CN110985837A - Display device and electronic equipment - Google Patents

Abstract

The application discloses display device, electronic equipment, display device includes: a body; the display module is arranged on the first surface of the body and used for outputting image information; the connecting structure is arranged on the second surface of the body and can be connected with a bearing device arranged on a support so as to install the body on the support, and the connecting structure comprises a magnetic connecting piece and a clamping connecting piece; wherein the first surface and the second surface are opposing outer surfaces. The structure can ensure that firm connection and diversified use of the display device are both considered, and the use experience of a user can be improved.

Description

Display device and electronic equipment

Technical Field

The application relates to the technical field of electronic equipment, in particular to a display device and also relates to electronic equipment.

Background

At present, the display device with display screen generally all realizes support, connection on the support through load bearing device, but display device and load bearing device's connected mode is comparatively single, uses these two aspects in firm in connection nature and diversification and can't realize compromising, leads to user's use to experience relatively poor.

Disclosure of Invention

In view of this, the present application provides a display device, which can satisfy diversified usage requirements of the display device while ensuring connection firmness. The application also provides an electronic device with the display device.

In order to achieve the above purpose, the present application provides the following technical solutions:

a display device, comprising:

a body;

the display module is arranged on the first surface of the body and used for outputting image information;

the connecting structure is arranged on the second surface of the body and can be connected with a bearing device arranged on a support so as to install the body on the support, and the connecting structure comprises a magnetic connecting piece and a clamping connecting piece;

wherein the first surface and the second surface are opposing outer surfaces.

Preferably, in the above display device, the connection structure includes a connection seat, the connection seat is provided with the magnetic connector and the clamping connector, the connection seat can be in running fit with the bearing device, and can be connected with the bearing device through the magnetic connector and the clamping connector.

Preferably, in the above display device, the connecting seat is provided with a connecting groove capable of being matched with the bearing device, and the magnetic connector is arranged in the connecting groove.

Preferably, in the display device, the clamping connection piece extends along the radial direction of the connection groove, and the clamping connection piece can clamp the local part of the bearing device in the connection groove by extending into the connection groove in the radial direction, so as to prevent the local part of the bearing device from coming off the connection groove and allow the local part of the bearing device to rotate in the connection groove.

Preferably, in the display device, the body is provided with an input device for controlling the clamping connection piece to retract radially relative to the connection groove;

the clamping connecting piece and the input device are provided with a plurality of clamping connecting pieces, the clamping connecting pieces and the input device are arranged in a one-to-one mode, and when all the input device controls all the clamping connecting pieces to retract radially, the local part of the bearing device can be separated from the connecting groove.

Preferably, in the display device, the connection structure is electrically connected to the carrying device to supply power to the display module;

wherein the content of the first and second substances,

and a conductive plug which is electrically conducted through being plugged with the bearing device is arranged on the bottom wall of the connecting groove.

An electronic device comprising a display device and a carrier device, wherein:

the display device includes: a body; the display module is arranged on the first surface of the body and used for outputting image information; the connecting structure is arranged on the second surface of the body and can be connected with a bearing device arranged on a support so as to install the body on the support, and the connecting structure comprises a magnetic connecting piece and a clamping connecting piece; wherein the first surface and the second surface are opposing outer surfaces;

the bearing device comprises: the bearing seat can be fixedly connected to the support; the bearing structure is arranged on the bearing seat and can be connected with a display device so as to install the display device on the support; wherein, bearing structure includes magnetic carrier and joint and holds carrier.

Preferably, in the electronic device, the connecting structure includes a connecting seat, and the connecting seat can be rotatably matched with the bearing structure; wherein, through the magnetism connecting piece with the absorption that the magnetism held the thing and the joint connecting piece with the joint that the joint held the thing is realized connection structure with bearing structure's connection.

