CN113228835A - Flip mechanism, shell, electronic equipment, movable platform and camera - Google Patents

Abstract

The application provides a flip mechanism (100), and the flip mechanism (100) comprises a rotating part (10) and a sliding cover component (50). The rotating member (10) is provided with a guide portion (151) and a first stopper portion (113). The sliding cover assembly (50) comprises a sliding cover (51) and a limiting piece (512), the limiting piece (512) comprises a first limiting portion (5121), and the first limiting portion (5121) is matched with the first stopping portion (113) to limit the sliding cover (51) to move along the guide portion (151).

Description

Flip mechanism, shell, electronic equipment, movable platform and camera

Technical Field

The present disclosure relates to the field of battery installation, and more particularly, to a flip mechanism, a housing, an electronic device, a movable platform, and a camera.

Background

When using electronic equipment or movable platform such as camera, projector, unmanned aerial vehicle, unmanned vehicles, often need use the detachable battery to provide the electric quantity supply to take out the battery when needs and charge, pack the battery compartment into with the battery after charging. At present, some batteries and battery covers are integrated into a whole, and the batteries are fixedly connected to a housing of an electronic device or a movable platform body of a movable platform through a plurality of latches. During installation, the lock catches on the two sides need to be pressed down, and on one hand, the structure form of locking the two lock catches makes the structure complex and the cost high; on the other hand, in the use, the user often can lock a hasp less and make the battery installation not in place, can lead to into water or battery drop scheduling problem from this.

Disclosure of Invention

The embodiment of the application provides a flip mechanism, a shell, electronic equipment, a movable platform and a camera.

The flip mechanism of the embodiment of the application comprises a rotating part, a rotating shaft, a sliding cover component and a resetting part. The rotating piece is provided with a guide part and a first stopping part. The rotating shaft penetrates through the first end of the rotating piece. The sliding cover assembly comprises a sliding cover and a limiting part arranged on the first side of the sliding cover, the sliding cover is movably combined with the rotating part, the first side of the sliding cover is opposite to the first side of the rotating part, a locking part is arranged at one end, away from the rotating shaft, of the sliding cover, the locking part is used for being locked with an external device, the limiting part comprises a first limiting part, and the first limiting part is matched with the first stopping part to limit the sliding cover to move along the guide part. The reset piece is arranged on the rotating shaft and connected with the first end of the rotating piece. When the first limiting part is disengaged from the first stopping part, the sliding cover can move along the rotating part in the direction away from the rotating shaft until the locking part and the external device are unlocked, and the reset part drives the rotating part and the sliding cover assembly to rotate together to enable the sliding cover to be in an open state.

The shell of the embodiment of the application comprises a shell body and a flip mechanism, wherein the flip mechanism is installed on the shell body. The flip mechanism comprises a rotating part, a rotating shaft, a sliding cover component and a resetting part. The rotating piece is provided with a guide part and a first stopping part. The rotating shaft penetrates through the first end of the rotating piece. The sliding cover assembly comprises a sliding cover and a limiting part arranged on the first side of the sliding cover, the sliding cover is movably combined with the rotating part, the first side of the sliding cover is opposite to the first side of the rotating part, a locking part is arranged at one end, away from the rotating shaft, of the sliding cover, the locking part is used for being locked with an external device, the limiting part comprises a first limiting part, and the first limiting part is matched with the first stopping part to limit the sliding cover to move along the guide part. The reset piece is arranged on the rotating shaft and connected with the first end of the rotating piece.

The electronic equipment of the embodiment of the application comprises a battery and a shell, wherein the battery is installed in the shell. The shell comprises a shell body and a flip mechanism, wherein the flip mechanism is installed on the shell body. The flip mechanism comprises a rotating part, a rotating shaft, a sliding cover component and a resetting part. The rotating piece is provided with a guide part and a first stopping part. The rotating shaft penetrates through the first end of the rotating piece. The sliding cover assembly comprises a sliding cover and a limiting part arranged on the first side of the sliding cover, the sliding cover is movably combined with the rotating part, the first side of the sliding cover is opposite to the first side of the rotating part, a locking part is arranged at one end, away from the rotating shaft, of the sliding cover, the locking part is used for being locked with an external device, the limiting part comprises a first limiting part, and the first limiting part is matched with the first stopping part to limit the sliding cover to move along the guide part. The reset piece is arranged on the rotating shaft and connected with the first end of the rotating piece.

The movable platform of the embodiment of the application comprises a movable platform body and a shell, wherein the shell is installed on the movable platform. The shell comprises a shell body and a flip mechanism, wherein the flip mechanism is installed on the shell body. The flip mechanism comprises a rotating part, a rotating shaft, a sliding cover component and a resetting part. The rotating piece is provided with a guide part and a first stopping part. The rotating shaft penetrates through the first end of the rotating piece. The sliding cover assembly comprises a sliding cover and a limiting part arranged on the first side of the sliding cover, the sliding cover is movably combined with the rotating part, the first side of the sliding cover is opposite to the first side of the rotating part, a locking part is arranged at one end, away from the rotating shaft, of the sliding cover, the locking part is used for being locked with an external device, the limiting part comprises a first limiting part, and the first limiting part is matched with the first stopping part to limit the sliding cover to move along the guide part. The reset piece is arranged on the rotating shaft and connected with the first end of the rotating piece.

The flip mechanism, the shell, the electronic device and the movable platform of the embodiment of the application are locked by the locking part and the external device to enable the sliding cover to be in a closed state, and when the first limiting part is disengaged from the first stopping part, the sliding cover can move along the rotating part towards the direction away from the rotating shaft, and until the locking part is disengaged from the external device, the resetting part drives the rotating part and the sliding cover assembly to rotate together to enable the sliding cover to be in an open state; on the other hand, no matter unlocking or locking is performed, the locking or unlocking of the locking part and an external device is only performed, the problem that a lock catch is omitted cannot exist, the locking operation or the unlocking operation of the locking part and the external device is simple and easy to implement, the battery can be guaranteed to be installed in place, and the problem of water inflow or battery falling is avoided.

The camera of the embodiment of the application comprises a shell body and a flip mechanism. The battery box is characterized in that the shell body is provided with a battery bin for containing batteries, the battery bin is provided with an opening, and the batteries are contained in the battery bin through the opening. The flip mechanism is connected with the shell body and used for covering the opening. The flip mechanism comprises a rotating piece, a sliding cover and a resetting piece. The rotating part is rotatably connected with the shell body, and the rotating shaft direction of the rotating part extends along a first direction. The slide cover is mounted on the rotation member and is movable in a second direction with respect to the rotation member, the second direction intersecting the first direction. The reset piece is connected with the sliding cover or/and the rotating piece and used for providing elastic force for the sliding cover. When the sliding cover moves to a first position relative to the rotating part, the sliding cover can be clamped with the shell body, so that the sliding cover is in a closed state; when the sliding cover moves to a second position relative to the rotating part, the sliding cover is disengaged from the shell body, and the sliding cover rotates relative to the shell body under the action of the elastic force of the reset part to be in an open state.

The camera of the embodiment of the application utilizes the sliding cover to be clamped with the shell body, so that the sliding cover is in a closed state; when the sliding cover moves to the second position relative to the rotating part, the sliding cover is separated from the clamping state with the shell body, and the sliding cover rotates relative to the shell body under the action of the elastic force of the resetting part to be in an opening state, on one hand, a battery can be locked without two lock catches, the battery locking structure is simple, and the cost is low; on the other hand, no matter whether unlocking or locking is performed, only the sliding cover is used, the problem of omitting a certain lock cannot exist, the operation for the sliding cover is simple and easy, the battery can be installed in place, and the problem of water inflow or battery falling is avoided. .

