CN216952349U - Electronic equipment mounting bracket - Google Patents

Abstract

The application provides an electronic equipment installing support, which comprises a body, first holder, the second holder, first operation arm and second operation arm, first holder and second holder slide respectively and set up in the relative both sides of body, and all bulge towards the front surface place side, first holder, second holder and front surface are injectd jointly and are formed centre gripping space, first operation arm sets up in the both sides of body with the second operation arm relatively, first operation arm is connected with the one end transmission of second holder in this internal, first holder is located to first operation arm towards one side of rear surface, the second operation arm is fixed in the body or is connected with the one end transmission of first holder in this internal, second holder is located to one side of second holder towards the rear surface. The application provides an electronic equipment installing support avoids first holder and second holder to occupy the inside more space of body effectively to and avoid occupying the outside more space of body because of staggering the setting with operation arm and holder.

Description

Electronic equipment mounting bracket

Technical Field

The application relates to the technical field of electronic equipment accessories, in particular to an electronic equipment mounting bracket.

Background

Present electronic equipment installing support widely uses, and the electronic equipment installing support can be installed on from rapping bar or on the automobile body, and the electronic equipment installing support can be used to electronic equipment such as centre gripping cell-phone, flat board.

At present, a few electronic equipment mounting brackets are generally provided with two clamping arms and two operating arms on a body of the electronic equipment mounting bracket, the two operating arms are respectively connected with one clamping arm, and a user can drive the clamping arms to be away from or close to each other by controlling the operating arms. However, the existing clamping arm and the operating arm are usually required to be vertically staggered on the body, so that more space is required to be occupied inside the body and outside the body, and the miniaturization design of the electronic equipment mounting bracket is not facilitated.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides an electronic equipment mounting bracket to solve the problems.

The embodiment of the application realizes the aim through the following technical scheme.

The embodiment of the application provides an electronic equipment installing support, which comprises a body, first holder, the second holder, first action arm and second action arm, first holder and second holder slide respectively and set up in the relative both sides of body, and all bulge towards the front surface place side, first holder, second holder and front surface inject jointly and form centre gripping space, first action arm sets up in the both sides of body with the second action arm relatively, first action arm is connected with the one end transmission of second holder in this body, and first holder is located one side of rear surface to first action arm, the second action arm is fixed in the body or is connected with the one end transmission of first holder in this body, and one side of rear surface is located to the second holder to the second action arm.

Compared with the prior art, the electronic equipment installing support that this application provided, through locating first manipulator in one side of second holder towards the rear surface, first holder is located in one side of rear surface towards the second manipulator, can improve the compactedness between first holder and the second holder like this, do benefit to and save the inside space of body, avoided setting up first holder and second holder staggeredly and occupy the inside more space of body, more compact between manipulator and the corresponding holder like this, avoid effectively occupying the outside more space of body because of setting up manipulator and holder staggeredly.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the description below are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an electronic device mounting bracket provided in an embodiment of the present application in a first state.

Fig. 2 is a schematic structural view of the electronic device mounting bracket shown in fig. 1 in a second state.

Fig. 3 is a schematic structural view of the electronic device mounting bracket shown in fig. 1 from another perspective.

Fig. 4 is an exploded view of the electronic device mounting bracket of fig. 1.

Fig. 5 is an exploded view of the electronic device mounting bracket shown in fig. 3.

Fig. 6 is a cross-sectional schematic view of the electronic device mounting bracket shown in fig. 1.

Fig. 7 is an exploded view of another electronic device mounting bracket according to an embodiment of the present disclosure.

Fig. 8 is an exploded view of another electronic device mounting bracket according to an embodiment of the present disclosure.

Fig. 9 is a cross-sectional view of the magnetic attraction assembly in the electronic device mounting bracket of fig. 7.

Fig. 10 is an exploded view of another electronic device mounting bracket according to an embodiment of the present disclosure.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the embodiments described are only a few embodiments of the present application and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1, an embodiment of the present invention provides an electronic device mounting bracket 20, where the electronic device mounting bracket 20 can be mounted on a handheld selfie stick, a camera stand or a vehicle body. The following description will be made specifically by taking the electronic equipment mounting bracket 20 as a selfie stick type electronic equipment mounting bracket:

as shown in fig. 2 to 4, the electronic device mounting bracket 20 includes a body 235, a first clamp 21, a second clamp 22, a first operating arm 23, and a second operating arm 24.