Preferably, in the electronic device, the connecting seat is provided with a connecting groove, the magnetic connecting piece is arranged in the connecting groove, and the clamping connecting piece can stretch out and draw back along the radial direction of the connecting groove; the clamping bearing piece is a fixture block, and the magnetic bearing piece is arranged on the fixture block;

the clamping block can extend into the connecting groove, the clamping connecting piece can clamp and stop the clamping block in the connecting groove and allow the clamping block to rotate in the connecting groove, and the magnetic connecting piece and the magnetic bearing piece in the connecting groove can be mutually adsorbed.

Preferably, in the electronic device, the bearing structure is electrically connected to the connecting structure, so as to supply power to the display device through the bearing device;

wherein the content of the first and second substances,

a conductive plug electrically connected with the display module is arranged on the bottom wall of the connecting groove; and the clamping block is provided with a conductive socket which is connected with the conductive plug in an inserting manner and conducts electricity to the display device.

The application provides a display device, a display module and a connecting structure are respectively arranged on two reverse outer surfaces of a body, and the connecting structure is used for installing the body and the display module on the body on a support, the whole display device can be installed on the support by being connected with a bearing device on the support, a magnetic connecting piece and a clamping connecting piece of the connecting structure are simultaneously connected with the bearing device, wherein the magnetic connecting piece and the bearing device are connected by magnetic adsorption, the connecting mode can allow the display device to rotate on the bearing device while ensuring connection, thereby enabling the display device to meet more diversified use requirements, clamping the clamping connecting piece and the bearing device, and the connecting firmness of the connecting structure and the bearing device can be enhanced while not limiting rotation, thereby ensuring the stable connection of the display device and the bearing device, firm connection and diversified use are both considered, and use experience of a user can be improved.

Drawings

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

Fig. 1 is a front view of a display device provided in an embodiment of the present application;

FIG. 2 is a left side view of FIG. 1;

FIG. 3 is a top view of FIG. 1;

FIG. 4 is a rear view of FIG. 1;

FIG. 5 is a schematic diagram of a preferred configuration of an input device;

FIG. 6 is a front view of a carrier according to an embodiment of the present disclosure;

FIG. 7 is a left side view of FIG. 6;

FIG. 8 is a bottom view of FIG. 6;

FIG. 9 is a schematic view of the structure of the locking member, the unlocking button, the locking spring and the wire insertion hole;

FIG. 10 is a sectional view taken along line A-A of FIG. 9;

FIG. 11 is a schematic view of the locking member locking the wire;

FIG. 12 is a schematic view of the display device and the carrier device in combination;

fig. 13 is a schematic structural view showing a plurality of different postures and a plurality of different matching manners of the display device on the carrying device.

In the above fig. 1-13:

1-body, 2-display module, 3-first surface, 4-second surface, 5-magnetic connection, 6-snap connection, 7-connecting seat, 8-connecting groove, 9-connecting rod, 10-slide switch, 11-conductive plug, 12-bearing seat, 13-magnetic bearing, 14-snap bearing, 15-flange, 16-projection, 17-winding piece, 18-plug wire hole, 19-conductive socket, 20-locking piece, 21-unlocking button, 22-through hole, 23-locking spring, 24-wire, 25-level gauge, 26-connection piece, 27-mounting hole, 28-slide rail support, 29-bar chute, 30-conductive strip, 31-conductive contact, 32-accommodating groove.

Detailed Description

The application provides a display device, it can also satisfy display device's diversified user demand when guaranteeing to connect the fastness.