Additional aspects and advantages of embodiments 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 embodiments 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 perspective assembly schematic view of a flip mechanism according to some embodiments of the present application;

FIG. 2 is a perspective assembly view from another perspective of a flip mechanism according to some embodiments of the present application;

FIG. 3 is an exploded perspective view of a flip mechanism according to some embodiments of the present application;

FIG. 4 is an exploded perspective view of a rotating member of the flip mechanism of certain embodiments of the present application;

FIG. 5 is an exploded isometric view of a slider assembly of the flip mechanism of some embodiments of the present application;

FIG. 6 is a cross-sectional view of a flip mechanism of certain embodiments of the present application;

FIG. 7 is another cross-sectional view of the flip mechanism of certain embodiments of the present application;

FIG. 8 is yet another cross-sectional view of the flip mechanism of certain embodiments of the present application;

FIG. 9 is an exploded isometric view of the housing of certain embodiments of the present application;

FIG. 10 is a perspective view of an electronic device or camera according to some embodiments of the present application;

FIG. 11 is a cross-sectional view of an electronic device or camera of some embodiments of the present application;

FIG. 12 is another perspective view of an electronic device or camera according to some embodiments of the present application;

FIG. 13 is a schematic diagram of a movable platform according to some embodiments 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 "thickness," "upper," "top," "bottom," "inner," "outer," etc. indicate orientations or positional relationships based on those shown in the drawings, which are merely for convenience in describing the present application and simplifying the description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present application. Furthermore, 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. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship.

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 to 3, the present application provides a flip cover mechanism 100, in which the flip cover mechanism 100 includes a rotating member 10, a rotating shaft 30, a sliding cover assembly 50, and a reset member 70. The rotor 10 is provided with a guide 151 and a first stopper 113. The rotating shaft 30 is inserted through the first end 13 of the rotating member 10. The sliding cover assembly 50 includes a sliding cover 51 and a limiting member 512 disposed on a first side 511 of the sliding cover 51, the sliding cover 51 is movably combined with the rotating member 10, the first side 511 of the sliding cover 51 is opposite to the first side 11 of the rotating member 10, one end of the sliding cover 51 away from the rotating shaft 30 is provided with a locking portion 513, the locking portion 513 is used for locking with an external device, the limiting member 512 includes a first limiting portion 5121, and the first limiting portion 5121 is matched with the first stopping portion 113 to limit the sliding cover 51 to move along the guiding portion 151. The reset member 70 is disposed on the rotation shaft 30 and connected to the first end 13 of the rotation member 10. When the first limiting portion 5121 is disengaged from the first stopping portion 113, the sliding cover 51 can move along the rotating member 10 in a direction away from the rotating shaft 30 until the locking portion 513 is unlocked from the external device, and the reset member 70 drives the rotating member 10 and the sliding cover assembly 50 to rotate together to open the sliding cover 51.

The flip cover mechanism 100 according to the embodiment of the present application may form an accommodating space together with an external device. When the first limiting portion 5121 is engaged with the first stopping portion 113, the locking portion 513 is locked with the external device, the sliding cover 51 is in a closed state, and the accommodating space is closed. When the first limiting portion 5121 is disengaged from the first stopping portion 113, the sliding cover 51 can move along the rotating member 10 in a direction away from the rotating shaft 30 until the locking portion 513 is unlocked from the external device, the reset member 70 drives the rotating member 10 and the sliding cover assembly 50 to rotate together, so that the sliding cover 51 is in an open state, and the accommodating space is changed from a closed state to an open state. The flip cover mechanism 100 according to the embodiment of the application only needs to apply an external force to the limiting member 512, so that the first limiting portion 5121 and the first stopping portion 113 can be disengaged, when the sliding cover 51 moves to the locking portion 513 along the rotating member 10 in a direction away from the rotating shaft 30 and is unlocked with the external device, the external force does not need to be continuously applied, and the resetting member 70 drives the rotating member 10 and the sliding cover assembly 50 to rotate together, so that the sliding cover 51 is in an open state, and an unlocking function is realized. Under the action of the reset member 70, the sliding cover 51 can be kept in the open state without being locked again due to the rotation of its own weight. When the sliding cover 51 needs to be closed again, only an external force needs to be applied to the sliding cover 51 to lock the locking portion 513 of the sliding cover 51 and the external device, so that the sliding cover 51 can be closed again, and when the sliding cover 51 is closed again, the first limiting portion 5121 is matched with the first stopping portion 113 again to limit the opening of the sliding cover 51 together with the locking portion 513 of the sliding cover 51. In summary, the unlocking manner of the flip mechanism 100 according to the embodiment of the present application is simple, and the user has few actions during the unlocking and locking processes, so that the damage to the flip mechanism 100 caused by the complicated operation can be reduced. Meanwhile, as the flip mechanism 100 has less actions by the user in the locking process, incomplete locking of the flip mechanism 100 caused by the user missing the locking step can be prevented, reliable locking of the flip mechanism 100 when the sliding cover 51 is in a closed state is ensured, and exposure or falling of articles contained in a containing space formed by the flip mechanism 100 and an external device together is avoided.

The following is further described with reference to the accompanying drawings.

Referring to fig. 1 to 3, in some embodiments, the rotating member 10 includes a first surface 111 and a second surface 121 opposite to each other, and the first surface 111 of the rotating member 10 is located on the first side 11 of the rotating member 10. The first surface 111 of the rotating member 10 is provided with a groove 1111, and the first stopping portion 113 extends from a side surface 1112 of the groove 1111 to the center of the groove 1111. The first stopping portion 113 is spaced from the bottom surface 1110 of the recess 1111. The rotor 10 also includes oppositely disposed first and second ends 13 and 14.

The bottom surface 1110 of the groove 1111 may be parallel to the first surface 111 of the rotation member 10, and the side surface 1112 of the groove 1111 connects the bottom surface 1110 of the groove 1111 with the first surface 111 of the rotation member 10. The surface of the first stopping portion 113 facing away from the bottom surface 1110 of the groove 1111 is on the same plane as the first surface 111 of the rotating member 10, so as to facilitate the forming process. The space between the first stopping portion 113 and the bottom surface 1110 of the groove 1111 can pass through the first limiting portion 5121, that is, the first limiting portion 5121 can move from the first end 13 of the rotating member 10 to the second end 14 of the rotating member 10 in the space, so as to realize that the sliding cover 51 moves along the rotating member 10 to the second end 14 of the rotating member 10; or the first limiting portion 5121 can move from the second end 14 of the rotating member 10 toward the first end 13 of the rotating member 10 in the gap space, so as to realize that the sliding cover 51 moves along the rotating member 10 toward the first end 13 of the rotating member 10.

Referring to fig. 3, in some embodiments, the first blocking portion 113 is formed with a notch 1131 to form a first sub-blocking portion 1133 and a second sub-blocking portion 1135, in a direction from the first end 13 of the rotating member 10 to the second end 14 of the rotating member 10, the second sub-blocking portion 1135 and the first sub-blocking portion 1133 are sequentially arranged, and the first limiting portion 5121 is accommodated in the notch 1131.

The notch 1131 penetrates through the first stopping portion 113, and divides the first stopping portion 113 into a first sub-stopping portion 1133 and a second sub-stopping portion 1135. The first sub-stop 1133 is near the second end 14 of the rotation member 10, and the second sub-stop 1135 is near the first end 13 of the rotation member 10. The first sub-stop portion 1133 is spaced from the bottom surface 1110 of the recess 1111 to pass through the first limiting portion 5121. In one embodiment, the second sub-stop portion 1135 is spaced from the bottom surface 1110 of the groove 1111, but the space between the second sub-stop portion 1135 and the bottom surface 1110 of the groove 1111 is not enough to pass through the first position-limiting portion 5121, so as to limit the first position-limiting portion 5121 from moving toward the first end 13 of the rotating member 10. In another embodiment, the second sub-stop portion 1135 is connected to the bottom surface 1110 of the groove 1111 to limit the first limit portion 5121 from moving toward the first end 13 of the rotation member 10. The notch 1131 is used for accommodating the first limiting portion 5121, so that the first limiting portion 5121 is matched with the first sub-stop portion 1133 and the second sub-stop portion 1135 to limit the first limiting portion 5121 to move toward the first end 13 or the second end 14 of the rotating member 10.