The body 235 comprises a front surface 231 and a rear surface 232 which are opposite to each other, the first clamping member 21 and the second clamping member 22 are respectively slidably disposed on two opposite sides of the body 235 and both protrude towards the side where the front surface 231 is located, and the first clamping member 21, the second clamping member 22 and the front surface 231 jointly define a clamping space 2221.

The first operating arm 23 and the second operating arm 24 are oppositely disposed on two sides of the main body 235, the first operating arm 23 is in transmission connection with one end of the second clamping member 22 in the main body 235, the first operating arm 23 is disposed on one side of the first clamping member 21 facing the rear surface 232, the second operating arm 24 is fixed on the main body 235 or in transmission connection with one end of the first clamping member 21 in the main body 235, and the second operating arm 24 is disposed on one side of the second clamping member 22 facing the rear surface 232.

Specifically, in the present embodiment, the first clamping member 21 includes a first clamping arm 211 and a first arm 212, the second clamping member 22 includes a second clamping arm 221 and a second arm 222, the first arm 212 and the second arm 222 are stacked in the body 235 along the front-back direction of the body 235 (i.e., the direction from the front surface 231 to the rear surface 232), the first arm 212 and the second arm 222 are slidable relative to the body 235, the first clamping arm 211 is connected to one end of the first arm 212, the second clamping arm 221 is connected to one end of the second arm 222, the first clamping arm 211 and the second clamping arm 221 are disposed opposite to each other and project toward the front surface 231, and the surfaces of the first clamping arm 211, the second clamping arm 221 and the body 235 located on the front surface 231 jointly define a clamping space 2221. The first operating arm 23 and the second operating arm 24 are disposed opposite to each other and project toward the rear surface 232, and the first operating arm 23 and one end of the second arm 222 away from the second clamping arm 221 are drivingly connected and opposite to each other with respect to the first clamping arm 211 along the direction from the rear surface 232 to the front surface 231. The second operating arm 24 is located on a side of the body 235 facing away from the first clamping arm 211, and is drivingly connected with the first arm 212 or fixed to the body 235, and the second operating arm 24 and the second clamping arm 221 are opposite to each other along a direction from the rear surface 232 to the front surface 231.

It should be noted that the holding space 2221 is used for holding an electronic device, and the electronic device may be a mobile phone, a tablet, a camera, or the like. The side where the front surface 231 is located serves as the front side of the body 235 and the side where the rear surface 232 is located serves as the rear side of the body 235. The first clamping arm 211 and the second clamping arm 221 can move close to each other to clamp the electronic device, or move away from each other to release the electronic device.

The electronic device mounting bracket 20 provided by the present application, by stacking the first arm 212 and the second arm 222 in the body 235 along the front-back direction, the compactness between the first arm 212 and the second arm 222 can be improved, which is beneficial to saving the space inside the body 235, avoiding the first arm 212 and the second arm 222 from being staggered to occupy more space inside the body 235, and meanwhile, facing the first operating arm 23 and the second clamping arm 221, and the second operating arm 24 and the first clamping arm 211 along the direction from the rear surface 232 to the front surface 231 to each other, so that the operating arm and the corresponding clamping arm are more compact, and effectively avoiding the operating arm and the clamping arm from being staggered to occupy more space outside the body 235.

In this embodiment, the main body 235 may be a substantially rectangular shell-shaped structure, the main body 235 has a thickness direction X, a width direction Y and a height direction Z, the front surface 231 and the rear surface 232 may be two sides of the main body 235 along the thickness direction X, and a direction from the front surface 231 to the rear surface 232 may be understood as the thickness direction X of the main body 235. The thickness direction X and the width direction Y may be two perpendicular directions on a horizontal plane, respectively, and the height direction Z may be vertical.

In the present embodiment, the body 235 includes a front shell 233 and a rear shell 234 connected to each other, a mounting space 2346 is defined between the front shell 233 and the rear shell 234, and the first arm 212 and the second arm 222 are disposed in the mounting space 2346. Second arm 222 is slidably coupled to rear housing 234, and first arm 212 is disposed on a surface of second arm 222 facing away from rear housing 234 and is slidable relative to second arm 222.

