CN210662228U - Handle assembly, handheld device and shooting equipment - Google Patents

Abstract

The application discloses handle components, handheld device and shooting equipment. The handle component comprises a rod body and a display module, and the display module is arranged on the rod body and can rotate relative to the rod body. The handheld device and the shooting equipment comprise the handle assembly. In the handle components, the hand-held device and the shooting equipment for cloud platform of this application embodiment, when this handle components is handed to the user, this handle components is certain angle with user's hand usually to the display module assembly that is located on the handle components is not direct towards the user, because the display module assembly of this application can rotate freely, and the display surface including display module assembly rotates towards user's direction, therefore display module assembly can be towards the user, promotes user experience. In addition, when the user sees the screen reflection of the display module, the user can also freely rotate the display module so that the light reflected by the display module does not irradiate the eyes of the user, and therefore the user can more easily view the content displayed by the display module.

Description

Handle assembly, handheld device and shooting equipment

Technical Field

The application relates to the technical field of camera equipment, in particular to a handle assembly, a handheld device and camera equipment.

Background

The handle assembly of the related art holder forms a certain inclination angle with a user in the using process, and when the user watches the display screen of the handle assembly, the user can not watch the content of the display screen well and the user experience is poor due to the fact that the picture of the display screen is also inclined with the user.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the embodiment of the application provides a handle assembly, a handheld device and shooting equipment.

The handle assembly of this application embodiment is applied to hand-held device, handle assembly includes the body of rod and display module assembly, display module assembly sets up just can be relative on the body of rod takes place to rotate.

In some embodiments, the display module comprises a display component and a rotating component at an end of the display module, the rod comprises a rotating fitting, and the rotating component and the rotating fitting are matched to enable the display module to rotate relative to the rod.

In some embodiments, the rotating assembly is located at a lower end or an upper end of the display module, and a rotating shaft of the display module is perpendicular to a central axis of the rod body.

In some embodiments, the rotating assembly is located at a left end or a right end of the display module, and a rotation axis of the display module is parallel to a central axis of the rod body.

In some embodiments, the display module can be switched between a first state and a second state when rotating relative to the rod body, and in the first state, the display module is attached to the surface of the rod body.

In some embodiments, the handle assembly further includes a hinge structure disposed at one side of the display module, the display module is bent along with the bending of the hinge structure, and the display module is also unfolded along with the unfolding of the hinge structure.

In some embodiments, the display module comprises a display component and a rotating component positioned at the end of the display module, and the rotating component can be rotatably arranged on the rod body; the display module can be switched between a first state and a second state when rotating relative to the rod body, and in the second state, the display module is separated from the surface of the rod body and can be unfolded along with the unfolding of the hinge structure.

In some embodiments, in the second state, the display module can be flattened as the hinge structure is flattened.

In some embodiments, the rotating fitting piece is provided with a groove, and the side walls of two opposite sides of the groove are provided with shaft holes; the rotating assembly comprises two rotating shafts, the rotating assembly is arranged in the groove, and the two rotating shafts are respectively arranged in the shaft holes and can rotate relative to the rod body.

In some embodiments, the display assembly comprises a display screen bracket, a fitting frame and a display screen, wherein a bracket accommodating groove is formed on the outer side surface of the display screen bracket; the attaching frame is accommodated in the support accommodating groove, and the surface of the attaching frame, which is far away from the display screen support, is provided with an attaching frame accommodating groove; the display screen is accommodated in the laminating frame accommodating groove; the rotating assembly is connected with the display screen support and/or the attaching frame to drive the display screen support, the attaching frame and the display screen to rotate together.

In some embodiments, the rod body is provided with a wire groove, and the wire groove is formed on the surface of the rod body close to the groove; a wiring hole penetrating through the attaching frame is formed in the bottom surface of the attaching frame accommodating groove, and the wiring hole is communicated with the support accommodating groove and the attaching frame accommodating groove; a wiring groove penetrating through the display screen bracket is formed in the bottom surface of the bracket accommodating groove and communicated with the wiring groove and the bracket accommodating groove, and the wiring groove is formed in one end, close to the rotating assembly, of the display screen bracket; the display module further comprises a wire, and the wire is connected with the display screen and penetrates through the wiring hole, the wiring groove and the wiring groove.

In some embodiments, the rod body comprises a first rod body and a second rod body which are connected, the rotating fitting piece is positioned at one end of the second rod body close to the first rod body, and the wire groove is formed at one end of the first rod body close to the second rod body; the first rod body is sunken relative to the second rod body to form a rod body accommodating groove, and the display module can be accommodated in the rod body accommodating groove or extend out of the rod body accommodating groove when rotating relative to the rod body.