With reference to fig. 3, in some embodiments, first sub-stop portion 1133 includes a first surface 11331, second sub-stop portion 1135 includes a first surface 11351, and first surface 11331 of first sub-stop portion 1133 faces first surface 11351 of second sub-stop portion 1135. The first surface 11331 of the first sub-stop portion 1133 is used for cooperating with the first limiting portion 5121 to limit the first limiting portion 5121 to move toward the second end 14 of the rotating member 10. The first surface 11351 of the second sub-stop portion 1135 is used for cooperating with the first limiting portion 5121 to limit the first limiting portion 5121 to move toward the first end 13 of the rotating member 10.

With reference to fig. 3, in some embodiments, the first sub-positioning portion 1133 further includes a slope 11333 inclined with respect to the bottom surface 1110 of the recess 1111, and the slope 11333 of the first sub-positioning portion 1133 is opposite to the bottom surface 1110 of the recess 1111. The inclined surface 11333 of the first sub-stop portion 113 is used for cooperating with the first limiting portion 5121 to guide the first limiting portion 5121 to move toward the second end 14 of the rotating member 10, so that after the first limiting portion 5121 is disengaged from the first surface 11331 of the first sub-stop portion 1133, the first limiting portion can move toward the second end 14 of the rotating member 10 along the inclined surface 11333 of the first stop portion 113 without being affected by an external force. In addition, in the process that the first limiting portion 5121 moves back to the notch 1131 along the inclined surface 11333 of the first sub-blocking portion 1133 toward the first end 13 of the rotating member 10, the first limiting portion 5121 needs to overcome the inclined surface 11333 of the first blocking portion 113 to do work, so that the first limiting portion 5121 can be prevented from moving back to the notch 1131 along the inclined surface 11333 of the first blocking portion 113 toward the first end 13 of the rotating member 10 without being affected by an external force.

In one embodiment, the first stopping portions 113 include two, and the two first stopping portions 113 are symmetrical about the long axis L1 of the rotating member 10.

Referring to fig. 3, in some embodiments, the first side 11 of the rotating member 10 may further include a second stopping portion 115. The second stop portion 115 is located at the edge of the second end 14 of the rotating member 10. The side surface 1151 of the second stopping portion 115 facing the rotating shaft 30 is used for cooperating with the limiting member 512, so as to limit the limiting member 512 to move towards the second end 14 of the rotating member 10.

Referring to fig. 3, in some embodiments, the rotating component 10 further includes two side surfaces 15 connecting the first surface 111 of the rotating component 10 and the second surface 121 of the rotating component 10, and the guiding portion 151 is a sliding strip 1511 disposed on the two side surfaces 15 of the rotating component 10. The slide 1511 is flush with the first face 111 of the rotor 10 for ease of forming.

Referring to fig. 3 and 4, in some embodiments, a buffering member 17 may be further disposed on the first surface 111 of the rotating member 10, and the buffering member 17 is located at the first end 13 of the rotating member 10. The buffering member 17 can be used for buffering when the sliding cover 51 moves along the rotating member 10 toward the first end 13 or the second end 14 of the rotating member 10 and reaches a limiting position (the first surface 11351 of the second sub-stop portion 1135 is matched with the first limiting portion 5121), so as to reduce the impact force of the sliding cover 51 on the rotating member 10 when the sliding cover 51 moves relative to the rotating member 10, and avoid the damage of the flip mechanism 100 caused by an excessive impact force.

In one embodiment, the buffer 17 may be foam. The buffer member 17 made of foam material has good flexibility and can play a good buffering effect. And the foam cushion 17 has good sound insulation effect, and can absorb the noise generated when the sliding cover 51 impacts the rotating member 10, thereby avoiding the user from being disturbed by the noise.

In another embodiment, the buffer 17 may be rubber. The rubber buffer 17 has good elasticity, is wear-resistant, can achieve a good buffering effect, and has a long service life.

Referring to fig. 2 and 4, in some embodiments, the second side 12 of the rotating member 10 may be provided with a pressing member 18, and the pressing member 18 is used for pressing the member to be mounted.

The flip mechanism 100 and the external device together form a receiving space in which the component to be mounted can be placed. In some cases it is necessary to press the member to be mounted. For example, referring to fig. 10, when the external device is a battery compartment 900 and the to-be-mounted component is a battery 500, the battery 500 needs to be pressed to ensure that the battery 500 is tightly contacted with the electrical connection portion at the bottom of the battery compartment 900. When the flip mechanism 100 is in the closed state, so that the accommodating space formed by the flip mechanism 100 and the external device is closed, the pressing member 18 fills the gap between the rotating member 10 and the member to be mounted, thereby realizing the pressing of the member to be mounted.

In one embodiment, the compression member 18 may be foam. The piece 18 pliability that compresses tightly of bubble cotton material is good, can produce suitable deformation when compressing tightly and treating the installed part, prevents that the deformation volume is not enough to lead to compressing tightly 18 will treating that the installed part is pressed and is had too tightly lead to treating that the installed part damages. Moreover, the compressing piece 18 made of the foam material has good sound insulation effect, can absorb the noise generated when the compressing piece 18 collides with the mounting piece to be mounted, and avoids a user from hearing the noise. Because the holes are distributed in the foam, the pressing piece 18 made of the foam material also has certain heat insulation capacity, as shown in fig. 10, when the external device is the battery bin 900 and the mounting piece is the battery 500, the temperature of the battery 500 may rise in the working process, and the pressing piece 18 made of the foam material can play a heat insulation effect to prevent the scalding feeling caused when the surface temperature of the flip mechanism 100 rises due to the heating of the battery 500 and the user contacts the surface of the flip mechanism 100.

In another embodiment, the compression member 18 may be rubber. The pressing piece 18 made of rubber has good elasticity, is wear-resistant, can play a good pressing effect, and has a long service life.

Referring to fig. 2 and 4, in some embodiments, the pressing element 18 is disposed on the second surface 121 of the rotating element 10.

In one embodiment, the pressing member 18 can be fixedly connected to the second surface 121 of the rotating member 10 by a screw connection, a snap connection, a welding connection, an adhesive connection, a riveting connection, etc., which are simple and easy to implement.

In another embodiment, the second surface 121 of the rotating member 10 is provided with an accommodating groove 1211, and the pressing member 18 is disposed on the bottom surface of the accommodating groove 1211. The pressing member 18 may be fixedly coupled to the bottom surface of the receiving groove 1211 by a screw connection, a hook connection, a welding, an adhesive, a riveting, or the like, which is simple and easy to implement. The pressing member 18 may also be connected with the receiving groove 1211 in an interference fit manner, and the connection manner has better sealing performance. The pressing member 18 may have a thickness greater than the depth of the receiving groove 1211 to allow the member to be mounted to be pressed more tightly. The thickness of the pressing member 18 may be smaller than or equal to the depth of the receiving groove 1211, so that when the pressing member 18 presses the member to be mounted, a part of the member to be mounted may extend into the receiving groove 1211, thereby achieving a certain sealing effect.

With continued reference to fig. 2 and 4, in some embodiments, the second side 12 of the rotating member 10 is provided with a sealing element 19 surrounding the pressing member 18. When the flip mechanism 100 and the housing body 200 as shown in fig. 9 together constitute the housing 300 having the accommodating space 202 inside, the sealing member 19 serves to seal the gap between the flip mechanism 100 and the housing body 200. When the lid mechanism 100 is closed and the housing 300 is in the closed state, the seal 19 can prevent water from entering the accommodating space 202 of the housing 300 from the gap between the lid mechanism 100 and the housing body 200 to protect the member to be mounted in the accommodating space 202 of the housing 300. The sealing element 19 can be a rubber ring, the rubber ring is light in weight, and is tightly attached to the installation part, and the sealing effect is good. In the flip mechanism 100, the sealing element 19 is directly arranged on the rotating element 10 to achieve a waterproof effect, and an additional waterproof component is not required to be additionally arranged, so that the structure is simple, the number of parts can be reduced, and the production cost can be reduced.