In the present embodiment, each of the first arm portion 212 and the second arm portion 222 may have a plate-like structure, and the first arm portion 212 may be stacked on an inner surface of the rear case 234 and may slide with respect to the face case 233. The first arm portion 212 and the second arm portion 222 are each generally straight arm structures. In this way, it is not necessary to provide the first arm portion 212 and the second arm portion 222 so as to be offset in the height direction Z, and the first arm portion 212 and the second arm portion 222 only need to occupy a space in which the mounting space 2346 is small in the thickness direction X.

In addition, when the first arm portion 212 and the second arm portion 222 are stacked in the body 235 in the front-rear direction, the projection of the first arm portion 212 in the thickness direction X may be substantially entirely located within the projection area of the second arm portion 222 in the thickness direction X, or the projection of the second arm portion 222 in the thickness direction X may be substantially entirely located within the projection area of the first arm portion 212 in the thickness direction X. The first arm 212 and the second arm 222 are stacked in the body 235, and the first arm 212 and the second arm 222 may contact or be spaced apart from each other. In the present embodiment, the first arm portion 212 and the second arm portion 222 can slide substantially along the width direction Y.

In some embodiments, the rear shell 234 may be provided with a sliding guide structure, the sliding guide structure may be a sliding guide groove, and the first arm 212 and the second arm 222 are stacked in the sliding guide structure, so that stability of the first clamping member 21 and the second clamping member 22 during sliding can be ensured, and the first clamping member 21 and the second clamping member 22 can be prevented from shaking up and down.

By stacking the first arm portion 212 and the second arm portion 222 in the thickness direction X, the compactness of the first arm portion 212 and the second arm portion 222 after assembly can be improved, so that the first arm portion 212 and the second arm portion 222 only need to occupy a small space in the thickness direction X, and the first arm portion 212 and the second arm portion 222 are prevented from occupying a large space when they are arranged in a staggered manner in the height direction Z.

In some embodiments, as shown in fig. 4 and 5, the second arm portion 222 is provided with a guide portion 2222, and the first arm portion 212 is provided with a sliding portion 2121 slidably connected to the guide portion 2222. The guiding portion 2222 may be a sliding slot, and the sliding portion 2121 may be a sliding block fitted with the sliding slot, or the sliding portion 2121 is a sliding slot, and the guiding portion 2222 is a sliding block fitted with the sliding slot. By slidably coupling the guide portion 2222 to the slide portion 2121, smooth sliding of the first holding member 21 and the second holding member 22 can be achieved.

Referring to fig. 4 to 6, in the present embodiment, the first operating arm 23 and the second arm 222 are fixedly connected at an end far from the second clamping arm 221, and the second operating arm 24 is fixed to the body 235. Specifically, the first operating arm 23, the second arm portion 222, and the first clamp arm 211 may be an integral structure. The second operating arm 24 may be fixed to the surface of the body 235 at the rear surface 232. Therefore, a user can apply a clamping force to the first operating arm 23 and the second operating arm 24 with one hand or two hands, the first operating arm 23 can be close to the second operating arm 24 under the action of the clamping force, in the process, the first arm part 212 is driven by the first operating arm 23, the first clamping arm 211 and the second clamping arm 221 are far away from each other, and therefore the clamping distance of the clamping space 2221 is adjusted, and the clamping distance is matched with the size of a part to be clamped of the electronic device.

In some embodiments, as shown in fig. 4 to 6, the electronic device mounting bracket 20 includes a rotating gear 251, the rotating gear 251 is rotatably disposed in the body 235, the first arm 212 is provided with a first guide rack 2123, the second arm 222 is provided with a second guide rack 2223, and the first guide rack 2123 and the second guide rack 2223 are disposed to extend in a preset direction. The rotation gear 251 is engaged with the first guide rack 2123 and the second guide rack 2223. The predetermined direction is consistent with the sliding direction of the first arm portion 212 and the second arm portion 222, for example, the predetermined direction may be consistent with the width direction Y. Specifically, the first arm portion 212 and the second arm portion 222 are each provided with a guide through hole 2124, and the guide through hole 2124 may be a strip-shaped hole or a strip-shaped notch. The guide through hole 2124 extends substantially along a predetermined direction, and the first guide rack 2123 of the first arm 212 is disposed along the predetermined direction on an inner wall of the guide through hole 2124 of the first arm 212, and accordingly, the first guide rack 2123 of the second arm 222 is disposed along the predetermined direction on an inner wall of the guide through hole 2124 of the second arm 222.