In some embodiments, the rod body includes a rear cover bracket and a rear cover, the rear cover bracket is fixed on the first rod body, the rear cover bracket is accommodated in the rod body accommodating groove and is located on one side of the first rod body away from the display module, and the rear cover is fixed on the rear cover bracket; the second body of rod is cylindrical, works as display module assembly accepts when in the body of rod holding tank, the lateral surface of display screen with the lateral surface of the second body of rod flushes, the lateral surface of back lid with the lateral surface of the second body of rod flushes.

The handheld device of this application embodiment includes handle component and at least one shaft arm, the shaft arm with the body of rod is connected.

The shooting equipment of this application embodiment includes handle component, at least one axle arm and shooting device, shooting device fixes arbitrary one on the axle arm.

In the handle components, the hand-held device and the shooting equipment for cloud platform of this application embodiment, when this handle components is handed to the user, this handle components is certain angle with user's hand usually to the display module assembly that is located on the handle components is not direct towards the user, because the display module assembly of this application can rotate freely, and the display surface including display module assembly rotates towards user's direction, therefore display module assembly can be towards the user, promotes user experience. In addition, when the user sees the screen reflection of the display module, the user can also freely rotate the display module so that the light reflected by the display module does not irradiate the eyes of the user, and therefore the user can more easily view the content displayed by the display module.

Additional aspects and advantages of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic perspective view of a handheld device according to an embodiment of the present application;

FIG. 2 is a perspective view of another state of the handheld device of an embodiment of the present application;

FIG. 3 is an exploded schematic view of a handheld device of an embodiment of the present application;

fig. 4 is an exploded schematic view of another perspective of a handheld device according to an embodiment of the present application.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative and are only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, it is to be understood that the terms "left", "right", "upper", "lower", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present application and simplifying the description, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present application. The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. Further, the term "plurality" means a number greater than or equal to two.

The following disclosure provides many different embodiments or examples for implementing different features of the application. In order to simplify the disclosure of the present application, specific example components and arrangements are described below. Of course, they are merely examples and are not intended to limit the present application. Moreover, the present application may repeat reference numerals and/or letters in the various examples, such repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, examples of various specific processes and materials are provided herein, but one of ordinary skill in the art may recognize applications of other processes and/or use of other materials.

Referring to fig. 1 and 2, a handle assembly 100 is provided according to an embodiment of the present disclosure. The handle assembly 100 includes a rod 10 and a display module 20, wherein the display module 20 is disposed on the rod 10 and can rotate relative to the rod 10.

When the user holds this handle assembly 100, handle assembly 100 is certain angle with user's hand usually to be located the display module assembly 20 on handle assembly 100 and not directly towards the user, because the display module assembly 20 of this application can rotate freely, including the display surface of display module assembly 20 rotates towards user's direction, therefore display module assembly 20 can be towards the user, promotes user experience. In addition, when the user sees the screen reflection of the display module 20, the user can also freely rotate the display module 20 so that the light reflected by the display module 20 does not irradiate the eyes of the user, and thus the user can more easily view the content displayed by the display module 20.

The display module 20 includes a display module 21 and a rotating assembly 22, and the rotating assembly 22 is located at an end of the display module 20, or the rotating assembly 22 is disposed at an end of the display module 21. The lever plate is rotatably engaged with the mating member 13, and the rotating member 22 is engaged with the mating member so that the display module 20 is rotated with respect to the lever. Thus, the display module 20 and the rod 10 are connected with the rotation fitting piece 13 through the rotation component 22, and the rotation component 22 and the rotation fitting piece 13 are simple in structure, thereby being beneficial to reducing the manufacturing difficulty of the display module 20 and the rod 10.

In some embodiments, the rotating component 22 is located at the upper end or the lower end of the display module 20, or the rotating component 20 is disposed at the upper end 26 or the lower end 27 of the display module 21, and the rotation axis of the display module 20 is perpendicular to the central axis of the rod 10. Like this, display module assembly 20 can rotate the one end of keeping away from runner assembly 20 to display module assembly 21 relative body of rod 10 and break away from body of rod 10 to make display module assembly 20 user's inclination change, the user can freely adjust this inclination according to the relative position of self and display module assembly 20 and the condition of screen reflection of light.

Of course, in other embodiments, the rotating element 22 can be located at both the upper end 26 and the lower end 27 of the display element 21, and the rotation axis of the display module 20 is parallel to or coincident with the central axis of the rod 10. So, the runner 22 of upper end 21 and lower extreme 27 can drive display module 21 simultaneously and encircle body of rod 10 and rotate to make display module assembly 20 can rotate three hundred sixty degrees relative body of rod 10, the user can adjust the pivoted angular range of display module assembly 20 and be bigger.

