates a scattering effect after passing through the second lamp shade 216 a.

For example, the second lamp cover 216a is fixedly installed at the second opening 208b of the second accommodating space 208a, for example, the second lamp cover 216a is glued to the second opening 208b of the second accommodating space 208a, and for example, the second lamp cover 216a is provided with a third clamping portion 216b, the second accommodating space 208a is provided with a fourth clamping portion 208c, and the third clamping portion 216b is clamped to the fourth clamping portion 208 c.

In some implementations of embodiments of the present invention, the first rod portion 210 is hinged to the second rod portion 220 in a universal manner, or the first rod portion 210 is connected to the second rod portion 220 through a second flexible member.

For example, the clamp 100 may be directly or indirectly rotatably mounted to the first rod 200, for example, the clamp 100 is directly rotatably mounted to an end of the first rod 200, and the clamp 100 may be rotated relative to the end of the first rod 200 to change the orientation of the usage direction of the electronic terminal 300. For another example, the clamp 100 can be rotatably mounted to the first rod 200 via an intermediate member.

In the embodiment of the present invention, the included angle between the line and the line is defined as greater than or equal to 0 ° and less than or equal to 90 °, and the intersection between the line and the line means that two straight lines intersect at an intersection point (in this case, the included angle between the line and the line is greater than 0 ° and less than or equal to 90 °), and the intersection between the line and the line means that two straight lines are not parallel (in this case, the included angle between the line and the line is greater than 0 ° and less than or equal to 90 °). Line-to-line intersections or crossings are understood to mean that a line intersects a line at an intersection point, or that a line intersects a line at an opposite, but non-parallel, plane.

Specifically, referring to fig. 1, 16, 25, etc., the clamp 100 may be rotated about the second axis of rotation 101 to change the displayed orientation of the electronic terminal 300, which may be, for example, a banner, a vertical banner, a diagonal banner, etc.

The clamp 100 is rotatably mounted to the first rod 200 about the second rotation axis 101, and specifically, the clamp 100 is rotatably mounted to the first rod 210 of the first rod 200 about the second rotation axis 101.

More specifically, the clamp 100 is rotatably mounted to the second connection portion 510 about the second rotation axis 101 to adjust the display width direction of the electronic terminal 300, and the second connection portion 510 is mounted to the first shaft portion 210 of the first lever 200.

In some implementations of the embodiment of the present invention, referring to fig. 17-20, and so on, initially, the usage direction of the electronic terminal 300 is toward the first space 201, the clamp 100 is rotatable relative to the first rod 200 so that the usage direction of the electronic terminal 300 can be toward the second space 202, the first space 201 and the second space 202 are not intersected, and the first space 201 and the second space 202 are respectively located at two opposite sides of the first rod 200. Specifically, the first space 201 and the second space 202 are respectively located at two opposite sides of the first rod 200, that is, the first rod 200 is located between the first space 201 and the second space 202.

Illustratively, the electronic terminal 300 has a use surface, which is the outer end surface of the lens 310 or the display surface 301 of the electronic terminal 300, and a use ray is formed through the use surface of the electronic terminal 300 and along the use direction.

Specifically, the use direction of the electronic terminal 300 toward the first space 201 means that the use ray may extend toward the first space 201, and the use direction of the electronic terminal 300 toward the second space 202 means that the use ray may extend toward the second space 202.

Illustratively, the direction of use is the lens 310 of the electronic terminal 300, and the clamp 100 is rotatable relative to the first shaft 200, so that the electronic terminal 300 can be shot from top to bottom, from top to top, from left to right, from right to left, from front to back, from back to front, and the like. Taking the electronic terminal 300 as a reference, the downward direction of the lens 310 is downward shooting, the upward direction of the lens 310 is upward shooting, the left direction of the lens 310 is left shooting, the right direction of the lens 310 is right shooting, the front direction of the lens 310 is front shooting, and the back direction of the lens 310 is back shooting.

For example, the use direction is a display orientation of the electronic terminal 300, and the rotation of the clamp 100 relative to the first stick 200 can enable the electronic terminal 300 to display from top to bottom, from left to right, from right to left, from front to back, from back to front, and the like. With the electronic terminal 300 as a reference, the display surface 301 faces downward for downward display, the display surface 301 faces upward for upward display, the display surface 301 faces left for left display, the display surface 301 faces right for right display, the display surface 301 faces forward for front display, and the display surface 301 faces backward for back display.