In assembling, the rotation gear 251 may be inserted into the guide through holes 2124 of the first and second arm portions 212 and 222 while being engaged with the first guide racks 2123 of the first and second arm portions 212 and 222. This further improves the smoothness of the first and second clamping members 21 and 22 during sliding. Meanwhile, when the first arm 212 is driven by the first operating arm 23 to slide, the first arm 212 may drive the rotating gear 251 to rotate, and then the second arm 222 may be driven by the rotating gear 251 to slide in a direction opposite to the sliding direction of the first arm 212, so that a user may simultaneously provide a driving force to the first arm 212 and the second arm 222 through the first operating arm 23, thereby achieving the mutual approaching or separating of the first clamping arm 211 and the second clamping arm 221.

In other embodiments, as shown in fig. 7, when the second operation arm 24 is in transmission connection with the second arm portion 222, the second operation arm 24 may be slidably disposed on the body 235, and the second operation arm 24 may drive the second arm portion 222 to slide through the transmission structure. For example, the second operating arm 24 is provided with a third guide rack 241, the third guide rack 241 is arranged along a preset direction and is engaged with the rotating gear 251, and the first arm 212, the second arm 222 and the third guide rack 241 are sequentially stacked along a direction from the side of the front surface 231 to the side of the rear surface 232, that is, the first guide rack 2123, the second guide rack 2223 and the third guide rack 241 are sequentially arranged along a direction from the side of the front surface 231 to the side of the rear surface 232. Specifically, the first arm portion 212 is located between the third guide rack 241 and the second arm portion 222. Therefore, a user can apply a clamping force to the first operating arm 23 and the second operating arm 24 by one hand or two hands, so that the first operating arm 23 and the second operating arm 24 are mutually closed, the first operating arm 23 and the second operating arm 24 can drive the rotating gear 251 to rotate together, and the rotating gear 251 can be driven to rotate in a more labor-saving manner, so that the first clamping arm 211 and the second clamping arm 221 are mutually closed or far away more easily.

In still other embodiments, as shown in fig. 8, when the second operating arm 24 is in transmission connection with the first arm 212, the second operating arm 24 is fixedly connected to an end of the first arm 212 far from the first clamping arm 211, specifically, the first arm 212 is fixedly connected to the second operating arm 24 through the connecting portion 26, so that the second operating arm 24 can drive the first arm 212 to slide under the action of an external force. Illustratively, the connecting portion 26 includes a guide side plate 261 and a guide bottom plate 262, the guide side plate 261 is disposed opposite to the first arm portion 212 at a distance, the guide bottom plate 262 is connected between the guide side plate 261 and the first arm portion 212, and the second arm portion 222 is slidably disposed between the guide side plate 261 and the first arm portion 212. This ensures not only a more compact fit between the second arm portion 222 and the first arm portion 212, but also stability when the second arm portion 222 slides relative to the first arm portion 212. Specifically, a sliding gap is formed between the guide side plate 261 and the second arm portion 222, and the guide bottom plate 262 is located at the bottom of the sliding gap and fixedly coupled between the guide side plate 261 and the first arm portion 212. Therefore, a user can apply a clamping force to the first operating arm 23 and the second operating arm 24 by one hand or two hands, so that the first operating arm 23 can directly drive the second arm portion 222 to slide, and the second operating arm 24 can directly drive the first arm portion 212 to slide, thereby realizing the mutual approaching or separating of the first clamping arm 211 and the second clamping arm 221. The connecting portion 26, the first arm portion 212 and the second operating arm 24 may be an integral structure, so that the number of parts can be reduced, the assembly difficulty can be reduced, the production efficiency can be improved, and the rigidity between the operating arm and the clamping arm can be improved.