In some embodiments, the rotating element 22 is located at the left end or the right end of the display module 20, or the rotating element 20 is disposed at the left end 26 or the right end 27 of the display module 21, and the rotation axis of the display module 20 is parallel to the central axis of the stick body 10. Like this, display module assembly 20 can rotate the one end of keeping away from runner assembly 20 to display module assembly 21 relative body of rod 10 and break away from body of rod 10 to make display module assembly 20 user's inclination change relatively, the user can freely adjust this inclination according to the relative position of self with display module assembly 20 or the condition of screen reflection of light.

The present embodiment will be described by taking as an example the case where the rotating unit 20 is provided at the lower end 27 of the display unit 21. The display module 20 can be switched between a first state and a second state in the process of rotating relative to the rod 10. When the display module 20 rotates to the first state relative to the rod 10, the display module 20 is attached to the surface of the rod 10. When the display module 20 rotates to the second state relative to the rod 10, one end of the display module 20 is separated from the surface of the rod 10. Thus, under the condition that the user can clearly view the content of the screen, the user does not need to rotate the display module 20, and the display module 20 is in the first state, so that the positions of the display module 20 and the rod body 10 are arranged compactly. In the case that the user cannot clearly view the content of the screen, the user can freely rotate the display module 20, and the display module 20 is in the second state, so that the user can more easily view the content displayed by the display module 20.

The handle assembly 100 may further include a hinge structure (not shown) disposed at one side of the display module assembly 20, wherein the hinge structure can be bent or unfolded, the display module assembly 20 can be bent along with the bending of the hinge structure, and the display module assembly 20 can be unfolded along with the unfolding of the hinge structure. Specifically, display module assembly 20 includes flexible display screen, and hinge structure can set up in display module assembly 20's non-display surface one side, and hinge structure can adopt memory material to make, so, hinge structure can be after buckling can expand (resume the shape before buckling promptly) to can drive display module assembly 20 and buckle and expand. Here, the bending in the embodiment of the present application means a form in which the hinge structure can be bent at any angle in a range of 0 ° or more and less than 180 °. Similarly, the display module 20 can be bent to any angle in the range of 0 ° or more and less than 180 °. The unfolding in the embodiment of the present application means that the hinge structure can be unfolded from the folded form in the above-described angle range to a form having a larger angle, for example, the hinge structure is unfolded from the folded form of 0 ° to the folded form of 10 °; the hinge structure unfolds from a 90 ° folded configuration to a 150 ° folded configuration, and so on. Similarly, the display module 20 can be unfolded from the folded state in the above-described angle range to a state with a larger angle.

In other embodiments, the area of the hinge structure may be greater than or equal to the area of the display module 20 so that the display module 20 can be completely attached to the hinge structure, and thus the display module 20 can be better bent along with the bending of the hinge structure and unfolded along with the unfolding of the hinge structure.

When display module assembly 20 (or hinge structure) is in the first state and display module assembly 20 is in the form of buckling, the user can not clear away the content of watching the screen, the user can rotate display module assembly 20 earlier so that display module assembly 20 is in the second state, because display module assembly 20's profile shape keeps the shape of laminating with the surface of the body of rod 10 when being in the first state, display module assembly 20's profile is the curved surface form promptly, at this moment, user's accessible hinge structure expandes display module assembly 20, so that more clearly watch the content that display module assembly 20 shows. Of course, the user may also flatten the hinge structure, and the display module assembly 20 can be flattened along with the flattening of the hinge structure. The flat state in the embodiment of the present application means that the hinge structure can be unfolded from the bent state in the above-described angle range (0 ° or more and less than 180 °) to the flat state of 180 °. Similarly, the display module 20 can be unfolded from the bent state in the above-mentioned angle range (0 ° or more and less than 180 °) to the flat state of 180 °. Thus, the display module 20 in the flat state facilitates users to view the contents of the screen more clearly.

When the user needs to attach the display module assembly 20 to the surface of the rod body 10, that is, when the display module assembly 20 (or the hinge structure) is in the second state and the display module assembly 20 is in the unfolding state (or the flattening state), the user can bend the display module assembly 20 through the hinge structure first, and then rotate the display module assembly 20 so that the display module assembly 20 is in the first state. In other embodiments, the user may first rotate the display module 20 to the first state, and then bend the display module 20 through the hinge structure to make the display module 20 adhere to the surface of the rod 10.