In some implementations of the present invention, referring to fig. 17 and 20 (or fig. 18 and 19), in a process that the usage direction of the electronic terminal 300 is oriented toward the first space 201 to the second space 202, a change angle of the usage direction is 165 ° or more and 180 ° or less (for example, 165 °, 170 °, 175 °, 180 ° or the like). This arrangement has an advantage of enabling the photographing bracket to adjust the photographing angle of the electronic terminal 300 to a wide range.

Specifically, the use direction change angle is an angle between the initial direction of the use direction and the final direction thereof, and can be understood as an angle of a vector (which ranges from 0 ° to 180 °), that is, the range of the change angle of the use direction is 0 ° or more and 180 ° or less.

In some implementations of the embodiment of the present invention, referring to fig. 17 and 20, when the usage direction of the electronic terminal 300 is toward the first space 201, the back 103 of the clamp 100 is close to or attached to the first side of the first rod 200, and when the usage direction of the electronic terminal 300 is toward the second space 202, the back 103 of the clamp 100 is close to or attached to the second side of the first rod 200, and the first side and the second side are respectively located at two opposite sides of the first rod 200.

In some implementations of embodiments of the present invention, referring to fig. 17 and 20, etc., the clamp 100 can rotate around the first rotation axis 501 relative to the first rod 200 to change the orientation of the usage direction of the electronic terminal 300, and has a positioning line along the usage direction of the electronic terminal 300, and the included angle between the first rotation axis 501 and the positioning line is greater than or equal to 75 ° and less than or equal to 90 ° (e.g., 75 °, 80 °, 85 °, 90 °, etc.);

the location line may be a normal line of the display surface 301 of the electronic terminal 300, or an axis of the lens 310 of the electronic terminal 300.

In some implementations of embodiments of the present invention, referring to fig. 17, 18, 23, etc., the first rod 200 extends along a first extension line, and the clamp 100 rotates around the third rotation axis 203 relative to the first rod 200 so that the electronic terminal 300 can rotate around the third rotation axis 203 in a full rotation or a partial rotation. This arrangement has an advantage of facilitating adjustment of the position of the jig 100 with respect to the first stick 200, thereby facilitating adjustment of the use direction of the electronic terminal 300.

Illustratively, the first extension line is a straight line, and the first rod 200 is a rod formed by sleeving a straight rod or a plurality of straight rods.

Illustratively, the first extension line is an arc, and the first rod 200 is a rod formed by sleeving a bent rod or a plurality of bent rods.

Illustratively, the first extension line may also be a curve such as a wavy line, a broken line, or the like.

Illustratively, the first extension line is a straight line and the third rotation axis 203 is parallel to the first extension line.

Illustratively, the first rod 200 has a first central axis 206, and the third rotation axis 203 may be the first central axis 206 of the first rod 200.

Illustratively, the electronic terminal 300 is capable of rotating around the third rotation axis 203 for a full circle (i.e., a full circle), i.e., the electronic terminal 300 is capable of rotating around the third rotation axis 203 for 360 °.

Illustratively, the electronic terminal 300 may rotate partially around the third rotation axis 203, i.e. the electronic terminal 300 may rotate less than 360 ° around the third rotation axis 203, such as 270 °, 180 °, 90 ° and so on.

Illustratively, the electronic terminal 300 is rotatable around the third rotation axis 203 in a full circle, and the usage direction of the electronic terminal 300 may be oriented to pitch, left and right, or the usage direction of the electronic terminal 300 may be oriented to pitch, front and back, or the usage direction of the electronic terminal 300 may be oriented to left, right, front and back.

Illustratively, the clamp 100 is directly or indirectly rotatably mounted to the first shaft 200 about a third axis of rotation 203, the clamp 100 is pivotally or spherically mounted to the first shaft 200, e.g., the clamp 100 is pivotally mounted to the first shaft 200, and the clamp 100 is rotatable about the third axis of rotation 203 relative to the first shaft 200.

For example, the third rotation axis 203 forms an angle of 15 ° or less with the first central axis 206, and the third rotation axis 203 intersects or intersects the first rotation axis 501.

For example, referring to fig. 1, the photographing bracket further includes a second connecting portion 510, the second connecting portion 510 is rotatable about a first rotation axis 501 with respect to the first rod 200, and the clamp 100 is rotatable about a second rotation axis 101 with respect to the second connecting portion 510, so that the electronic terminal 300 is adjusted to other angles of use.

And rotating the clamp 100 around the first rotation axis 501 and/or the second rotation axis 101 may enable the usage direction of the electronic terminal 300 to be oriented in a vertical direction, thereby facilitating the usage of the electronic terminal 300 in the vertical direction, such as nodding, pitching, etc.