In some embodiments, as shown in fig. 8, the electronic device mounting bracket 20 further includes a reset member 252, and the reset member 252 may be connected to the first clamping member 21 and the other end connected to the second clamping member 22 or the body 235. For example, the restoring member 252 may be connected between the first arm portion 212 and the body 235; alternatively, the restoring member 252 is connected between the second arm portion 222 and the body 235; alternatively, the restoring member 252 is connected between the first arm portion 212 and the second arm portion 222. Illustratively, the restoring member 252 may be connected between the first arm portion 212 and the body 235, and the restoring member 252 may be a spring or an elastic rubber. When a user applies a certain clamping force to the first operating arm 23 and the second operating arm 24, and the first clamping arm 211 and the second clamping arm 221 can be located at positions away from each other, at this time, the clamping space 2221 has a larger clamping distance, so that the user can conveniently place the electronic device in the clamping space 2221, and the reset piece 252 is in a stretched state; when the external force applied to the first and second operating arms 23 and 24 is removed, the first and second clamp arms 211 and 221 may be drawn close to each other by the restoring force of the reset member 252 to clamp the electronic device.

In some embodiments, as shown in fig. 7, the electronic device mounting bracket 20 further includes a locking member 27, the locking member 27 may be configured as a button structure, the body 235 is provided with a telescopic hole 2341 communicated with the inside of the body 235, the locking member 27 is telescopically disposed in the telescopic hole 2341, the locking member 27 is provided with a locking portion 271, the first clamping member 12 or the second clamping member 22 is provided with a matching portion 2125 matched with the locking portion 271, for example, the first arm portion 212 or the second arm portion 222 is provided with a matching portion 2125 matched with the locking portion 271, and the locking portion 271 is telescopic along the axial direction of the telescopic hole 2341 to be locked with or separated from the matching portion 2125. Illustratively, the telescopic hole 2341 may penetrate through the rear casing 234 in the thickness direction X, the axial direction of the telescopic hole 2341 may be identical to the thickness direction X, the locking portion 271 may be a protrusion, the protrusion may protrude from an outer side wall of the locking member 27 in the radial direction of the telescopic hole 2341, the first arm portion 212 is provided with a fitting portion 2125, and the fitting portion 2125 may be a bayonet. When the locking member 27 is moved to the locking position, the projection can be snapped into the notch.

When the first and second clamp arms 211 and 221 are located at positions distant from each other, the clamping space 2221 has a larger clamping interval, and the fitting portion 2125 corresponds to the locking portion 271. The lock member 27 moves along the telescopic hole 2341 so that the lock portion 271 engages with the engagement portion 2125, and the first arm 211 and the second arm 221 are held at positions away from each other. When the electronic device mounting bracket 20 further includes the reset element 252, if the locking portion 271 is separated from the matching portion 2125, the first clip arm 211 and the second clip arm 221 can be drawn close to each other under the action of the reset element 252 to clamp the electronic device.

Further, in some embodiments, the electronic device mounting bracket 20 may further include an elastic member 28, wherein the elastic member 28 is connected between the locking member 27 and the body 235, for example, the elastic member 28 is connected between the locking member 27 and the panel 233. The elastic element 28 can keep the locking element 27 at the locking position, so that the locking element 27 keeps locking the matching part 2125, when the user presses the locking element 27, the elastic element 28 is compressed, the locking part 271 of the locking element 27 can be separated from the matching part 2125, the first clamping arm 211 and the second clamping arm 221 can move close to each other under the action of the resetting element 252, so as to clamp the electronic device, thereby realizing a one-key clamping function; when the fitting portion 2125 and the locking portion 271 of the locking member 27 correspond again, the locking portion 271 of the locking member 27 can be automatically locked with the fitting portion 2125 by the restoring force of the elastic member 28.

In some embodiments, as shown in fig. 7 and 9, the electronic device mounting bracket 20 includes a magnetic attraction member 29, the magnetic attraction member 29 is disposed in the main body 235 and located on a side of the second clamping member 22 facing away from the first clamping member 21, specifically, it may be located on a side of the second arm portion 222 facing away from the first arm portion 212, a magnetic pole of the magnetic attraction member 29 faces the front surface 231, the magnetic attraction member 29 is provided with an escape notch 2911, and the escape notch 2911 corresponds to the telescopic hole 2341. The avoiding notch 2911 is provided to avoid the telescopic path of the locking member 27 by the structure of the magnetic attraction assembly 29, so as to prevent the magnetic attraction assembly 29 from obstructing the normal extension of the locking member 27.