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

As shown in fig. 1 to 5, embodiments of the present application provide a display device, which may be a variety of devices with a display screen, such as an electronic photo frame, a tablet computer, a mobile phone, a display, and the like, and the display device is embodied in the drawings by taking the electronic photo frame as an example. The display device mainly comprises a body 1, a display module 2 and a connecting structure, wherein the body 1 refers to a main body part of the display device, such as a photo frame of an electronic photo frame, a shell of a tablet personal computer and the like, and the body part can be used for installing the display module 2 and the connecting structure; the display module 2 is arranged on the first surface 3 of the body 1 and used for outputting image information, the display module 2 comprises a display screen and an electronic element which is matched with the display screen to work, and the display device can also comprise an audio module and the like which are used for outputting audio information besides the display module 2 which is used for outputting the image information; the connecting structure is arranged on the second surface 4 of the body 1 and can be connected with a bearing device arranged on a support (such as a wall, a table and the like), namely the connecting structure can realize the connection of the body 1 and the support by being connected with the bearing device, so that the installation of the whole display device on the support is realized, and the connecting structure comprises a magnetic connecting piece 5 and a clamping connecting piece 6, wherein the magnetic connecting piece 5 and the clamping connecting piece 6 can be simultaneously connected with the bearing device, so that the connecting structure is magnetically connected with the bearing device and is also clamped with the bearing device. Here, the first surface 3 and the second surface 4 are two opposite outer surfaces of the body 1, that is, the display module 2 and the connecting structure are respectively disposed on the two opposite surfaces of the body 1, when the connecting structure is connected with the carrying device to implement the installation of the display device on the support, the display module 2 faces a side away from the support to display an image, for example, when the electronic photo frame is installed on a wall surface, the surface of the electronic photo frame on which the display module 2 is disposed faces an indoor space, so that a user can conveniently view digital photos indoors.

According to the display device with the structure, the magnetic connecting piece 5 and the clamping connecting piece 6 of the connecting structure are both connected with the bearing device, the magnetic connecting piece 5 and the bearing device are connected through magnetic adsorption, the structure limitation does not exist in the magnetic connecting mode, the display device can rotate and/or move relative to the bearing device under the action of force exerted by a user while the connection is ensured, and further the whole display device can rotate and/or rotate on the bearing device, so that the display device can have various different postures and can be located at various different positions, and further the display device can meet more diversified use requirements; and the joint connecting piece 6 and the joint of bearing device can not cause the restriction to foretell rotation and/or removal, and the joint is connected for magnetism, and firm in connection nature and reliability are higher to can strengthen connection structure and bearing device's firm in connection nature, guaranteed display device and bearing device's stable connection. That is, make connection structure and bear the device and connect simultaneously through magnetism connecting piece 5 and joint connecting piece 6, can make display device's firm connection and diversified use obtain taking into account, can promote user's use and experience.

In this embodiment, as shown in fig. 2 to 5, the connection structure includes a connection seat 7, a magnetic connector 5 and a clamping connector 6 are disposed on the connection seat 7, and the connection seat 7 can be rotatably fitted with the bearing device and can be connected with the bearing device through the magnetic connector 5 and the clamping connector 6. That is, the main body of the preferred connection structure is a connection seat 7, the magnetic connector 5 and the snap connector 6 are disposed on the connection seat 7, and the connection seat 7 can be rotatably fitted with the bearing device, that is, the display device and the bearing device can rotate relatively, so that the display device can change the setting posture (or setting angle, setting position) on the support. The magnetic connector 5 and the clamping connector 6 are used for realizing the connection between the display device and the bearing device, namely, on the basis that the display device can rotate on the bearing device, the magnetic connector 5 and the clamping connector 6 are arranged for avoiding the separation of the display device and the bearing device, and the two connectors can not limit the relative rotation between the display device and the bearing device. In addition, the purpose of rotationally engaging the connecting base 7 with the carrying device in the above structure is to achieve relative rotation between the display device and the support, but this can be achieved not only by the above engagement, but also by rotating the connecting base 7 relative to the body 1 and the carrying device relative to the support.