Of course, in this case, the second connecting portion 510 is rotatable about the first rotation axis 501 relative to the first rod 200, and the clamp 100 is rotatable about the second rotation axis 101 relative to the second connecting portion 510, so that the electronic terminal 300 can be adjusted to other angles of use.

More specifically, referring to fig. 16 and the like, the second connecting portion 510 is rotatable about a first rotation axis 501 with respect to the first rod 200, and an included angle between the first rotation axis 501 and the positioning line is greater than or equal to 75 ° and less than or equal to 90 °; the second connecting portion 510 is rotatable around a second rotation axis 101 relative to the clamp 100, the second connecting portion 510 is mounted on the clamp 100, the second rotation axis 101 intersects or crosses the first rotation axis 501, and an included angle between the second rotation axis 101 and a positioning line is less than or equal to 15 °. The advantage of this arrangement is that the electronic terminal 300 can rotate around the first rotation axis 501 and the second rotation axis 101, so that the use angle of the electronic terminal 300 can be adjusted in two directions, and the shooting bracket is more convenient to use.

Exemplarily, the angle between the first rotation axis 501 and the positioning line is greater than or equal to 75 ° and less than or equal to 90 °, which means that the angle between the first rotation axis 501 and the positioning line is greater than or equal to 75 ° and less than or equal to 90 °. The fact that the included angle between the second rotation axis 101 and the positioning line is less than or equal to 15 degrees means that the included angle between the second rotation axis 101 and the positioning line is less than or equal to 15 degrees.

When the second connecting portion 510 rotates around the first rotation axis 501 with respect to the first stick 200, the use direction of the electronic terminal 300 changes.

Referring to fig. 16, 25, and so on, when the clamp 100 is rotatable about the second rotation axis 101 with respect to the second connection portion 510, the display width direction of the electronic terminal 300 may be adjusted, for example, the display width direction may be a banner, a vertical, a slant, and so on. For another example, when the lens 310 is shielded by the first stick body, the clamp 100 can rotate around the second rotation axis 101 relative to the second connecting portion 510, so that the lens 310 can be separated from the shield.

In the embodiment of the present invention, the included angle between the line and the line is defined as greater than or equal to 0 ° and less than or equal to 90 °, and the intersection between the line and the line means that two straight lines intersect at an intersection point (in this case, the included angle between the line and the line is greater than 0 ° and less than or equal to 90 °), and the intersection between the line and the line means that two straight lines are not parallel (in this case, the included angle between the line and the line is greater than 0 ° and less than or equal to 90 °). The second rotation axis 101 intersects or crosses the first rotation axis 501, which means that the second rotation axis 101 intersects with the first rotation axis 501 at a crossing point, or the second rotation axis 101 is not parallel to but opposite to the first rotation axis 501.

Illustratively, the angle between the first rotation axis 501 and the positioning line may be 75 °, 80 °, 85 °, 90 °, and so on.

For example, the included angle between the second rotation axis 101 and the positioning line may be 0 °, 5 °, 10 °, 15 °, and the like, and when the included angle between the second rotation axis 101 and the positioning line is 0 °, the use angle of the electronic terminal 300 may be more conveniently adjusted.

When the included angle between the first rotating axis 501 and the positioning line is 90 ° and the included angle between the second rotating axis 101 and the positioning line is 0 °, the use angle of the electronic terminal 300 can be adjusted more conveniently.

In some implementations of embodiments of the present invention, referring to fig. 16 and the like, the included angle between the first rotation axis 501 and the second rotation axis 101 is greater than or equal to 75 ° and less than or equal to 90 °, such as 75 °, 80 °, 85 °, 90 °, and the like.

Illustratively, the first rotation axis 501 is perpendicular to the second rotation axis 101, and the first rotation axis 501 intersects the second rotation axis 101, so that the shooting bracket has the advantage of being more compact.

For example, the second connection portion 510 may be directly or indirectly held to the first rod 200.

For example, the second connecting portion 510 can be retained on the first rod 200 by the hand strength of a person;

for example, the second connection portion 510 is directly or indirectly interference-fitted with the first rod 200.

For example, the second connecting portion 510 may be fastened to the first rod 200 by a fastener during the rotation of the second connecting portion 510, and for example, the second connecting portion 510 may be fastened to the first rod 200 by a fastener during the rotation of the second connecting portion 510.