Referring to fig. 3, in some embodiments, the sliding cover 51 includes a first surface 514, the first surface 514 of the sliding cover 51 is located on the first side 511 of the sliding cover 51, the first surface 514 of the sliding cover 51 extends to form two opposite guide rails 518, and the two guide rails 518 are configured to cooperate with the two sliding strips 1511, so that the sliding cover 51 and the rotating member 10 are movably coupled.

Referring to fig. 3 and 5, in some embodiments, the first position-limiting portion 5121 includes a first surface 51211 and a second surface 51213 opposite to each other. The first position-limiting portion 5121 further includes an inclined surface 51215 inclined with respect to the first surface 514 of the sliding cover 51, and the inclined surface 51215 of the first position-limiting portion 5121 is opposite to the first surface 514 of the sliding cover 51 and connected to the second surface 51213 of the first position-limiting portion 5121. The first face 51211 of the first limiting portion 5121 is used to cooperate with the first face 11331 of the first sub-stop portion 1133 to limit the sliding cover 51 from moving along the rotation member 10 toward the second end 14 of the rotation member 10. The second surface 51213 of the first limiting portion 5121 is used for cooperating with the first surface 11351 of the second sub-stop 1135 to limit the sliding cover 51 from moving along the rotation member 10 toward the first end 13 of the rotation member 10. The inclined surface 51215 of the first limiting portion 5121 is used to cooperate with the inclined surface 11333 of the first sub-stop portion 1133.

In one embodiment, the first limiting portions 5121 include two first limiting portions 5121, the two first limiting portions 5121 are respectively located on two opposite sides of the limiting member 512, and the two first limiting portions 5121 are symmetrical with respect to the long axis L2 of the sliding cover 51. The two first limiting portions 5121 are respectively matched with the two first stopping portions 113.

Referring to fig. 3 and 5, in some embodiments, the position-limiting element 512 may further include a connecting portion 5122. The first end 51221 of the connecting portion 5122 is mounted on the first surface 514 of the slide cover 51, and the first limiting portion 5121 extends from the side edge of the second end 51223 of the connecting portion 5122.

In one embodiment, the first end 51221 of the connecting portion 5122 is fixedly mounted on the first face 514 of the sliding cover 51 by welding, gluing, or the like. The installation mode is firm in connection and easy to realize.

In another embodiment, the first end 51221 of the connecting portion 5122 is detachably mounted on the first surface 514 of the sliding cover 51 by means of a snap-fit or screw-connection. Referring to fig. 3, in some embodiments, the first end 51221 of the connecting portion 5122 is provided with a mounting hole 51225, the first surface 514 of the sliding cover 51 is further provided with a mounting platform 59, the sliding cover 51 further includes a mounting member 57, and the mounting member 57 passes through the mounting hole 51225 to detachably connect the limiting member 512 and the mounting platform 59. Specifically, the mounting table 59 includes a male post 591 and a female bore 593. The mounting hole 51225 is sleeved on the convex column 591. The mounting 57 may be a screw and the recess 593 may be a threaded hole. The mounting member 57 passes through the mounting hole 51225 and is cooperatively connected with the recessed hole 593, so that the limiting member 512 is detachably connected with the mounting platform 59. This arrangement facilitates replacement of the stop 512 when desired.

Referring to fig. 5, in some embodiments, the limiting member 512 may further include a second limiting portion 5123, the second limiting portion 5123 extends from the end surface of the first end 51221 of the connecting portion 5122, and the second limiting portion 5123 cooperates with the second stopping portion 115 to limit the sliding cover 51 from moving along the rotating member 10 toward the second end 14 of the rotating member 10. Specifically, the end surface of the second limiting portion 5123 away from the connecting portion 5122 cooperates with the side surface 1151 of the second stopping portion 115 facing the rotating member 10 to limit the sliding cover 51 from moving along the rotating member 10 towards the second end 14 of the rotating member 10.

Referring to fig. 5, in some embodiments, the end surface of the second limiting portion 5123 away from the connecting portion 5122 matches with the side surface 1151 of the second stopping portion 115 facing the rotating member 10, and the second limiting portion 5123 is inclined in a direction away from the first surface 514 of the sliding cover 51, so that the end surface of the second limiting portion 5123 away from the connecting portion 5122 is aligned with the side surface 1151 of the second stopping portion 115 facing the rotating member 10.

With continued reference to fig. 5, in some embodiments, the position-limiting element 512 may further include a combining portion 5124, and the combining portion 5124 extends from an end surface of the second end 51223 of the connecting portion 5122. The slide cover 51 is provided with a through hole 519, and the through hole 519 penetrates through the first surface 514 of the slide cover 51 and the second surface 515 of the slide cover 51. The flip cover mechanism 100 may further include a pressing member 55, the pressing member 55 is disposed in the through hole 519 and connected to the combining portion 5124, and the pressing member 55 drives the combining portion 5124 to move in a direction away from the first surface 514 of the slide cover 51 (in a direction approaching the bottom surface 1110 of the recess 1111) under an external force.

The limiting member 512 may be made of an elastic material. When the combining portion 5124 moves in a direction away from the first surface 514 of the sliding cover 51, the limiting member 512 can elastically deform, so that the first limiting portion 5121 also moves in a direction away from the first surface 514 of the sliding cover 51, in this process, the first surface 51211 of the first limiting portion 5121 gradually disengages from the first surface 11331 of the first sub-stop portion 1133, and the second surface 51213 of the first limiting portion 5121 gradually disengages from the first surface 11351 of the second sub-stop portion 1135, that is, the first limiting portion 5121 gradually leaves the notch 1131 of the first stop portion 113, so that the first limiting portion 5121 contacts and engages with the first stop portion 113, so that the sliding cover 51 can move along the rotating member 10 toward the second end 14 of the rotating member 10.

In one embodiment, the position limiting member 512 is made of elastic metal. The limiting member 512 made of the elastic metal has high hardness, strength and rigidity, and the service life can be longer.

In another embodiment, the stop 512 is made of a resilient plastic. The limiting member 512 made of elastic plastic is lighter, higher in plasticity and lower in production cost.

With continued reference to fig. 5, in some embodiments, the combining portion 5124 is provided with a first mounting portion 51241, the pressing member 55 is provided with a second mounting portion 551, and the first mounting portion 51241 cooperates with the second mounting portion 551 to connect the pressing member 55 with the combining portion 5124.

In one embodiment, the first mounting portion 51241 includes a latch hole 51243 and the second mounting portion 551 includes a latch 5511. The clamping hole 51243 is sleeved on the clamping block 5511 to realize the matching of the first mounting part 51241 and the second mounting part 551 so as to connect the pressing piece 55 with the combining part 5124.

In another embodiment, the first mounting portion 51241 includes a detent 5511 and the second mounting portion 551 includes a detent aperture 51243. The clamping hole 51243 is sleeved on the clamping block 5511 to realize the matching of the first mounting part 51241 and the second mounting part 551 so as to connect the pressing piece 55 with the combining part 5124.

Referring to fig. 5, in some embodiments, the pressing element 55 includes a first surface 552 and a second surface 553 opposite to each other, the first surface 552 of the pressing element 55 is provided with a receiving groove 554, the second mounting portion 551 is disposed in the receiving groove 554, and the combining portion 5124 extends into the receiving groove 554 and abuts against a bottom surface of the receiving groove 554, so that the connection structure is more reliable.

Referring to fig. 3 and 5, in some embodiments, the first surface 552 of the pressing member 55 is provided with a protrusion 555, and the protrusion 555 is used for limiting a moving stroke of the pressing member 55. Specifically, the protrusion 555 extends from the edge of the first surface 552 of the pressing element 55, and the pressing element 55 can drive the joint portion 5124 to move in the direction away from the first surface 514 of the sliding cover 51 under the action of an external force until the protrusion 555 is in contact with the bottom surface 1110 of the groove 1111 of the first surface 111 of the rotating element 10, and the pressing element 55 moves in the direction away from the first surface 514 of the sliding cover 51 to reach the maximum stroke.

In one embodiment, the second face 553 of the presser 55 protrudes with respect to the second face 515 of the slide cover 51, so as to press the presser 55.