Preferably, as shown in fig. 4 and 5, the connecting base 7 is provided with a connecting groove 8 capable of matching with the carrying device, and the magnetic connecting piece 5 is arranged in the connecting groove 8. The structure matching with the carrying device on the connecting seat 7 is preferably a circular connecting groove 8, which can allow a part of the carrying device (the part is a convex part of the carrying device, preferably a clamping carrying piece 14 described later) to extend into the connecting groove 8, and the concave-convex matching structure is convenient for disassembly and assembly. In the process of actually using the display device, the display device may be frequently detached from the support and then re-attached to the support, for example, when the display device is an electronic photo frame, a user may detach the electronic photo frame from a wall surface to more conveniently and carefully view a photo or operate the electronic photo frame (for example, introduce a digital photo into the electronic photo frame), and re-hang the electronic photo frame on the wall surface after the viewing and operating are completed, so the present embodiment preferably adopts a structure of concave-convex matching to facilitate the above-mentioned detaching operation. In addition, as mentioned above, the connection structure and the display module 2 are respectively disposed on two opposite surfaces of the display device, when the user hangs the electronic photo frame on the wall surface again, the first surface 3 disposed with the display module 2 faces the user, and the second surface 4 disposed with the connection structure faces away from the user, due to the shielding of the body 1, the user cannot directly observe the specific position of the connection groove 8, so that the user cannot accurately align the connection groove 8 with the local part of the carrying device, and needs to perform a plurality of position adjustment and docking attempts, which brings inconvenience to the user's operation, and the magnetic connection member 5 disposed in the connection groove 8 can further facilitate the dismounting operation, so that the user can more conveniently realize the docking operation, because the magnetic connection member 5 is connected by being attracted to the carrying device by magnetic force, on the basis that the magnetic component (i.e., the magnetic bearing component 13 described later) is also arranged on the bearing device, when the distance between the two mutually attracted magnetic components (i.e., the magnetic connecting piece 5 and the magnetic bearing component 13 described later) is smaller, the attraction force between the two magnetic components is larger, i.e., the larger and larger attraction force can help the user to more quickly and accurately realize the alignment and the alignment of the connecting groove 8 and the bearing device, i.e., the magnetic connecting piece 5 plays a guiding role, so that the hanging operation of the electronic photo frame can be more conveniently realized.

In addition, when the connecting seat 7 and the bearing device adopt a concave-convex matching structure, a convex part can be arranged on the connecting seat 7 and a groove can be arranged on the bearing device; on the basis of the magnetic connector 5 being disposed in the coupling groove 8, as shown in fig. 4, the magnetic connector 5 is preferably disposed on the bottom wall of the coupling groove 8, or the magnetic connector 5 may be disposed on the side wall of the coupling groove 8.

As shown in fig. 5, it is preferable that the latch connecting member 6 extends and retracts in the radial direction of the connecting groove 8, and the latch connecting member 6 can lock a part of the carrier (this part is preferably a latch described later, namely, the latch carrier 14) in the connecting groove 8 by extending into the connecting groove 8 in the radial direction, so as to prevent the part of the carrier from being released from the connecting groove 8 and allow the part of the carrier to rotate in the connecting groove 8. Wherein, it is further preferable that the clamping connection member 6 is a metal card, the clamping edge of the metal card can penetrate through the sidewall of the connection groove 8 to extend into the connection groove 8 or move out of the connection groove 8 by retracting, so that when the clamping connection member 6 extends into the connection groove 8 along the radial direction, the local part of the carrying device can be clamped and stopped, so as to prevent the local part of the carrying device from moving along the depth direction of the connection groove 8 and dropping out of the connection groove 8, thereby ensuring the normal installation of the display device on the support, and in this state, the suction force of the magnetic connection member 5 also plays a role in the normal installation of the display device on the support; when the user needs to detach the display device from the carrier device, the card connecting member 6 can be controlled to retract so as to move out of the connecting groove 8, as shown by the dotted arrow in fig. 5, and then the local part of the carrier device is released from being locked, so that the local part of the carrier device can be pulled out of the connecting groove 8, and on the basis, if the acting force applied by the user to the display device is enough to overcome the attraction force of the magnetic connecting member 5, the display device can be detached from the carrier device. In order to avoid the influence of the clamping connector 6 on the relative rotation between the connection groove 8 and the local part of the bearing device, the clamping edge of the metal card for clamping and stopping the local part of the bearing device is an arc-shaped edge, as shown in fig. 5, so that the local circumferential side wall of the bearing device contacting with the metal card can rotate relative to the arc-shaped edge, thereby ensuring that the display device can rotate relative to the support without being limited by the clamping connector 6 as long as the rotary force applied by a user to the display device is enough to overcome the suction force of the magnetic connector 5 when the display device is connected to the bearing device, for example, as shown in fig. 13, a cuboid-shaped electronic photo frame arranged on a wall surface can be vertically arranged (i.e. the long side of the cuboid is arranged along the vertical direction) or horizontally arranged (i.e. the long side of the cuboid is arranged along the horizontal, and the acting force for keeping the electronic photo frame to stay vertically or horizontally is the attraction force of the magnetic connecting piece 5.