For another example, the first rod 200 is connected to the second connecting portion 510 directly or indirectly in a rotationally damping manner, and the second connecting portion 510 is connected to the clamp 100 in a rotationally damping manner. First rod 200 is directly connected to second connection portion 510 in a rotationally damping manner, for example, a damping ring is disposed between first rod 200 and second connection portion 510, the damping ring may be made of a flexible material, and for example, first rod 200 and second connection portion 510 are directly or indirectly in frictional contact, so that frictional damping is generated between first rod 200 and second connection portion 510, and a frictional force may be generated between first rod 200 and second connection portion 510 by a fastener (for example, the fastener applies a fastening force to first rod 200 and second connection portion 510 along a direction of first rotation axis 501, and the fastener may be a threaded member, a rivet, or the like).

More specifically, the first stick 200 includes the second stick 220 and the first stick 210, the second connecting portion 510 may be held at the first stick 210,

for example, the second connecting portion 510 can be held on the first rod portion 210 by the hand force of a person;

for example, second coupling portion 510 is directly or indirectly interference fit with first stem portion 210.

For example, the second connecting portion 510 may be fastened to the first shaft portion 210 by a fastener during rotation of the second connecting portion 510 with respect to the first shaft portion 210, or the second connecting portion 510 may be held to the first shaft portion 210 by a holder.

For another example, the first lever portion 210 is rotationally coupled to the second coupling portion 510 (about the first rotational axis 501) in a damped manner. For example, a damping ring is disposed between the first rod portion 210 and the second connecting portion 510, the damping ring may be made of a flexible material, for example, the first rod portion 210 and the second connecting portion 510 are directly or indirectly in frictional contact, so that frictional damping is generated between the first rod portion 210 and the second connecting portion 510, and a frictional force may be generated between the first rod portion 210 and the second connecting portion 510 by a fastener (for example, the fastener applies a fastening force to the first rod 200 and the second connecting portion 510 along the direction of the first rotation axis 501).

For example, the clip 100 may be directly or indirectly retained to the second connection portion 510.

For example, the clip 100 may be held to the second connecting portion 510 by a force of a human hand;

for another example, the clip 100 is directly or indirectly interference-fitted with the second connection portion 510 such that the clip 100 is held to the second connection portion 510.

The clamp 100 may be fastened to the second connecting portion 510 by a fastener, for example, during rotation of the clamp 100 with respect to the second connecting portion 510, or the clamp 100 may be caught to the second connecting portion 510 by a catch.

For another example, referring to fig. 16 and the like, the second connection portion 510 is directly or indirectly connected with the clamp 100 in a rotation damping manner, for example, a first damping ring 530 is disposed between the clamp 100 and the second connection portion 510, the first damping ring 530 may be made of a flexible material, and for another example, the clamp 100 is directly or indirectly in a friction contact with the second connection portion 510, so as to generate a friction damping between the clamp 100 and the second connection portion 510, for example, a friction force may be generated between the clamp 100 and the second connection portion 510 by a fastener (for example, the fastener applies a fastening force to the clamp 100 and the second connection portion 510 along the direction of the second rotation axis 101, and the fastener may be a screw, a rivet, and the like).

More specifically, referring to fig. 16 and the like, the second connecting portion 510 is non-detachably mounted to the clamp 100 in the direction of the second rotation axis 101, the second fastener 520 is fixedly coupled to the clamp 100 through the second connecting portion 510 such that the second connecting portion 510 is non-detachably mounted to the clamp 100 (or the second fastener 520 is fixedly coupled to the second connecting portion 510 through the clamp 100 such that the second connecting portion 510 is non-detachably mounted to the clamp 100), the second fastener 520 may be a threaded fastener, a rivet or the like, the second fastener 520 is coaxial with the second rotation axis 101, specifically, the second fastener 520 is a threaded fastener, a threaded rod of the second fastener 520 is threaded to the mounting post 1d of the clamp 100 through the second connecting portion 510, a head of the second fastener 520 serves to block the second connecting portion 510 from being separated from the clamp 100, and when the clamp 100 is rotated relative to the second connecting portion 510, the second fastener 520 rotates with the clamp 100, thereby preventing the second fastener 520 from rotating relative to the clamp 100 to cause the second fastener 520 to be separated from the clamp 100. Also illustratively, the second fastener 520 is a threaded fastener, a threaded shaft of the second fastener 520 is threaded through the clamp 100 to the second coupling portion 510, and a head of the second fastener 520 serves to retain the clamp 100 from disengaging the clamp 100 from the second coupling portion 510.