The rotating fitting 13 is provided with a groove 130, and the side walls of the two opposite sides of the groove 130 are provided with shaft holes 131. The rotating assembly 22 is disposed in the groove 130, the rotating assembly 22 includes two rotating shafts 221, and the number of the rotating shafts 221 is the same as that of the shaft holes 131, that is, in the present embodiment, the number of the rotating shafts 221 is also two, and the two rotating shafts 221 are respectively installed in the two corresponding shaft holes 131 and can rotate relative to the rod body 10. Thus, the structure of the rotation shaft 221 and the shaft hole 131 is simple, and the difficulty in manufacturing the handle assembly 100 can be reduced.

The display assembly 21 includes a display bracket 23, a fitting bracket 24 and a display 25. Support holding tank 230 has been seted up to the lateral surface of display screen support 23, and laminating frame 24 is acceptd in support holding tank 230, and laminating frame holding tank 240 has been seted up on the surface of laminating frame 24 that keeps away from display screen support 23, and display screen 25 is acceptd in laminating frame holding tank 240. The rotating assembly 22 can be connected to the display bracket 23, so that the display assembly 21 can drive the display bracket 23, the attaching frame 24 and the display 25 to rotate together through the rotating assembly 22. Of course, in other embodiments, pivot assembly 22 may be coupled to conformable frame 24. Alternatively, the rotating assembly 22 may be connected to both the display bracket 23 and the attachment bracket 24.

The rod body 10 is provided with a wire casing 110, and the wire casing 110 is arranged on the surface of the rod body 10 close to the groove 130. A wire hole 241 is formed on the bottom surface of the accommodating groove 240 of the attaching frame, and the wire hole 241 penetrates through the attaching frame 24 so that the accommodating groove 240 of the attaching frame is communicated with the accommodating groove 230 of the bracket. The bottom surface of the bracket accommodating groove 230 is provided with a wiring groove 231, the wiring groove 231 penetrates through the display screen bracket 23, the wiring groove 231 is communicated with the wiring groove 110 and the bracket accommodating groove 230, and the wiring groove 110 is arranged at one end of the display screen bracket 23 close to the rotating assembly 22. The display module 20 further includes a wire, which is connected to the display screen 25 and is disposed through the wire hole 241, the wire slot 231 and the wire slot 110. Thus, the position of the wire slot 231 corresponds to (communicates with) the position of the wire slot 110, and the wires of the display module 20 can extend into the rod body 10 through the wire slot 110 in a short distance after extending out of the wire slot 231.

The rod 10 includes a first rod 11 and a second rod 12 connected to each other. The rotating fitting piece 13 is disposed at one end of the second rod 12 close to the first rod 11, the slot 110 is disposed at one end of the first rod 11 close to the second rod 12, the outer surface of the first rod 11 is inwardly recessed relative to the outer surface of the second rod 12 to form a rod receiving groove 111, and the display module 20 can be received in the rod receiving groove 111 or extend out of the rod receiving groove 111 when rotating relative to the rod 10. That is, when the display module 20 rotates relative to the rod 10 to the first state, the display module 20 is accommodated in the rod accommodating groove 111, and when the display module 20 rotates relative to the rod 10 to the second state, the display module 20 extends out of the rod accommodating groove 111. Thus, under the condition that the user can clearly view the content of the screen, the user does not need to rotate the display module 20, and the display module 20 is accommodated in the rod body accommodating groove 111, so that the positions of the display module 20 and the rod body 10 are arranged compactly, at this time, the shape of the handle assembly 100 can be columnar, for example, the handle assembly 100 can be cylindrical or prismatic, and thus, the columnar handle assembly 100 can be held by the user conveniently. And under the condition that the user can not clearly watch the content of screen, the user can rotate display module assembly 20 outside body of rod holding tank 111 for display module assembly 20 is relative user's inclination changes, and the user can freely adjust this inclination according to the condition of self and display module assembly 20's relative position or screen reflection of light.

The stick body 10 further comprises a rear cover bracket 14 and a rear cover 15. The rear cover bracket 14 is mounted on the rod 10, and specifically, the rear cover bracket 14 may be fixed on the first rod 11, and the rear cover bracket 14 is received in the rod receiving groove 111 and located on a side of the first rod 11 away from the display module 20. The rear cover 15 is fixed on the rear cover bracket 14, specifically, a rear cover accommodating groove 140 is opened on a surface of the rear cover bracket 14 away from the first rod 11, and the rear cover 15 is accommodated in the rear cover accommodating groove 140. The second rod 12 may be a cylindrical structure, and when the display module 20 is accommodated in the rod accommodating groove 111, the outer side surface of the display screen 25 is flush with the outer side surface of the second rod 12, and the outer side surface of the rear cover 15 is flush with the outer side surface of the second rod 12. Thus, the rear cover bracket 14 and the rear cover 15 can form a symmetrical structure with the display module 20, which is beneficial to the overall structure of the handle assembly 100 to be more ornamental.