The above-mentioned connecting groove 8 preferably has a depth direction perpendicular to the second surface 4, as shown in fig. 4 and 12, i.e. a part of the carrying means extends into the connecting groove 8 in a direction perpendicular to the second surface 4, and also preferably this part is arranged perpendicular to the surface of the support, as shown in fig. 12; therefore, the whole display device can rotate in a plane parallel to the surface of the support when rotating around a part of the bearing device, for example, when the electronic photo frame is switched between the vertical posture and the horizontal posture through rotation, the plane where the electronic photo frame is located is always a plane parallel to the wall surface, as shown in fig. 12 and 13, so that the display device can be better ensured to be hung on the support in parallel. Furthermore, the mating structures of the connecting structure and the carrier device may also be of other types, such as structures that may allow tilting rotation of the display device relative to the surface of the support, e.g. spherical pairs, etc.

As shown in fig. 4 and 5, the body 1 is provided with an input device controlling the radial retraction of the card connection 6 with respect to the connection groove 8. As mentioned above, when the display device is detached from the support, the control card connecting member 6 needs to be retracted from the connecting groove 8, so that the clamping connecting member 6 no longer clamps a part of the carrying device, and therefore, an input device with the control card connecting member 6 retracted is needed, which can be of various types, for example, in a preferred structure, as shown in fig. 5, the clamping connecting member 6 can be connected with one end of a connecting rod 9, and the other end of the connecting rod 9 is connected with a sliding switch 10, wherein the connecting rod 9 is arranged inside the body 1, the sliding switch 10 is exposed out of the second surface 4 of the body 1, when the user needs to detach the display device, the user can apply force to the sliding switch 10 by fingers while holding the display device, so that the sliding switch 10 slides away from the connecting groove 8, and the sliding switch 10 slides while driving the clamping connecting member 6 to slide away from the connecting groove 8 through the connecting rod 9, thereby removing (i.e., retracting) the snap connector 6 from the connection groove 8; or, in another preferred structure, the clamping connecting piece 6 is connected with a motor, the second surface 4 of the body 1 is provided with a sensor, the sensor can be a fingerprint sensor, a touch sensor and the like, when a finger of a user contacts with the sensor, the sensor sends a contact signal to a controller of the display device, and the controller controls the motor to start to drive the clamping connecting piece 6 to move towards a direction far away from the connecting groove 8, so that the retraction of the clamping connecting piece 6 is realized. In addition, on the basis, the radial extension of joint connecting piece 6 in to connecting groove 8 can be realized by applying elasticity to joint connecting piece 6 through the spring that sets up in body 1, and joint connecting piece 6 can receive the elasticity of spring at the in-process that contracts promptly, when user's finger no longer to slide switch 10 application of force or no longer with the sensor contact, joint connecting piece 6 can lose the power of moving to the direction of keeping away from connecting groove 8, consequently joint connecting piece 6 can reset under the elastic force effect of spring, and joint connecting piece 6 resumes to the state of stretching into in connecting groove 8 promptly.