More specifically, referring to fig. 16 and the like, the clamp 100 is provided with a first rotating portion 120, the second connecting portion 510 is provided with a second rotating portion 511, the first rotating portion 120 is rotatably mounted on the second rotating portion 511, a first damping ring 530 is provided between the first rotating portion 120 and the second rotating portion 511, more specifically, the first rotating portion 120 is a cylindrical groove, the second rotating portion 511 is a cylindrical protrusion, and the second rotating portion 511 is accommodated in the first rotating portion 120, or alternatively, the first rotating portion 120 is a cylindrical protrusion, the second rotating portion 511 is a cylindrical groove, and the first rotating portion 120 is accommodated in the second rotating portion 511.

Illustratively, referring to fig. 16 and the like, the second connecting portion 510 is mounted on the back surface 103 of the jig 100, the back surface 103 of the jig 100 is located on a plane, the first rotation axis 501 is parallel to the back surface 103 of the jig 100, and a distance from the first rotation axis 501 to the back surface 103 of the jig 100 is less than or equal to 2cm. This has the advantage that the camera support is more compact.

Illustratively, during rotation of the jig 100 about the second axis of rotation 101, the first axis of rotation 501 is constantly parallel to the back surface 103 of the jig 100, e.g., the second axis of rotation 101 is perpendicular to the first axis of rotation 501.

Illustratively, the distance of the first axis of rotation 501 from the back side 103 of the jig 100 may be 2cm, 1.5cm, 1cm, or the like.

Illustratively, referring to fig. 16 and the like, the second connecting portion 510 is mounted on the back surface 103 of the clamp 100, the first rotation axis 501 does not pass through the back surface 103 of the clamp 100, and the minimum distance from the back surface 103 of the clamp 100 to the first rotation axis 501 is less than or equal to 2cm (e.g., may be 2cm, 1.5cm, 1cm, etc.).

Specifically, for the fixture 100, the side for loading the electronic terminal 300 is the front side, the side facing away from the electronic terminal 300 is the back side 103 of the fixture 100, the main body of the fixture 100 is partially or completely located between the back side 103 of the fixture 100 and the front side of the fixture 100, and the back side 103 of the fixture 100 may be a plane, a folded surface, a curved surface, a convex surface, a concave surface, and the like.

Illustratively, the minimum distance from the back surface 103 of the clamp 100 to the first axis of rotation 501 may be 2cm, 1.5cm, 1cm, or the like.

Obviously, the back surface 103 of the clamp 100 should be understood as a limited surface occupied by the back surface, and the first rotation axis 501 not passing through the back surface 103 of the clamp 100 means that the first rotation axis 501 does not pass through the limited surface occupied by the back surface 103 of the clamp 100, i.e. the first rotation axis 501 does not intersect the back surface 103 of the clamp 100.

Specifically, the minimum value of the distance from any point on the back surface 103 of the jig 100 to the first rotation axis 501 is the minimum distance from the back surface 103 of the jig 100 to the first rotation axis 501.

Specifically, when the jig 100 is rotated relative to being rotated about the second rotation axis 101, the minimum distance from the back surface 103 of the jig 100 to the first rotation axis 501 may be changed or not changed.

For example, referring to fig. 1, 25, etc., the second connecting portion 510 is mounted on the back surface 103 of the clamp 100, and when the first rod 200 is located in the space on the back surface 103 side of the clamp 100, the clamp 100 can rotate around the second rotation axis 101. This arrangement has an advantage that when the first stick 200 is located in the space on the back surface 103 side of the clip 100, it is convenient to adjust the angle of the clip 100 in a wide range, thereby adjusting the display aspect of the electronic terminal 300 in a wide range.

In another example, referring to fig. 4, 25, etc., the second connecting portion 510 is mounted on the back surface 103 of the clamp 100, the first rod 200 has a first approaching portion 200a approaching the clamp 100, and when the first approaching portion 200a of the first rod 200 is located on the back surface 103 side of the clamp 100, the clamp 100 can rotate around the second rotation axis 101.

Illustratively, referring to fig. 17 and the like, the first rod 200 has a first central axis 206, the first central axis 206 intersects the first rotation axis 501 to form a first separation plane 209, the back surface 103 of the clamp 100 is located in a plane, when the first separation plane 209 is parallel to the back surface 103 of the clamp 100 and the clamp 100 rotates around the second connecting portion 510 in a full circle, the surface of the first rod 200 has a sweep area 2010, the sweep area 2010 sweeps the back surface 103 of the clamp 100, and the maximum distance from the sweep area 2010 to the first separation plane 209 is smaller than or equal to the distance between the first separation plane 209 and the back surface 103 of the clamp 100. This has the advantage of avoiding interference of the first rod 200 with the clamp 100 during full rotation of the clamp 100 about the second connection 510. Obviously, the swept area 2010 is located between the back surface 103 of the clamp 100 and the first parting plane 209, and the swept area 2010 may be made to oppose the back surface 103 of the clamp 100 when the clamp 100 is rotated about the second axis of rotation 101.