In some embodiments, the first rod 11 may have a cylindrical structure, and a cavity may be formed inside the first rod 11. The wire groove 110 communicates with the cavity in the first rod 11. The radial dimension of the second rod 12 is larger than that of the first rod 11, and the surface of the second rod 12 can be used as the side surface of the rod receiving groove 111. The cavity is formed inside the second rod 12, and the cavity inside the second rod 12 is communicated with the cavity inside the first rod 11. The rotation fitting member 13 may be a part of the second rod 12, that is, the outer surface of the second rod 12 is provided with a groove 130, and the groove 130 penetrates through the outer peripheral surface of the second rod 12 and the outer end surface near one side of the first rod 11. The side walls of the two opposite sides of the groove 130 are provided with shaft holes 131, and the shaft holes 131 can penetrate through the side walls and communicate with the cavity in the second rod body 12.

The stick 10 may further include a connection cover 16 and a top case 17. The connection cover 16 includes a cover body 160 and a coupling arm 161. The cover 160 may be cylindrical, and an end surface of the cover 160 is formed with a receiving groove 162 (see fig. 4). The cover 160 is disposed on the end of the first rod 11 away from the second rod 12, and the cover 160 is fixed on the first rod 11 such that one end of the first rod 11 is received in the receiving groove 162. The coupling arm 161 is provided on the outer circumferential surface of the cover 160 and is located at one end of the cover 160 near the rear cover holder 14. The number of the coupling arms 161 may be one or more, and when the number of the coupling arms 161 is plural, the plural coupling arms 161 may be uniformly wound around the outer circumferential surface of the cover 160.

The top case 17 may have a cylindrical shape. An end surface of the top case 17 is formed with an accommodating groove 170 and a coupling groove 171 (see fig. 4) which are communicated with each other. The top case 17 is disposed on an end of the cover 160 away from the coupling arm 161, the cover 160 is received in the receiving groove 170, and the coupling arm 161 is received in the coupling groove 171 and fixed on the top case 17. The end face of the top case 17 remote from the connection cover 16 may be connected to other components.

In some embodiments, the display bracket 23 can be received in the rod receiving groove 111, and when the display bracket 23 is received in the rod receiving groove 111, the display bracket 23 and the back cover bracket 14 are located on opposite sides of the first rod 11. The surface of the attaching frame 24 may not be completely attached to the bottom surface of the bracket receiving groove 230 to form a receiving space of a proper size with the bottom surface of the bracket receiving groove 230, the receiving space is communicated with the wire routing groove 231, so that the wires of the display module 20 can be received in the receiving space, and the wire routing hole 241 may communicate the attaching frame receiving groove 240 with the receiving space. One end of the wire of the display module 20 is connected to the display screen 25, and the other end of the wire passes through the wire hole 241 and enters the accommodating space from the accommodating groove 240 of the attaching frame, and then passes out of the display module 21 from the wire groove 231, and at this time, the wire can extend into the rod 10 from the wire groove 110 of the first rod 11 and electrically connect to the electronic component located in the rod 10.

In some embodiments, the rotating assembly 22 further includes a rotating body 220 connected to a rotating shaft 221, and the rotating shaft 221 is located on two opposite sides of the rotating body 220. The rotating body 220 is fixed to an outer surface of the display bracket 23 and is received in the groove 130. Of course, in other embodiments, the rotating assembly 22 may also be fixed on the fitting frame 24, for example, the rotating body 220 may also be fixed on the outer surface of the fitting frame 24 and received in the groove 130. Alternatively, the rotating assembly 22 may be fixed to both the display bracket 23 and the attaching bracket 24, for example, the rotating body 220 may be fixed to the outer surfaces of the display bracket 23 and the attaching bracket 24 and received in the groove 130.

In some embodiments, the rotating shaft 221 may be an elastic telescopic shaft, that is, when the rotating shaft 221 is pressed from the outer end surface of the rotating shaft 221 toward the rotating body 220, the rotating shaft 221 may be retracted toward the pressing direction by a distance corresponding to the pressing direction, so that when the rotating assembly 22 is installed toward the inside of the groove 130, the rotating shaft 221 may be compressed toward the inside of the rotating body 220 by the extrusion of the sidewall of the groove 130, so that the rotating assembly 22 may slide into the groove 130, and when the rotating shaft 221 slides to the position of the shaft hole 131, the rotating shaft 221 may recover the original length under the action of the extrusion of the sidewall, so that the rotating shaft 221 may be inserted into the shaft hole 131, which is beneficial to more convenient for installing the display module 20 and simplifying the structure of the connection between the rotating display module 20 and the rod 10.