In another embodiment, the second surface 553 of the pressing piece 55 is flush with the second surface 515 of the sliding cover 51, so as to prevent the pressing piece 55 from being pressed by mistake, and the appearance is more smooth and beautiful.

In another embodiment, the second surface 553 of the pressing piece 55 is recessed toward the through hole 519 relative to the second surface 515 of the sliding cover 51, so as to prevent the pressing piece 55 from being pressed by mistake.

Referring to fig. 3 and 5, in some embodiments, the first end 516 of the sliding cover 51 may be provided with a receiving groove 53, and the buffer 17 is received in the receiving groove 53. When the sliding cover 51 moves along the rotating member 10 toward the first end 13 of the rotating member 10, the sidewall 531 of the receiving groove 53 can interfere with the buffering member 17 for buffering.

Referring to fig. 2 and fig. 3, in some embodiments, the second end 517 of the sliding cover 51 is bent toward the side where the rotating member 10 is located, the locking portion 513 extends from the first surface 514 of the sliding cover 51 toward the first end 516 of the sliding cover 51, and the locking portion 513 is located at the second end 517 of the sliding cover 51. The locking portion 513 is used to cooperate with an external device to restrict the opening of the flip mechanism 100.

Referring to fig. 2 and 3, in some embodiments, the reset element 70 includes a torsion spring 71 disposed on the rotating shaft 30, the torsion spring 71 includes two abutting portions 715 at two free ends and a sleeve portion 717 between the two free ends, the two abutting portions 715 always abut against the housing body 200 for mounting the flip mechanism 100, and the sleeve portion 717 is connected to the rotating element 10.

Specifically, referring to fig. 9 and 10, the external device may be a housing body 200, and the flip mechanism 100 is mounted on the housing body 200 to form a housing 300. That is, the housing 300 includes a housing body 200 and a flip mechanism 100. The housing body 200 may be provided with at least one insertion structure of an insertion hole or an insertion groove, the two abutting portions 715 of the torsion spring 71 are located at the first free end 711, and the two abutting portions 715 of the torsion spring 71 extend into the insertion structure corresponding to the housing body 200 and always abut against the insertion structure in the process of opening or closing the flip mechanism 100. The sleeve portion 717 of the torsion spring 71 is located at the second free end 713, and the sleeve portion 717 of the torsion spring 71 is connected to the rotating member 10, so as to drive the rotating member 10 and the sliding cover assembly 50 combined with the rotating member 10 to rotate around the rotating shaft 30. The torsion spring 71 is pre-tensioned to have a certain pre-tightening force, so that the sleeve 717 always tends to drive the rotating member 10 to rotate toward the direction of opening the lid-opening mechanism 100. In the process of closing the flip mechanism 100, the pre-tightening force of the torsion spring 71 needs to be overcome to apply work, so that the torsion spring 71 generates elastic deformation, and is locked with the housing body 200 by the locking portion 513 to limit the rotation of the rotating member 10 and the sliding cover assembly 50 driven by the sleeve portion 717 toward the direction of opening the flip mechanism 100. When the locking part 513 is unlocked from the housing body 200, the torsion spring 71 recovers elastic deformation to release elastic force, the elastic force provided by the torsion spring 71 can drive the rotating member 10 and the sliding cover assembly 50 to rotate together around the rotating shaft 30 to a position at a preset included angle with the housing body 200, manual rotation by a user is not required, operation actions of the user can be reduced, and damage to the housing 300 caused by complicated operation is avoided. When the rotating member 10 and the sliding cover assembly 50 rotate together around the rotating shaft 30 to a position forming a preset included angle with the housing body 200, the torsion spring 71 provides a pre-tightening force to keep the rotating member 10 and the sliding cover assembly 50 at the position, so as to prevent the rotating member 10 and the sliding cover assembly 50 from rotating due to the action of their own gravity to interfere with a user to store the to-be-installed member in the housing body 200 or take out the to-be-installed member from the housing body 200, or to cause the flip mechanism 100 to be closed again.

In another embodiment, the reset member 70 may be a tension spring. When the locking portion 513 is unlocked from the external device 200, the elastic force provided by the tension spring can drive the rotating member 10 and the sliding cover assembly 50 to rotate together around the rotating shaft 30 to a position forming a predetermined included angle with the housing body 200. When the rotating member 10 and the sliding cover assembly 50 rotate together around the rotating shaft 30 to a position forming a preset included angle with the housing body 200, the tension spring provides a pre-tightening force to keep the rotating member 10 and the sliding cover assembly 50 at the position, so as to store the to-be-installed member into the housing body 200 or take the to-be-installed member out of the housing body 200.

In another embodiment, the restoring member 70 may be a resilient plate. When the locking portion 513 is unlocked from the external device 200, the elastic force provided by the elastic sheet can drive the rotating member 10 and the sliding cover assembly 50 to rotate together around the rotating shaft 30 to a position forming a predetermined included angle with the housing body 200. When the rotating member 10 and the sliding cover assembly 50 rotate together around the rotating shaft 30 to a position forming a preset included angle with the housing body 200, the elastic sheet provides a pre-tightening force to keep the rotating member 10 and the sliding cover assembly 50 at the position, so as to store the to-be-installed member into the housing body 200 or take the to-be-installed member out of the housing body 200.

Referring to fig. 1 to 3, in the embodiment of the present application, two sliding bars 1511 are engaged with the two guide rails 518, so that the sliding cover assembly 50 is movably combined with the rotating member 10. The rotating shaft 30 is installed at the first end 13 of the rotating member 10 such that the rotating member 10 and the sliding cover assembly 50 can rotate with respect to the rotating shaft 30. The reset piece 70 is sleeved on the rotating shaft 30, and the sleeve part 717 of the reset piece 70 is connected with the rotating piece 10. Referring to fig. 9, the flip mechanism 100 may be mounted on the external device 200 for sealing the opening 2224 of the external device.

Referring to fig. 1 to fig. 3 in combination with fig. 6 and fig. 11, in the initial state, if the flip cover mechanism 100 is in the closed state, at this time, the first limiting portion 5121 is accommodated in the notch 1131. The first surface 51211 of the first limiting portion 5121 cooperates with the first surface 11331 of the first sub-stop portion 1133 to limit the sliding cover 51 from moving along the rotating member 10 toward the second end 14 of the transmission member 10. The locking part 513 is engaged with the external device 200 to restrict the rotation of the flip mechanism 100.

Referring to fig. 1 to fig. 3 and fig. 7 to fig. 9, when the flip cover mechanism 100 needs to be opened, a user presses the pressing member 55, the pressing member 55 drives the limiting member 512 to move in a direction away from the first surface 514 of the sliding cover 51, so that the first limiting portion 5121 generates elastic deformation, the first surface 51211 of the first limiting portion 5121 is disengaged from the first surface 11331 of the first sub-stop portion 1133, the second surface 51213 of the first limiting portion 5121 is disengaged from the first surface 11351 of the second sub-stop portion 1135, and the first limiting portion 5121 leaves the notch 1131. The user pulls the pressing member 55 again to move the sliding cover 51 along the rotating member 10 toward the second end 14 of the rotating member 10 until the locking portion 513 is disengaged from the external device 200, and at this time, the user does not need to touch the pressing member 55, and the rotating member 10 and the sliding cover assembly 50 can rotate together around the rotating shaft 30 to a position forming a predetermined included angle with the external device 200, so as to store the to-be-installed member (battery 500) in the external device 200 (accommodating space 202) or take out the to-be-installed member from the external device 200. In the process of opening the flip mechanism 100, the user's actions are less, and damage to the flip mechanism 100 or the external device 200 due to complicated operations can be prevented.