Further, it is preferable that the present embodiment further includes a plurality of the snap-fit connection members 6 and the input device, and the snap-fit connection members 6 and the input device are arranged in a one-to-one manner, so that when all the input devices control all the snap-fit connection members 6 to radially retract, a part of the carrier device can be disengaged from the connection groove 8. As shown in fig. 4 and 5, the preferred embodiment of the present invention is that the snap-in connection 6 is provided in two aligned, and correspondingly, the input devices are also provided in two aligned, and the two input devices move in opposite directions when the two snap-in connections 6 are driven to retract, as shown by the dashed arrows in fig. 5. The advantage that so sets up lies in, when the user when taking off display device, needs two fingers of both hands to control two joint connecting piece 6 simultaneously and retract, just can realize the local separation of coupling groove 8 and load-bearing device to improve the reliability of separation operation, avoid the condition emergence that the user accidentally touched slide switch 10 or sensor and caused display device accident to drop under the condition that only sets up an input device.

In this embodiment, it is further preferable that the connection structure is electrically connected to the carrier device to supply power to the display module 2. Through such arrangement, the display device and the bearing device can be mechanically connected and can also be electrically connected, the arrangement of parts specially used for electrical connection is avoided, the structures of the display device and the bearing device are simplified, and the appearance attractiveness of the display device and the bearing device is also improved.

The electrical connection structure preferably includes an electrically conductive plug 11 disposed on the bottom wall of the connection recess 8, as shown in fig. 4 and 11, and the electrically conductive plug 11 can be plugged into the carrier device (specifically, into an electrically conductive socket 19 of the carrier device, which will be described later, and the electrically conductive socket 19 is also a component of the electrical connection structure) to achieve electrical conduction. This kind of electric connection structure of pegging graft can cooperate with the better realization in grafting complex connecting groove 8 and the local of load bearing device, promptly, just can realize the circular telegram when the local of load bearing device enters into connecting groove 8, just can realize the outage when the local of load bearing device deviates from connecting groove 8, once the plug operation just can realize mechanical connection and electricity and connect or mechanical separation and outage simultaneously, has made things convenient for user's use. In addition, the plug of the lead 24 is arranged on the bottom wall of the connecting groove 8, and can be locally aligned and aligned through the connecting groove 8 and the bearing device, so that the alignment and alignment of the conductive plug 11 and the conductive socket 19 are realized, the operation is further simplified, and the use experience is improved.

Specifically, in the above configuration, the magnetic connector 5 is preferably a magnet, and in order to increase the attraction area and the attraction force, the magnetic connector 5 is more preferably a ring magnet, as shown in fig. 4.

As shown in fig. 6-12, the present application further provides a carrying device, which can connect and support the above-mentioned display device on a support (such as a wall, a table, etc.), and the carrying device mainly includes a carrying seat 12 and a carrying structure, wherein the carrying seat 12 can be fixedly connected to the support, and the carrying structure is fixedly disposed on the carrying seat 12, the carrying structure is used for connecting with the display device (specifically, connected with the above-mentioned connecting structure) to mount the display device on the support, and the carrying structure includes a magnetic carrier 13 and a latch carrier 14, the magnetic carrier 13 and the latch carrier 14 can be simultaneously connected with the display device, so that the carrying structure can be magnetically connected with the display device and also latched with the display device, specifically, the magnetic carrier 13 is used for connecting with the above-mentioned magnetic connector 5, this snap carrier 14 is intended to be connected to the aforementioned snap connection 6.

According to the bearing device with the structure, the magnetic bearing piece 13 and the clamping bearing piece 14 of the bearing structure are connected with the display device, the magnetic bearing piece 13 is connected with the display device through magnetic adsorption, the structure limitation does not exist in the magnetic connection mode, the connection is guaranteed, meanwhile, the display device can be allowed to rotate and/or move relative to the bearing device, the whole display device can rotate and/or rotate on the bearing device, the display device can have various postures and can be located at various positions, and therefore the display device can meet diversified use requirements; and the joint of the joint bearing part 14 and the display device does not limit the rotation and/or movement, and the joint has higher connection firmness and reliability compared with the magnetic connection, so that the connection firmness of the bearing structure and the display device can be enhanced, and the stable connection of the display device and the bearing device is ensured. That is, make bearing structure and display device hold 14 with the joint through magnetism and hold 13 and be connected simultaneously, can make display device's firm connection and diversified use obtain taking into account, can promote user's use and experience.