In some embodiments, one or more annular grooves (not shown) may be further formed on the outer circumferential surface of the rotating shaft 221, and the annular groove may be formed in the middle of the rotating shaft 221 so that at least a portion of the annular groove is located outside the shaft hole 131 after the rotating shaft 221 passes through the shaft hole 131. Thus, when the user needs to replace or maintain the display module 21, the user can insert an auxiliary tool (e.g. a blade or a card) into the groove 130 and push against the sidewall of the annular groove to push the rotating shaft 221 into the rotating body 220, so that the rotating shaft 221 gradually retracts into the rotating body 220 and exits from the shaft hole 131, thereby detaching the display module 21 from the rod body 10.

In some embodiments, when the display module 20 rotates to the first state relative to the rod 10, the display module 20 is attached to the surface of the rod 10, that is, the display module 21 is accommodated in the rod accommodating groove 111 and the surface of the display bracket 23 is attached to the bottom surface of the rod accommodating groove 111. In this embodiment, the bending radius of the inner surface of the display module 21 (or the inner surface of the display screen support 23) may be smaller than or equal to the radius of the first rod 11, so that when the display module 20 is in the first state, the display module 21 can be firmly clamped on the first rod 11, and the surface of the display screen support 23 opposite to the display screen 25 can be attached to the outer surface of the first rod 11 as much as possible; the outer surface of the display component 21 (or the outer surface of the display screen 25) of the present embodiment may have a bending radius greater than or equal to the radius of the second rod 12, and when the outer surface of the display component 21 has a bending radius equal to the radius of the second rod 12, the outer surface of the display component 21 is flush with the outer surface of the second rod 12, so that the handle component 100 has a more beautiful appearance; when the outer surface bending radius of the display module 21 is larger than the radius of the second rod 12, the bending radius of the display screen 25 in the display module 21 is also larger, and at this time, the effect of displaying the image picture by the display screen 25 is better. When the display module 20 rotates to the second state relative to the rod 10, the display element 21 is separated from the surface of the second rod 12, i.e. the display element 21 is located outside the rod receiving groove 111. So, display module assembly 20 is through switching between first state and second state, and when the user can not watch the content of display screen 25 well or the user saw the screen reflection of display screen 25, the user can rotate freely and adjust the relative body of rod 10 pivoted angle of display module assembly 20 to reduce the light that display screen 25 reflects and get into user's eyes, the user can watch the content that display module assembly 20 shows comparatively easily.

Referring to fig. 3 and 4, the handle assembly 100 may further include an inner case 30, a circuit board 40, a battery 50, a battery cover 60, and a bottom case 70.

The inner housing 30 is received in the second rod 12. The inner case 30 includes a coupling plate 31, an installation plate 32, and a fixing plate 33, which are sequentially connected, and the coupling plate 31 and the fixing plate 33 are respectively fixed to both ends of the installation plate 32. The coupling plate 31 is closer to the first rod 11 than the fixing plate 33, and the inner shell 30 can be suspended in the second rod 12 by fixing the coupling plate 31 and the second rod 12. The combining plate 31 can be fixed in the second rod 12 by screws, and the combining plate 31 is provided with a notch 310. The notch 310 formed in the combining plate 31 can avoid the position of the groove 130 of the second rod 12, and the notch 310 formed in the combining plate 31 is also beneficial to the wire of the display module 20 to extend into the second rod 12 from the wire groove 110 and the notch 310 of the first rod 11.

Mounting plate 32 may be used to mount electronic components. For example, the circuit board 40 and the battery 50 may be mounted on the mounting plate 32. The surface of the mounting plate 32 is formed with a circuit board mounting portion 34, a battery mounting portion (not shown), and a battery cover mounting portion 35, and the circuit board mounting portion 34, the battery mounting portion, and the battery cover mounting portion 35 are all located on the same surface of the mounting plate 32 and spaced apart from each other. The circuit board 40 may be secured to the mounting plate 32 by the circuit board mounting portion 34. The battery 50 may be fixed to the mounting plate 32 by a battery mounting portion. The battery cover 60 may be fixed to the mounting plate 32 by the battery cover mounting portion 35 and cover the battery 50. The circuit board mounting portion 34 is closer to the connection board 31 than the battery mounting portion, so that the wires of the display module 20 can be electrically connected to the circuit board 40 at a shorter distance. The surface of the mounting plate 32 opposite to the circuit board mounting portion 34 may form a plurality of ribs, so that the strength of the mounting plate 32 can be strengthened by the ribs, which is beneficial to avoiding the breakage or excessive bending of the mounting plate 32.