In some embodiments, the magnetic component 29 includes a plurality of first magnetic attraction pieces 291 and a plurality of second magnetic attraction pieces 292, the plurality of first magnetic attraction pieces 291 form a ring structure, the avoiding notch 2911 penetrates through the ring structure, the plurality of second magnetic attraction pieces 292 are disposed on an inner side of the ring structure and are disposed in a one-to-one correspondence with the plurality of first magnetic attraction pieces 291, and each of the first magnetic attraction pieces 291 and each of the second magnetic attraction pieces 292 include a first magnetic pole surface 2911 and a second magnetic pole surface 2912 with opposite polarities. The first and second magnetic pole faces 2911 and 2912 of the first and second magnetic pieces 291 and 292, respectively, face the front surface 231 and, correspondingly, the second and second magnetic pole faces 2912 and 2911 of the first and second magnetic pieces 291 and 292, respectively, face the back surface 232.

Specifically, the first magnetic member 291 and the second magnetic member 292 may have arc-shaped structures. The first magnetic pole surface 2911 may be an N pole, and the second magnetic pole surface 2912 may be an S pole. Through set up first magnetism piece 291 of inhaling at the inboard of second magnetism piece 292, can strengthen the whole magnetism intensity of inhaling assembly 29 effectively, magnetism is inhaled assembly 29 and can inhale the structure with magnetism on the electronic equipment or the direct magnetism of iron structure, and electronic equipment installing support can compatible multiple fixed mode like this.

In some embodiments, in order to save manufacturing cost, the magnetic component 29 may only include one set of magnetic components, for example, only includes a plurality of first magnetic components 291, the plurality of first magnetic components 291 enclose a ring structure, and further, the ring structure is provided with an avoiding gap 2911, and the avoiding gap 2911 corresponds to the telescopic hole 2341.

In some embodiments, as shown in fig. 10, the electronic device mounting bracket further includes a supporting component 27, the supporting component 27 includes a supporting base 274, an elastic sleeve 272 and a locking portion 273, the elastic sleeve 272 is disposed on the rear surface 232 of the main body 235 and is spaced apart from the first operating arm 23 and the second operating arm 24, the locking portion 273 is movably sleeved outside the elastic sleeve 272 and can close the elastic sleeve 272, the supporting base 274 is provided with a fixing portion 2713, and the fixing portion 2713 is configured to be embedded in the elastic sleeve 272.

Illustratively, the elastic sleeve 272 may be fixed to the body 235 and located between the first operating arm 23 and the second operating arm 24. The elastic sleeve 272 is provided with a plurality of elastic buckles which are arranged around the axial direction of the elastic sleeve 272 at intervals and define a contraction hole, the locking part 273 is of a ring-shaped structure and is sleeved on the outer periphery of the elastic sleeve 272, and the locking part 273 can be in threaded connection with the outer periphery of the elastic sleeve 272. When the locking portion 273 is close to the end of the elastic sleeve 272 far from the body 235, the plurality of elastic catches may be drawn toward the central contraction hole of the elastic sleeve 272 by the locking portion 273, so that the elastic sleeve 272 may be caught on the outer circumference of the fixing portion 2713. The fixing portion 2713 may be a ball structure, the body 235 may be capable of performing different angles and orientations relative to the ball structure through the elastic sleeve 272, and after the angle and orientation of the body 235 are adjusted, the elastic sleeve 272 may be locked on the fixing portion 2713 through the locking portion 273, so that the body 235 is maintained at the adjusted position.

In some embodiments, the supporting seat 274 can include a base 2741 and a supporting portion 2742, the supporting portion 2742 is connected between the base 2741 and the fixing portion 2713, the supporting portion 2742 is connected to the base 2741 at an angle, for example, at an included angle of 90 °, and the fixing portion 2713 is protruded on the supporting portion 2742. The base 2741 is provided with fixing holes (not shown) which can be used for connection and fixation with a selfie stick, a tripod, or the like.