Illustratively, first rod 200 has a first central axis 206, and the whole first rod 200 or the main portion of first rod 200 has a first central axis 206, and when a line of geometric shapes satisfying the centroid of the cross-section is a straight line, the line of geometric shapes satisfying the centroid of the cross-section is the central axis of the geometric shapes, that is, the line of first rod 200 having first central axis 206, i.e., the whole or the main portion of first rod 200 satisfying the centroid of the cross-section is a straight line.

For example, first rod 200 (or a major portion of first rod 200) may be a stretched body (e.g., a cylinder, a prism, etc.), a rotated body (e.g., a cylinder, a cone), first rod 200 (or a major portion of first rod 200) may also be a symmetric body centered about first central axis 206, first rod 200 (or a major portion of first rod 200) may be a combination of a plurality of stretched bodies, a plurality of rotated bodies, a plurality of symmetric bodies, first rod 200 (or a major portion of first rod 200) may be any combination of stretched bodies, rotated bodies, symmetric bodies, etc. The rotator is a solid formed by rotating around an axis line with a series of planar cross-sections as a generatrix.

For example, the first rod 200 may be a telescopic rod that is sequentially slid and coaxially sleeved by a plurality of stretching bodies.

Specifically, the maximum distance from any point in the swept area 2010 to the first partition plane 209 is the maximum distance from the swept area 2010 to the first partition plane 209.

Exemplarily, referring to fig. 17 and the like, initially directing the ray to the first space 201 using the ray, the second connection portion 510 may be rotated about the first rotation axis 501 with respect to the first stick 200 so as to direct the ray to the second space 202 using the ray, the first stick 200 has a first central axis 206, the first central axis 206 intersects the first rotation axis 501 to form a first partition plane 209, and the first space 201 and the second space 202 are respectively located at both sides of the first partition plane 209.

The photographing bracket further comprises a first rod part 210 rotatably connected with a second connecting part 510, the first rod part 210 is mounted at the end of the first rod body 200, the second connecting part 510 can rotate around a first rotation axis 501 relative to the first rod part 210, the second connecting part 510 is mounted at the back 103 of the clamp 100, initially, the back 103 of the clamp 100 is close to or attached to a first side of the first rod body 200, when the using direction points to the second space 202, the back 103 of the clamp 100 is close to or attached to a second side of the first rod body 200, and the first side and the second side are respectively located at two opposite sides of the first rod body 200. This has the advantage that the construction of the camera support is more compact.

For example, referring to fig. 17, 20, etc., the back surface 103 of the clamp 100 is close to the first side of the first rod 200, which may mean that the minimum value of the distance from any point on the back surface of the clamp 100 to any point on the first side of the first rod 200 is less than or equal to 30% of the width from the first side of the first rod 200 to the second side thereof.

Illustratively, referring to fig. 17, 20, etc., the proximity of the back surface 103 of the clip 100 to the second side of the first stick 200 may mean that the minimum distance from any point on the back surface of the clip 100 to any point on the second side of the first stick 200 is less than or equal to 30% of the width from the first side of the first stick 200 to the second side thereof.

Illustratively, referring to fig. 7, 17, 18, 23, etc., the photographing bracket further has a first lever portion 210, the first lever portion 210 is rotatable about a third rotation axis 203 with respect to the first lever 200, the first lever 200 has a first central axis 206, an included angle between the third rotation axis 203 and the first central axis 206 is 15 ° or less, and the third rotation axis 203 intersects or crosses the first rotation axis 501. By implementing the shooting support, the electronic terminal 300 can rotate around the first rotation axis 501 and the third rotation axis 203, so that the use angle of the electronic terminal 300 can be adjusted in two directions, and the shooting support is more convenient to use.

When the second connection portion 510 rotates about the first rotation axis 501 with respect to the first lever portion 210, the use direction of the electronic terminal 300 changes.

The intersection of the third rotation axis 203 and the first rotation axis 501 means that the third rotation axis 203 and the first rotation axis 501 intersect at an intersection, and the intersection of the third rotation axis 203 and the first rotation axis 501 means that either the third rotation axis 203 and the first rotation axis 501 are not coplanar but parallel.

Illustratively, the angle between the third rotation axis 203 and the first central axis 206 may be 0 °, 5 °, 10 °, 15 °, and so on.