In this embodiment, as shown in fig. 6-8, the carrier structure is preferably capable of being rotatably engaged with the display device and is capable of being connected to the display device via the magnetic carrier 13 and the snap carrier 14. Make bearing structure and display device normal running fit, can make display device pivoted install on the support to make display device can change the gesture that sets up on the support, in order to satisfy more diversified user demand. On the basis that the bearing structure can be matched with the connecting structure of the display device in a rotating mode, the connection between the bearing structure and the connecting structure (or the separation between the bearing structure and the connecting structure is avoided) is realized through the magnetic bearing piece 13 and the clamping bearing piece 14, namely, the magnetic bearing piece 13 and the magnetic connecting piece 5 are mutually adsorbed, the magnetic connection between the bearing structure and the display device is realized through the magnetic bearing piece 13 and the clamping bearing piece 14, the clamping bearing piece 14 and the clamping connecting piece 6 are mutually clamped, and the clamping between the bearing structure and the display device is realized through the magnetic bearing piece 14 and the clamping. Wherein, both of magnetism are connected, be convenient for the user to carry out the dismouting operation, in case display device and load-bearing device are close to each other promptly, magnetism holds the connection that display device and load-bearing device just can be realized automatically through mutual absorption to magnetism carrier 13 and magnetic connecting piece 5, need not the user and carry out other operations, and when the user need take off display device from load-bearing device, only need directly to stimulate display device to the direction of keeping away from load-bearing device and just can realize display device and load-bearing device's separation, the user also need not to carry out other operations, make the dismouting operation very simple, it is convenient. Furthermore, in order to improve the reliability and safety of the connection between the display device and the carrier device, it is preferable to use the snap carrier 14 and the snap connector 6 to achieve the mutual snap connection between the display device and the carrier device, so as to avoid the accidental separation of the display device and the carrier device. That is, in the present embodiment, the connection between the display device and the carrier device is mainly realized by the mutual attraction of the magnetic carrier 13 and the magnetic connector 5, and the prevention of the accidental separation between the display device and the carrier device is mainly realized by the mutual engagement of the engaging carrier 14 and the engaging connector 6. Of course, the magnetic bearing part 13 and the magnetic connecting part 5 which are attracted to each other can also play a role in avoiding accidental separation of the display device and the carrying device, and the clamping bearing part 14 and the clamping connecting part 6 which are clamped to each other can also play a role in connection of the display device and the carrying device.

As shown in fig. 6-8, the latch bearing 14 is preferably a latch (i.e. a part of the bearing device) that can latch with the connection structure of the display device, and the magnetic bearing 13 is disposed on the latch. Since the structure for matching with the bearing device arranged on the display device is the connecting groove 8, in order to match with the structure, the clamping bearing member 14 is preferably a clamping block protruding from the bearing seat 12, and since the connecting groove 8 is a circular groove, the clamping block is preferably a cylindrical clamping block matched with the circular groove. Meanwhile, in order to enable the clamping connecting piece 6 to better clamp the clamping block, as shown in fig. 12, it is preferable that a flange 15 is arranged on the circumferential side wall of the clamping block, the flange 15 can be clamped at the arc-shaped edge of the clamping connecting piece 6, so that the clamping block is blocked in the depth direction of the connecting groove 8, the clamping block is prevented from being separated from the connecting groove 8, and meanwhile, the arc-shaped edge is in sliding fit with the peripheral side wall of the clamping block or has a gap, so that the clamping block can rotate in the connecting groove 8, and the display device can be guaranteed to rotate relative to the bearing device.

When the carrying device is used for being arranged on a wall surface, the carrying seat 12 is preferably a plate-shaped member and is attached to the wall surface, that is, the carrying seat 12 is arranged parallel to the wall surface. Meanwhile, the axis of the fixture block is perpendicular to the bearing seat 12, as shown in fig. 12, so that the fixture block protrudes perpendicular to the wall surface, and the rotation plane of the display device, which is sleeved on the fixture block through the connecting groove 8, is parallel to the wall surface when the display device rotates around the fixture block, so that the bearing device can be more suitable for supporting and connecting the electronic photo frame.