Specifically, referring to fig. 1 to fig. 3 and fig. 7 to fig. 9, after the locking portion 513 is disengaged from the external device 200, the bottom surface of the first limiting portion 5121 is engaged with the first sub-stop portion 1133, and the first limiting portion 5121 has an elastic force for restoring the elastic deformation, so that the first limiting portion 5121 has a tendency of deforming toward the first surface 514 of the sliding cover 51, so that the first limiting portion 5121 can be tightly attached to the first sub-stop portion 1133. When the sliding cover 51 continues to move along the rotation member 10 toward the second end 14 of the rotation member 10 until the inclined surface 51215 of the first limiting portion 5121 matches with the inclined surface 11333 of the first sub-stop portion 1133, the inclined surface 11333 of the first sub-stop portion 1133 presses the inclined surface 51215 of the first limiting portion 5121, so that the sliding cover 51 further moves along the rotation member 10 toward the second end 14 of the rotation member 10. Meanwhile, under the driving of the elastic force of the reset element 70, the rotating element 10 and the sliding cover assembly 50 rotate together around the rotating shaft 30 to a position forming a preset included angle with the external device 200, and are kept at the position under the pre-tightening force of the reset element 70.

In one example, when the sliding cover 51 continues to move along the rotating member 10 toward the second end 14 of the rotating member 10 until the end face 51231 of the second limiting portion 5123 abuts against the side face 1151 of the second limiting portion 115, the sliding cover 51 reaches the limit of the maximum stroke when moving along the rotating member 10 toward the second end 14 of the rotating member 10, and the second limiting portion 115 can prevent the sliding cover 51 from sliding away from the rotating member 10 when the sliding cover 51 continues to move along the rotating member 10 toward the second end 14 of the rotating member 10. In another example, the sliding cover 51 moves continuously along the rotating member 10 toward the second end 14 of the rotating member 10, because the sliding cover assembly 50 rotates in the process, the sliding cover 51 is influenced by gravity, and there is a friction resistance in the process of the first limiting portion 5121 and the first sub-stop portion 1133 matching, so that the sliding cover 51 stops moving along the rotating member 10 toward the second end 14 of the rotating member 10 without reaching the maximum stroke, or moves along the rotating member 10 toward the first end 13 of the rotating member 10 again under the influence of the self gravity of the sliding cover 51. At this time, by presetting the inclination angle between the inclined surface 51215 of the first limiting portion 5121 and the inclined surface 11333 of the first sub-limiting portion 1133, when the inclined surface 11333 of the first sub-limiting portion 1133 is again engaged with the inclined surface 51215 of the first limiting portion 5121, the inclined surface 51215 of the first limiting portion 5121 cannot move towards the first end 13 of the rotating member 10 through the inclined surface 11333 of the first sub-limiting portion 1133, so that the sliding cover 51 can be limited from moving towards the first end 13 of the rotating member 10 along the rotating member 10 again under the influence of its own weight. The cushion 17 cooperates with the receiving groove 53 to perform a buffering and noise reducing function during the movement of the slide cover 51 along the rotation member 10 toward the second end 14 of the rotation member 10.

When the flip mechanism 100 needs to be closed, the user rotates the flip mechanism 100 to the initial position before opening as shown in fig. 12, and then pushes the sliding cover 51 toward the first end 13 of the rotating member 10 until the locking portion 513 and the external device 200 complete the engagement and locking, as shown in fig. 6 and 11, the flip mechanism 100 can be closed (in the closed state). In this process, the user only needs to engage the locking portion 513 with the external device 200 to close the flip mechanism 100 and seal the external device 200, that is, close the flip mechanism 100 and seal the external device 200 only needs to complete one locking, compared to the flip mechanism 100 that needs to complete multiple locking to achieve closing and seal the external device, the flip mechanism 100 provided by the present application requires less user locking operations when being closed, and can avoid the problems of loose closing of the flip mechanism 100, loose sealing of the external device 200, and the like caused by the user missing to execute the locking operation, thereby preventing the external device 200 from leaking water.

Specifically, referring to fig. 1 to 3 in combination with fig. 6 to 8, when the flip cover mechanism 100 is closed, the user rotates the flip cover mechanism 100, and the reset element 70 is elastically deformed and accumulates elastic force. When the flip mechanism 100 is rotated to the initial position before being opened as shown in fig. 11, the user pushes the slide cover 51 toward the first end 13 of the rotation member 10. In the process that the slide cover 51 moves toward the first end 13 of the rotation member 10 along the rotation member 10, the inclined surface 51215 of the first limiting portion 5121 passes through the inclined surface 11333 of the first sub-stop portion 1133 under the action of the user, so that the first limiting portion 5121 can reach the notch 1131. When the first limiting portion 5121 reaches the notch 1131, the bottom surface of the first limiting portion 5121 is disengaged from the first sub-stop portion 1133, the first limiting portion 5121 recovers elastic deformation toward the first surface 514 of the sliding cover 51 and moves toward the first surface 514 of the sliding cover 51, and finally the first limiting portion 5121 is accommodated in the notch 1131 to limit the limiting member 512 to drive the sliding cover 51 to move toward the first end 13 or the second end 14 of the rotating member 10 along the rotating member 10, thereby locking the sliding cover 51. The cushion 17 cooperates with the receiving groove 53 to perform a buffering and noise reducing function during the movement of the slide cover 51 along the rotation member 10 toward the first end 13 of the rotation member 10. By presetting the structures of the locking portion 513 and the external device 200, when the first limiting portion 5121 reaches the position of the notch 1131, the locking portion 513 and the external device 200 are properly locked to limit the rotation of the flip mechanism 100. Thus, only the locking part 513 needs to be locked with the external device 200 to simultaneously limit the rotation of the flip mechanism 100 and the movement of the sliding cover 51 along the rotating part 10 toward the first end 13 or the second end 14 of the transmission member, so that the actions of the user are few during the locking process, the damage of the flip mechanism 100 or the external device 200 caused by the complicated operation of closing the flip mechanism 100 can be avoided, and the problem of water inflow caused by poor sealing performance of the external device 200 due to the improper closing can be prevented.

Referring to fig. 9, the present embodiment further provides a housing 300. The housing 300 includes a housing body 200 and the flip mechanism 100 of any of the above embodiments, and the flip mechanism 100 is mounted on the housing body 200.

Referring to fig. 3, in some embodiments, the housing body 200 includes a first side wall 220 and a second side wall 240 connected to each other, the first side wall 220 defines an installation space 222, the rotating shaft 30 is fixed on two inner walls 2222 of the installation space 222, the second side wall 240 is provided with a locking portion 242, and the locking portion 513 is matched with the locking portion 242 to enable the flip mechanism 100 to cover the opening 2224 of the installation space 222.

Since the sealing member 19 is provided on the flip mechanism 100, the sealing function of the housing 300 can be achieved while the flip mechanism 100 covers the opening 2224 of the installation space 222, preventing water from entering the installation space 222.

In one embodiment, the locking part 513 includes a protrusion 5131, the locking part 242 includes a clamping groove 2422, the protrusion 5131 and the clamping groove 2422 cooperate to lock the locking part 513 and the locking part 242, the structure is simple, the production is convenient, a user only needs to pull the protrusion 5131 out of the clamping groove 2422 to unlock the locking part 513 and the locking part 242, and the operation is simple and convenient.

In another embodiment, the locking part 513 includes a slot 2422, the locking part 242 includes a protrusion 5131, the protrusion 5131 cooperates with the slot 2422 to lock the locking part 513 and the locking part 242, the structure is simple, the production is convenient, and a user can unlock the locking part 513 and the locking part 242 only by pulling the slot 2422 out of the protrusion 5131, which is simple and convenient to operate.

Referring to fig. 9 to 12, an electronic device 1000 is further provided in the present embodiment. The electronic device 1000 may be a camera 3000. The electronic device 1000 comprises a battery 500 and the housing 300 of any of the above embodiments, wherein the battery 500 is mounted in the housing 300 and is used for supplying electric energy to the electronic device 1000. When the flip mechanism 100 is closed, the pressing member 18 presses the battery 500 to ensure that the battery 500 is in good contact with the contacts of the electronic device 1000, and prevent the battery 500 from shaking. The pressing member 18 also reduces noise when the flip mechanism 100 is closed, and serves as a heat insulation to prevent the battery 500, which is heated when the user touches the flip mechanism 100, from giving a hot feeling to the user.