The first rotation axis 501 is perpendicular to the axis of the lens 310, or when the display surface 301 is a plane, for example, the first rotation axis 501 is parallel to the display surface 301. This arrangement has an advantage in that the angle of use of the electronic terminal 300 can be adjusted more conveniently.

For example, referring to fig. 7, 17, 18, 23, etc., when the first lever portion 210 is rotatable around the third rotation axis 203 relative to the first lever 200, the position of the first lever portion 210 relative to the first lever 200 can be adjusted, so as to further adjust the using direction of the electronic terminal 300.

Illustratively, the first central axis 206 is coaxial with the third axis of rotation 203. This arrangement has advantages of facilitating adjustment of the use direction of the electronic terminal 300 and making the structure of the photographing support more compact.

Illustratively, referring to fig. 5-7 and the like, the first rod part 210 is mounted at a first end of the second rod part 220, the first end is an end of the first rod body 200 close to the clamp 100, the first end of the second rod part 220 is located on a plane, and the first rotation axis 501 is parallel to the first end of the second rod part 220.

Illustratively, referring to fig. 5-7 and the like, during rotation of the first lever portion 210 about the third rotation axis 203, the first rotation axis 501 is constantly parallel to the first end of the second lever portion 220, e.g., the third rotation axis 203 is perpendicular to the first rotation axis 501.

Illustratively, the first rod 210 is mounted at a first end of the second rod 220, the first end is an end of the first rod 200 close to the clamp 100, and the first rotation axis 501 does not pass through the first end of the second rod 220.

Specifically, the first end of the second rod part 220 is a limited surface, and the first end of the second rod part 220 may be a plane, a folded surface, a curved surface, a convex surface, a concave surface, and the like.

Specifically, the fact that the first rotation axis 501 does not pass through the first end of the second lever part 220 means that the first rotation axis 501 does not pass through a limited surface occupied by the first end of the second lever part 220, i.e., the first rotation axis 501 does not intersect with the first end of the second lever part 220.

Specifically, first rod 200 and an accessory (e.g., third fastener 240154) secured to first rod 200, as a whole, define a first end of second rod 220.

For example, referring to fig. 7, 17, 18, 23, etc., the second connecting portion 510 is mounted on the back surface 103 of the clamp 100, and when the first rod 200 is located in the space on the back surface 103 side of the clamp 100, the clamp 100 can rotate around the third rotation axis 203. This arrangement has the advantage of facilitating a wide range of adjustment of the angle of the fixture 100 and thus the orientation of use of the electronic terminal 300.

In another example, the second connecting portion 510 is mounted on the back surface 103 of the clamp 100, the first rod 200 has a first approaching portion 200a approaching the clamp 100, and when the first approaching portion 200a of the first rod 200 is located on the back surface 103 side of the clamp 100, the clamp 100 can rotate around the third rotation axis 203, and the clamp 100 can rotate around the second rotation axis 101.

For example, referring to fig. 7, 17, 18, 23, etc., the back 103 of the clamp 100 lies in a plane, and when the first central axis 206 is parallel to the back 103 of the clamp 100, the clamp 100 is fully rotatable about the third axis of rotation 203. The advantage of this setting is that conveniently adjust the angle of anchor clamps 100 on a large scale, and then adjust the use orientation of electronic terminal 300 on a large scale to under this state, the structure of shooting support is comparatively compact.

For example, referring to fig. 17, 18, etc., initially the usage orientation of the electronic terminal 300 is directed to the first space 201, and the first lever part 210 may be rotated about the first rotation axis 501 with respect to the second connection part 510 such that the usage orientation of the electronic terminal 300 is directed to the second space 202.

The above description is only for the purpose of illustration and not limitation, and other modifications or equivalent replacements made by those skilled in the art to the technical solution of the present invention should be covered by the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solution of the present invention.

Claims (15)

1. A shooting bracket is characterized by comprising a clamp and a first rod body,

the clamp is used for loading the electronic terminal;

the first rod body is used for supporting the clamp;

the first rod body is provided with a first rod part and a second rod part, and the first rod part is provided with a first light-emitting part;

the first lever part may be rotatable with respect to the second lever part so that the first light emitting part illuminates a second space or a first space, and the lens of the electronic terminal may face the second space after the first lever part is rotatable with respect to the second lever part so that the first light emitting part illuminates the second space, or the lens of the electronic terminal may face the second space after the first lever part is rotatable with respect to the second lever part so that the first light emitting part illuminates the first space.