The bottom case 70 is installed in the second stick body 12. Specifically, the bottom case 70 may be fixed on the fixing plate 33 by screws. Thus, the bottom case 70 can isolate the mounting plate 32 from the external environment of the handle assembly 100, thereby preventing the electronic components on the mounting plate 32 from being damaged by direct contact with impurities such as dust and water.

In the embodiment of the present disclosure, the upper end 26 of the display module 20 is the end of the display module 21 close to the top case 17, the lower end 27 of the display module 20 is the end of the display module 21 opposite to the top case 17, and the left end 28 and the right end 29 of the display module 20 are the two ends of the display module 21 close to the rear cover bracket 14.

In the handle assembly 100 of this application embodiment, when this handle assembly 100 is held to the user, handle assembly 100 is certain angle with user's hand usually to be located the display module assembly 20 on handle assembly 100 and not directly towards the user, because the display module assembly 20 of this application can freely rotate, including the display surface of display module assembly 20 rotates towards user's direction, therefore display module assembly 20 can be towards the user, promotes user experience. In addition, when the user sees the screen reflection of the display module 20, the user can also freely rotate the display module 20 so that the light reflected by the display module 20 does not irradiate the eyes of the user, and thus the user can more easily view the content displayed by the display module 20.

With continued reference to fig. 1 and 2, a handheld device 300 according to an embodiment of the present disclosure includes a handle assembly 100 according to any of the above embodiments and a shaft arm 200, wherein the handle assembly 100 is connected to the shaft arm 200.

In the handheld device 300 of the embodiment of the present application, when the user holds the handle assembly 100, the handle assembly 100 is usually at a certain angle with the hand of the user, so that the display module 20 located on the handle assembly 100 does not directly face the user, and since the display module 20 of the present application can freely rotate, the display surface including the display module 20 rotates towards the user direction, the display module 20 can face the user, and the user experience is improved. In addition, when the user sees the screen reflection of the display module 20, the user can also freely rotate the display module 20 so that the light reflected by the display module 20 does not irradiate the eyes of the user, and thus the user can more easily view the content displayed by the display module 20.

It is understood that the axle arm 200 may be a single axle arm, a two axle arm, a three axle arm, or even more axle arms. When the axle arm 200 is a triaxial axle arm, the axle arm 200 may include a yaw axle arm 201, a roll axle arm 202, and a pitch axle arm 203, the yaw axle arm 201, the roll axle arm 202, and the pitch axle arm 203 are sequentially connected and can rotate relatively, the rotation axes of the three are non-orthogonal, and of course, the rotation axes of the three may also be all perpendicular to each other. The handle assembly 100 may be coupled to a yaw axis arm 201, the yaw axis arm 201 being rotatable relative to the handle assembly 100. The handheld device 300 of the embodiment of the application can be used in combination with a shooting device, and can be used for shooting movies, entertainment, self-shooting and the like.

The embodiment of the present application further provides a photographing apparatus (not shown), the photographing apparatus includes the handle assembly 100 of any of the above embodiments, a photographing device (not shown), and at least one shaft arm 200, the shaft arm 200 is connected to the rod 10, and the photographing device is fixed on any one of the shaft arms 200.

In the shooting equipment of this application embodiment, when this handle assembly 100 is held to the user, handle assembly 100 is certain angle with user's hand usually to be located the display module assembly 20 on handle assembly 100 and not directly towards the user, because the display module assembly 20 of this application can rotate freely, including the display surface of display module assembly 20 rotates towards user's direction, therefore display module assembly 20 can be towards the user, promotes user experience. In addition, when the user sees the screen reflection of the display module 20, the user can also freely rotate the display module 20 so that the light reflected by the display module 20 does not irradiate the eyes of the user, and thus the user can more easily view the content displayed by the display module 20.

It is understood that the axle arm 200 may be a single axle arm, a two axle arm, a three axle arm, or even more axle arms. When the axle arm 200 is a triaxial axle arm, the axle arm 200 may include a yaw axle arm 201, a roll axle arm 202, and a pitch axle arm 203, the yaw axle arm 201, the roll axle arm 202, and the pitch axle arm 203 are sequentially connected and can rotate relatively, the rotation axes of the three are non-orthogonal, and of course, the rotation axes of the three may also be all perpendicular to each other. The handle assembly 100 may be coupled to a yaw axis arm 201, the yaw axis arm 201 being rotatable relative to the handle assembly 100. The shooting equipment of the embodiment of the application can be used for shooting of movies, entertainment, self-timer shooting and the like.