In some embodiments, a handle portion 520 is provided on the battery 500 for holding, and the handle portion 520 can selectively fit over the top 540 of the battery 500 or be inclined with respect to the top 540 of the battery 500. When it is desired to close the flip-top mechanism 100, the handle portion 520 is attached to the top 540 of the battery 500 to receive the battery 500 in the mounting space 222 of the housing 300. When the battery 500 needs to be taken out, the user presses the pressing piece 55 and drags the pressing piece 55 to disengage the locking portion 513 from the locking portion 242, so that the lid-turning mechanism 100 automatically rotates to a position forming a preset included angle with the housing body 200 and is kept at the position under the pre-tightening force of the resetting piece 70, thereby facilitating the taking out of the battery 500. The user pulls up the handle portion 520 of the battery 500 to tilt the handle portion 520 with respect to the top 540 of the battery 500, so that the user can take out the battery 500 by holding the handle portion 520. Thus, the battery 500 of the electronic device 1000 can be easily attached and detached.

Referring to fig. 13, the present embodiment further provides a movable platform 2000. The movable platform 2000 includes a movable platform body 700 and the housing 300 of any of the above embodiments, and the housing 300 is mounted on the movable platform 2000 body 700. The movable platform 2000 may be a movable object such as an unmanned aerial vehicle, an unmanned vehicle, and an unmanned ship, and correspondingly, the movable platform 2000 body 700 is an unmanned vehicle body, an unmanned ship body, and the like.

The movable platform 2000 may further include a battery 500, and the battery 500 is mounted in the housing 300 for supplying power to the electronic device 1000. The unlocking mode of the flip mechanism 100 installed on the housing 300 is simple, the battery 500 is convenient to disassemble and assemble, the action of a user is less during locking, the damage of the flip mechanism 100 or the housing 300 caused by the complex operation of closing the flip mechanism 100 can be avoided, and the water inlet caused by poor sealing performance of the housing 300 due to the improper closing can be prevented. Of course, it is understood that the housing 300 may be mounted with other structures, such as inertial measurement units, accelerometers, gyroscopes, etc. sensors.

It should be noted that, in the present application, the value range of the preset included angle may be [45 ]⁰，135⁰]For example, the predetermined included angle may be, but is not limited to, 45⁰、75⁰、85⁰、90⁰、95⁰、100⁰、105⁰、110⁰、115⁰、120⁰、125⁰、130⁰、135⁰Any one of them. When the value range of the preset included angle is [45 ]⁰，135⁰]During the process, on one hand, the battery 500 can be ensured to be taken out from the installation space 222 or the battery 500 is placed in the installation space 222, and on the other hand, the generated pretightening force can be ensured to keep the rotating member 10 and the sliding cover assembly 50 at the position corresponding to the preset included angle.

Referring to fig. 10 to 12, the present disclosure further provides a camera 3000. The camera 3000 includes a housing body 200 and a flip mechanism 100. The housing body 200 includes a battery compartment 900 for receiving the battery 500, the battery compartment 900 is provided with an opening 901, and the battery 500 is received in the battery compartment 900 through the opening 901. The flip mechanism 100 is connected to the housing main body 200 for covering the opening 901. Referring to the drawings, the flip mechanism 100 includes a rotating member 10, a sliding cover 51 and a reset member 70. Referring to fig. 1 to fig. 3, the rotating member 10 is rotatably connected to the housing body 200, and the rotating shaft 30 of the rotating member 10 extends along the first direction X. The slide cover 51 is mounted on the rotation member 10 and is movable in a second direction Y1/Y2 with respect to the rotation member 10, the second direction Y1/Y2 intersecting the first direction X. In one embodiment, the reset member 70 is connected to the sliding cover 51 or the rotating member 10 for providing an elastic force to the sliding cover 51. In another embodiment, the reset element 70 is connected to the sliding cover 51 and the rotating element 10 for providing an elastic force to the sliding cover 51.

When the sliding cover 51 moves to the first position shown in fig. 11 relative to the rotating member 10, the sliding cover 51 can be engaged with the housing body 200, so that the sliding cover 51 is in a closed state. When the sliding cover 51 moves to the second position shown in fig. 12 relative to the rotating member 10, the sliding cover 51 can be disengaged from the housing body 200, and the sliding cover 51 rotates relative to the housing body 200 under the elastic force of the restoring member 70 to be in the open state shown in fig. 10. The opening and closing mode of the flip mechanism 100 is simple, the user action is less in the opening and closing process, the battery 500 is convenient to rapidly assemble and disassemble, the damage to the flip mechanism 100 or the shell body 200 caused by the complex operation of opening and closing the flip mechanism 100 can be avoided, and the water inlet caused by the poor sealing of the shell body 200 due to the improper closing can be prevented.

In the description herein, reference to the terms "certain embodiments," "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples" means that a particular feature, structure, material, or characteristic described in connection with the embodiments or examples is included in at least one embodiment or example of the application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Furthermore, 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, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In the description of the present application, "a plurality" means at least two, e.g., two, three, unless specifically limited otherwise.

Although embodiments of the present application have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present application, and that variations, modifications, substitutions and alterations of the above embodiments may be made by those of ordinary skill in the art within the scope of the present application, which is defined by the claims and their equivalents.

Claims (44)

1. A flip mechanism, comprising:

the rotating piece is provided with a guide part and a first stopping part;

the rotating shaft penetrates through the first end of the rotating part;

the sliding cover assembly comprises a sliding cover and a limiting part arranged on the first side of the sliding cover, the sliding cover is movably combined with the rotating part, the first side of the sliding cover is opposite to the first side of the rotating part, one end, far away from the rotating shaft, of the sliding cover is provided with a locking part, the locking part is used for locking with an external device to enable the sliding cover to be in a closed state, the limiting part comprises a first limiting part, and the first limiting part is matched with the first stopping part to limit the sliding cover to move along the guide part; and

the resetting piece is arranged on the rotating shaft and is connected with the first end of the rotating piece; wherein:

when the first limiting part is disengaged from the first stopping part, the sliding cover can move along the direction of the rotating part away from the rotating shaft until the locking part and the external device are unlocked, and the reset part drives the rotating part and the sliding cover component to rotate together to enable the sliding cover to be in an open state.

2. The flip mechanism according to claim 1, wherein the rotating member comprises a first surface and a second surface opposite to each other, the first surface of the rotating member is located on a first side of the rotating member, the rotating member further comprises two side surfaces connecting the first surface of the rotating member and the second surface of the rotating member, and the guiding portion is a slide bar provided on the two side surfaces of the rotating member; the sliding cover comprises a first surface, the first surface of the sliding cover is positioned on the first side of the sliding cover, the first surface of the sliding cover extends to form two guide rails which are opposite at intervals, and the two sliding strips are matched with the two guide rails so that the sliding cover and the rotating piece can be movably combined.

3. The flip mechanism according to claim 2, wherein the first surface of the rotating member is provided with a groove, the first stopping portion extends from a side surface of the groove to a center of the groove, and the first stopping portion is spaced from a bottom surface of the groove.

4. The lid flipping mechanism according to claim 3, wherein the first stopping portion is formed with a notch to form a first sub-stopping portion and a second sub-stopping portion, the second sub-stopping portion and the first sub-stopping portion are sequentially arranged in a direction from the first end of the rotating member to the second end of the rotating member, the first end of the rotating member is opposite to the second end of the rotating member, and the first limiting portion is received in the notch.

5. The flip mechanism according to claim 4, wherein the first position-limiting portion comprises a first surface and a second surface opposite to each other; the first surface of the first sub-stop portion facing the second sub-stop portion is matched with the first surface of the first limiting portion to limit the sliding cover to move towards the second end of the rotating member along the rotating member, and the first surface of the second sub-stop portion facing the first sub-stop portion is matched with the second surface of the first limiting portion to limit the sliding cover to move towards the first end of the rotating member along the rotating member.