2. The camera stand of claim 1, wherein the first light-emitting portion initially illuminates the first space.

3. The photographing bracket according to claim 1, wherein the clamp is rotatable with respect to the first lever so that a lens of the electronic terminal may face the second space after the first lever is rotatable with respect to the second lever so that the first light-emitting portion illuminates the second space, or the clamp is rotatable with respect to the first lever so that a lens of the electronic terminal may face the first space after the first lever is rotatable with respect to the second lever so that the first light-emitting portion illuminates the first space.

4. The photographing bracket according to claim 3, wherein the clamp is rotatable with respect to the first lever portion of the first lever so that the lens of the electronic terminal can face the second space after the first lever portion is rotatable with respect to the second lever portion so that the first light-emitting portion illuminates the second space, or the clamp is rotatable with respect to the first lever portion of the first lever so that the lens of the electronic terminal can face the first space after the first lever portion is rotatable with respect to the second lever portion so that the first light-emitting portion illuminates the first space.

5. The shooting support according to claim 4, wherein the clamp is hinged to the first rod portion in a universal manner, or the clamp is connected to the first rod portion through a first flexible member, or the clamp is rotatably mounted to the first rod portion about a first rotation axis.

6. The camera stand according to claim 4, wherein after the first lever portion is rotated about a third rotation axis with respect to the second lever portion so that the first light-emitting portion illuminates the second space, the jig is rotated about the first rotation axis with respect to the first lever portion so that a lens of the electronic terminal can be directed toward the second space,

or, after the first lever portion rotates around a third rotation axis relative to the second lever portion so that the first light-emitting portion illuminates the first space, the clamp rotates around a first rotation axis relative to the first lever portion so that a lens of the electronic terminal can face the first space;

the first axis of rotation intersects or crosses the third axis of rotation.

7. The photographing bracket according to claim 6, wherein the first space and the second space are respectively located at two opposite sides of the first rod, the electronic terminal has a first lens and a second lens, the first lens and the second lens are respectively located at two opposite sides of the electronic terminal, and an included angle between the first rotation axis and the third rotation axis is 75-90 °.

8. The camera stand of claim 7, wherein the first axis of rotation and the third axis of rotation form an angle of 90 °, the first axis of rotation intersects the third axis of rotation, the first shaft extends along a straight line, and the third axis of rotation is parallel to the direction of extension of the first shaft.

9. The photographic mount of claim 6, wherein the clamp is retainable to the first rod portion; the included angle between the first rotating axis and the axis of the lens is 75-90 degrees; the clamp is provided with a back surface, the back surface of the clamp is rotatably arranged on the first rod part, the first rotating axis does not penetrate through the back surface of the clamp, and the minimum distance from the first rotating axis to the back surface of the clamp is less than or equal to 2cm;

when the lens of the electronic terminal faces the second space or the first space, the back of the clamp is close to or attached to one side of the first rod body.

10. The camera stand of claim 1, wherein a lens of the electronic terminal is initially oriented toward the first space.

11. The photographing bracket of claim 1, wherein the first space is located at a side space of the first rod, and the second space is located at a side space of the first rod.

12. The camera stand of claim 1, wherein the lens of the electronic terminal is initially directed toward the first space, the lens of the electronic terminal may be directed toward the second space after the first lever portion is rotated with respect to the second lever portion to cause the first light emitting portion to illuminate toward the second space, or the lens of the electronic terminal may be directed toward the first space after the first lever portion is rotated with respect to the second lever portion to cause the first light emitting portion to illuminate toward the first space.

13. The shooting bracket according to claim 6, wherein the clamp is rotatably mounted on the first rod part around a second rotation axis, the display width direction of the electronic terminal can be changed by rotating the clamp around the second rotation axis, an included angle between the second rotation axis and a normal line of a display surface of the electronic terminal is less than or equal to 15 degrees, and the second rotation axis intersects or crosses with the first rotation axis;

when the lens of the electronic terminal is shielded by the first rod body, the clamp rotates around the second rotation axis relative to the first rod body so as to prevent the lens of the electronic terminal from being shielded by the first rod body;

the first rod portion may be held to the second rod portion, and the clamp may be held to the first rod portion.

14. The camera stand of claim 1, wherein the first lever portion further has a second light-emitting portion that initially illuminates the second space, the second light-emitting portion illuminating the first space after the first lever portion is rotatable with respect to the second lever portion so that the first light-emitting portion illuminates the second space, or the second light-emitting portion illuminating the second space after the first lever portion is rotatable with respect to the second lever portion so that the first light-emitting portion illuminates the first space.

15. The camera stand of claim 1, wherein the first rod portion is hingedly connected to the second rod portion in a universal manner, or the first rod portion is connected to the second rod portion by a second flexible member.

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