While embodiments of the present application have been shown and described, it will be understood by those of ordinary skill in the art that: numerous changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the application, the scope of which is defined by the claims and their equivalents.

Claims (14)

1. A handle assembly is applied to a handheld device and is characterized by comprising a rod body and a display module, wherein the display module is arranged on the rod body and can rotate relative to the rod body;

the display module assembly can switch between the first state and the second state when relative the body of rod rotates under the first state, the display module assembly is in the laminating of the surface of the body of rod.

2. The handle assembly of claim 1, wherein the display module comprises a display assembly and a rotating assembly at an end of the display module, and wherein the shaft comprises a rotating mating member, and the rotating assembly and the rotating mating member cooperate to rotate the display module relative to the shaft.

3. The handle assembly of claim 2, wherein the rotating assembly is located at a lower end or an upper end of the display module, and a rotation axis of the display module is perpendicular to a central axis of the rod body.

4. The handle assembly of claim 2, wherein the rotating assembly is located at a left end or a right end of the display module, and a rotation axis of the display module is parallel to a central axis of the rod body.

5. The handle assembly of claim 1, further comprising a hinge structure disposed on a side of the display module, wherein the display module bends with bending of the hinge structure, and wherein the display module is capable of unfolding with unfolding of the hinge structure.

6. The handle assembly of claim 5, wherein the display module comprises a display assembly and a rotating assembly at an end of the display module, the rotating assembly being rotatably disposed on the rod; in the second state, the display assembly is separated from the surface of the rod body, and the display module can be unfolded along with the unfolding of the hinge structure.

7. The handle assembly of claim 6, wherein in the second state, the display module is flattenable as the hinge structure flattens.

8. The handle assembly of claim 2, wherein the rotating fitting member is formed with a recess, and the side walls of the recess on opposite sides are formed with shaft holes;

the rotating assembly comprises two rotating shafts, the rotating assembly is arranged in the groove, and the two rotating shafts are respectively arranged in the shaft holes and can rotate relative to the rod body.

9. The handle assembly of claim 8, wherein the display assembly comprises:

the display screen support is characterized in that a support accommodating groove is formed in the outer side surface of the display screen support;

the bonding frame is accommodated in the support accommodating groove, and the surface of the bonding frame, which is far away from the display screen support, is provided with a bonding frame accommodating groove; and

the display screen is accommodated in the laminating frame accommodating groove;

the rotating assembly is connected with the display screen support and/or the attaching frame to drive the display screen support, the attaching frame and the display screen to rotate together.

10. The handle assembly of claim 9, wherein the post defines a slot defined in a surface of the post proximate the groove;

a wiring hole penetrating through the attaching frame is formed in the bottom surface of the attaching frame accommodating groove, and the wiring hole is communicated with the support accommodating groove and the attaching frame accommodating groove;

a wiring groove penetrating through the display screen bracket is formed in the bottom surface of the bracket accommodating groove and communicated with the wiring groove and the bracket accommodating groove, and the wiring groove is formed in one end, close to the rotating assembly, of the display screen bracket;

the display module further comprises a wire, and the wire is connected with the display screen and penetrates through the wiring hole, the wiring groove and the wiring groove.

11. The handle assembly of claim 10, wherein the shaft comprises a first shaft and a second shaft connected together, the rotating fitting is located at an end of the second shaft adjacent to the first shaft, and the slot is formed at an end of the first shaft adjacent to the second shaft;

the first rod body is sunken relative to the second rod body to form a rod body accommodating groove, and the display module can be accommodated in the rod body accommodating groove or extend out of the rod body accommodating groove when rotating relative to the rod body.

12. The handle assembly of claim 11, wherein the rod comprises a rear cover bracket and a rear cover, the rear cover bracket is fixed to the first rod, the rear cover bracket is received in the rod receiving groove and is located on a side of the first rod away from the display module, and the rear cover is fixed to the rear cover bracket;

the second body of rod is cylindrical, works as display module assembly accepts when in the body of rod holding tank, the lateral surface of display screen with the lateral surface of the second body of rod flushes, the lateral surface of back lid with the lateral surface of the second body of rod flushes.

13. A handheld apparatus, characterized in that the handheld apparatus comprises:

a handle assembly as claimed in any one of claims 1 to 12; and

at least one shaft arm, the shaft arm with the body of rod is connected.

14. A photographing apparatus characterized by comprising:

a handle assembly as claimed in any one of claims 1 to 12;

at least one shaft arm connected with the rod body; and

and the shooting device is fixed on any one of the shaft arms.

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