6. The flip cover mechanism according to claim 4, wherein the first sub-stopper comprises a slope inclined with respect to the bottom surface of the groove, the slope of the first sub-stopper being opposite to the bottom surface of the groove; the first limiting part comprises an inclined plane which is inclined relative to the first surface of the sliding cover, and the inclined plane of the first limiting part is opposite to the first surface of the sliding cover and is connected with the second surface of the first limiting part; when the sliding cover moves towards the first end of the rotating part along the rotating part, the inclined surface of the first sub-stopping part is matched with the inclined surface of the first limiting part.

7. The flip mechanism according to claim 3, wherein the first stopping portions comprise two, the two first stopping portions being symmetrical about a long axis of the rotating member; and/or

The first limiting parts comprise two parts, and the two first limiting parts are symmetrical about the long axis of the sliding cover.

8. The flip mechanism according to claim 1, wherein the stopper is made of an elastic metal or an elastic plastic.

9. The flip mechanism according to claim 1, wherein the stopper comprises:

the first end of the connecting part is arranged on the first surface of the sliding cover, and the first limiting part extends from the lateral edge of the second end of the connecting part.

10. The flip cover mechanism according to claim 9,

the first end of the connecting part is fixedly arranged on the first surface of the sliding cover; or

The first end of the connecting part is detachably arranged on the first surface of the sliding cover.

11. The flip mechanism of claim 9, wherein the first end of the connecting portion is mounted to the first side of the sliding cover by at least one of snapping, welding, screwing, or gluing.

12. The flip mechanism according to claim 9, wherein the first side of the rotating member is provided with a second stop; the stopper further includes:

the second limiting part extends from the end face of the first end of the connecting part, and the second limiting part is matched with the second stopping part to limit the sliding cover to move towards the second end of the rotating part along the rotating part.

13. The flip mechanism of claim 12, wherein the second stop is located at an edge of the second end of the rotating member.

14. The flip mechanism of claim 12, wherein the second position-limiting portion is inclined in a direction away from the first surface of the sliding cover.

15. The flip mechanism according to claim 12, wherein a side surface of the second stopper facing the rotation shaft is matched with an end surface of the second limiting portion away from the connecting portion.

16. The flip mechanism according to claim 9, wherein the stopper further comprises a coupling portion extending from an end surface of the second end of the connecting portion; the sliding cover is provided with a through hole which penetrates through the first surface of the sliding cover and the second surface of the sliding cover; the flip mechanism further comprises:

the pressing piece penetrates through the through hole and is connected with the combining part, and the pressing piece drives the combining part to move towards the direction far away from the first surface of the sliding cover under the action of external force.

17. A flip cover mechanism according to claim 16, wherein the engaging portion is provided with a first mounting portion, and the pressing member is provided with a second mounting portion, the first mounting portion and the second mounting portion cooperating to connect the pressing member with the engaging portion.

18. The flip mechanism according to claim 17, wherein the first mounting portion comprises a latch hole and the second mounting portion comprises a latch; or

The first installation part comprises a clamping block, and the second installation part comprises a clamping hole.

19. The flip cover mechanism according to claim 17, wherein the pressing member includes a first surface and a second surface opposite to each other, the first surface of the pressing member is provided with a receiving groove, the second mounting portion is disposed in the receiving groove, and the coupling portion extends into the receiving groove and abuts against a bottom surface of the receiving groove.

20. The flip mechanism according to claim 19, wherein the first face of the pressing member is provided with a projection for limiting a moving stroke of the pressing member.

21. The flip mechanism of claim 19, wherein a second face of the pressing piece is flush with a second face of the slider; or

The second surface of the pressing piece protrudes relative to the second surface of the sliding cover; or

The second surface of the pressing piece is concave towards the through hole relative to the second surface of the sliding cover.

22. A flip cover mechanism according to claim 1, wherein a buffer member is provided on the first face of the rotating member, said buffer member being located at the first end of the rotating member.

23. A flip cover mechanism according to claim 22, wherein said buffer comprises foam or rubber.

24. The flip mechanism of claim 22, wherein the first end of the sliding cover is provided with a receiving groove, and the buffer is received in the receiving groove.

25. A flip cover mechanism according to claim 1, wherein the second side of the rotating member is provided with a pressing member for pressing the member to be mounted.

26. The flip cover mechanism according to claim 25,

the pressing piece is arranged on the second surface of the rotating piece; or

The second surface of the rotating piece is provided with an accommodating groove, and the pressing piece is arranged on the bottom surface of the accommodating groove.

27. The flip mechanism of claim 25, wherein the compression member comprises foam or rubber.

28. The flip mechanism according to claim 25, wherein the second side of the rotating member is provided with a sealing member surrounding the pressing member, the sealing member being for sealing a gap between the flip mechanism and the housing body.

29. The flip mechanism of claim 28, wherein the seal comprises a rubber ring.

30. The flip mechanism according to claim 1, wherein the reset member comprises a torsion spring sleeved on the rotation shaft, the torsion spring comprises two abutting portions located at two free ends and a sleeve portion located between the two free ends, the two abutting portions always abut against a housing body for mounting the flip mechanism, and the sleeve portion is connected to the rotation member.

31. The flip cover mechanism according to claim 1, wherein the reset member comprises a tension spring or a resilient plate.

32. The flip mechanism according to claim 30, wherein when the locking portion is unlocked from the external device, the torsion spring provides a resilient force to drive the rotating member and the sliding cover assembly to rotate together around the rotating shaft to a position where a predetermined included angle is formed with the housing body.

33. The flip mechanism of claim 30, wherein when the rotating member and the sliding cover assembly rotate around the rotating shaft to a position at a predetermined angle with respect to the housing body, the torsion spring provides a pre-tightening force to keep the rotating member and the sliding cover assembly at the position.

34. The flip mechanism of claim 1, wherein the second end of the sliding cover is bent toward the side of the rotating member, the locking portion extends from the first surface of the sliding cover toward the first end of the sliding cover, and the locking portion is located at the second end of the sliding cover.

35. A housing, comprising:

a housing body; and

the flip mechanism of any of claims 1-34, mounted on the housing body.

36. The housing of claim 35, wherein the housing body comprises a first side wall and a second side wall connected to each other, the first side wall defines an installation space, the rotating shaft is fixed to two inner walls of the installation space, the second side wall is provided with a locking portion, and the locking portion cooperates with the locking portion to enable the flip mechanism to cover the opening of the installation space.

37. The housing of claim 36, wherein the locking portion comprises a protrusion and the locking portion comprises a catch; or

The locking portion comprises a clamping groove, and the locking portion comprises a protrusion.

38. An electronic device, comprising:

a battery; and

the housing of any one of claims 35-37, wherein the battery is mounted within the housing body.

39. The electronic device of claim 38, wherein the battery is provided with a handle portion for holding, and the handle portion can selectively fit or tilt with respect to a top of the battery.

40. The electronic device of claim 38, wherein the electronic device is a camera.

41. A movable platform, comprising:

a movable platform body; and

the housing of any one of claims 35 to 37, mounted on the movable platform body.

42. The movable platform of claim 41, further comprising:

a battery mounted within the housing body.

43. The electronic device of claim 41, wherein the battery is provided with a handle portion for holding, and the handle portion can be selectively attached to or tilted with respect to the top of the battery.

44. A camera, comprising:

the battery box comprises a shell body, a battery box and a battery, wherein the shell body is provided with a battery bin for containing a battery, the battery bin is provided with an opening, and the battery is contained in the battery bin through the opening;

the flip mechanism is connected with the shell body and is used for covering the opening; the flip mechanism includes:

the rotating piece is rotatably connected with the shell body, and the rotating shaft direction of the rotating piece extends along a first direction;

a slide cover mounted on the rotation member and movable in a second direction with respect to the rotation member, the second direction intersecting the first direction; and

a reset piece connected with the sliding cover or/and the rotating piece and used for providing elastic force to the sliding cover,

when the sliding cover moves to a first position relative to the rotating part, the sliding cover can be clamped with the shell body, so that the sliding cover is in a closed state; when the sliding cover moves to a second position relative to the rotating part, the sliding cover is disengaged from the shell body, and the sliding cover rotates relative to the shell body under the action of the elastic force of the reset part to be in an open state.

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