In summary, the electronic device mounting bracket 20 provided in the present application, the first operating arm 23 is disposed on one side of the first clamping member 21 facing the rear surface 232, and the second operating arm 24 is disposed on one side of the second clamping member 22 facing the rear surface, so that the compactness between the first clamping member 21 and the second clamping member 22 can be improved, the space inside the body can be saved, the situation that the first clamping member 21 and the second clamping member 22 occupy more spaces inside the body due to the staggered arrangement is avoided, the situation that the operating arm and the corresponding clamping member are more compact, and the situation that the operating arm and the clamping member occupy more spaces outside the body due to the staggered arrangement is effectively avoided.

The above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present application and are intended to be included within the scope of the present application.

Claims (10)

1. An electronic device mounting bracket, comprising:

a body having a front surface and a back surface;

the first clamping piece and the second clamping piece are respectively arranged on two opposite sides of the body in a sliding mode and protrude towards the side where the front surface is located, and the first clamping piece, the second clamping piece and the front surface jointly limit to form a clamping space;

the first operating arm and the second operating arm are oppositely arranged on two sides of the body, the first operating arm is in transmission connection with one end of the second clamping piece in the body, and the first operating arm is arranged on one side, facing the rear surface, of the first clamping piece; the second operating arm is fixed on the body or is in transmission connection with one end of the first clamping piece in the body, and the second operating arm is arranged on one side, facing the rear surface, of the second clamping piece.

2. The electronic device mounting bracket of claim 1, wherein the first clamp includes a first arm and a first arm, the second clamp includes a second arm and a second arm, the first arm is connected to an end of the first arm, the second arm is connected to an end of the second arm, and the first arm and the second arm are stacked in the body in a direction from the front surface to the rear surface.

3. The electronic device mounting bracket of claim 2, wherein the first operating arm is fixedly connected to an end of the second arm portion remote from the second clip arm, and the second operating arm is fixed to the body.

4. The electronic device mounting bracket of claim 2, wherein the electronic device mounting bracket includes a rotation gear rotatably disposed in the body, the first arm is provided with a first guide rack engaged with the rotation gear, the second arm is provided with a second guide rack engaged with the rotation gear, and the first guide rack and the second guide gear are both disposed to extend in a predetermined direction.

5. The electronic device mounting bracket of claim 4, wherein the second operating arm is provided with a third guide rack, the third guide rack is arranged along the preset direction and is engaged with the rotating gear, and the first guide rack, the second guide rack and the third guide rack are arranged in sequence along a direction from the side of the front surface to the side of the rear surface.

6. The electronic device mounting bracket of claim 2, wherein the second operating arm is fixedly connected to an end of the first arm portion remote from the first clamp arm.

7. The electronic device mounting bracket according to any one of claims 1 to 6, further comprising a resetting member and a locking member, wherein one end of the resetting member is connected to the first clamping member, the other end of the resetting member is connected to the second clamping member or the body, the body is provided with a telescopic hole, the locking member is telescopically arranged in the telescopic hole, the locking member is provided with a locking portion, the first clamping member or the second clamping member is provided with a matching portion matching with the locking portion, and the locking portion can stretch and retract along an axial direction of the telescopic hole to lock or separate from the matching portion.

8. The electronic device mounting bracket of claim 7, wherein the electronic device mounting bracket comprises a magnetic attraction assembly disposed in the body, a magnetic pole surface of the magnetic attraction assembly facing the front surface, the magnetic attraction assembly comprising a plurality of first magnetic attraction members, the plurality of first magnetic attraction members enclosing an annular structure.

9. The electronic device mounting bracket of claim 8, wherein the magnetic assembly further comprises a plurality of second magnetic attraction members disposed inside the annular structure and corresponding to the first magnetic attraction members, each of the first magnetic attraction members and each of the second magnetic attraction members includes a first magnetic pole face and a second magnetic pole face of opposite polarity, and the first magnetic pole face of the first magnetic attraction member and the second magnetic pole face of the second magnetic attraction member face the front surface.

10. The electronic device mounting bracket of claim 7, further comprising a supporting base and a locking portion, wherein the supporting base comprises a base, a supporting portion and a fixing portion, the supporting portion is connected between the base and the fixing portion, the supporting portion is connected to the base at an angle, the rear surface is provided with a resilient sleeve, the fixing portion is embedded in the resilient sleeve, and the locking portion is movably sleeved outside the resilient sleeve.

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