As shown in fig. 6-8, it is preferable that the holder 12 is provided with a protrusion 16, the latch holder 14 is protrudingly provided on the protrusion 16, an annular winding member 17 is sleeved on an outer peripheral side wall of the protrusion 16, a winding groove is formed on an outer peripheral wall of the winding member 17, and a wire 24 for supplying power to the display device can be wound in the winding groove. The projection 16 is also preferably cylindrical in configuration, and the latch is disposed on the projection 16 such that the projection 16 is disposed between the latch and the carrier 12, and preferably the carrier 12, the projection 16 and the latch are all coaxially disposed. The addition of the projection 16 enables the wire winding member 17 and a plurality of components such as a conductive member, a lock member 20, an unlock button 21, and a level gauge 25, which will be described later, to be mounted on the carrier device. The winding member 17 is a ring member, which is sleeved on the peripheral side wall of the bump 16, and the peripheral wall of the winding member 17 has a winding groove coaxially disposed. Under the general condition, in order to satisfy the installation requirement under the multiple environment, wire 24 for supplying power for display device all can have great length, because display device passes through load-bearing device and sets up on the wall, so make overlength wire 24 flagging at will, put can seem very in disorder, and add behind the wire winding groove, just can twine wire winding inslot with 24 unnecessary parts of wire, thereby realized wire 24's standard and accomodate, make the line of walking cleaner and tidier, pleasing to the eye. Also, providing a special winding member 17 increases the diameter of the winding groove and allows the winding groove to be provided deeper, thereby allowing a greater length of wire 24 to be wound. In addition, the winding groove can be directly arranged on the peripheral side wall of the lug 16 without adding a special winding piece 17.

In this embodiment, the supporting structure is preferably electrically connected to the connecting structure to supply power to the display device. Through such arrangement, the display device and the bearing device can be mechanically connected and can also be electrically connected, the arrangement of parts specially used for electrical connection is avoided, the structures of the display device and the bearing device are simplified, and the appearance attractiveness of the display device and the bearing device is also improved.

Specifically, the protrusion 16 has an inner cavity, a conductive member (not shown) is disposed in the inner cavity, a wire insertion hole 18 is disposed on a peripheral sidewall of the protrusion 16, as shown in fig. 8, a wire insertion end of a wire 24 is inserted into the wire insertion hole 18 to electrically connect the wire 24 with the conductive member, a conductive socket 19 for conducting electricity to the display device by being inserted into the connecting structure is disposed on the fixture block, and the conductive socket 19 is electrically connected with the conductive member. The electrical connection between the wire 24 and the display device is mainly realized by means of the components and structures arranged on the projection 16, the components and structures comprise the wire insertion hole 18 arranged on the peripheral side wall of the projection 16 and the conductive piece electrically connected with the wire insertion hole 18 and arranged in the inner cavity of the projection 16, when the wire 24 is inserted into the wire insertion hole 18, the wire 24 is electrically connected with the conductive piece, the conductive piece is electrically connected with the conductive socket 19, the wire 24 is electrically connected with the conductive socket 19 by being inserted into the wire insertion hole 18, and the conductive socket 19 can be electrically connected with the conductive plug 11 by being plugged, so that the electrical connection between the wire 24 and the display device is realized through the conductive paths.

Further, as shown in fig. 6 and 9-11, a locking member 20 capable of locking the plug wire end to prevent the plug wire end from falling out of the plug wire hole 18 is disposed in the plug wire hole 18, and an unlocking button 21 capable of controlling the locking member 20 to unlock the plug wire end is disposed on the projection 16. The locking member 20 is provided to prevent the wire 24 inserted into the wire insertion hole 18 from being accidentally removed from the wire insertion hole 18, thereby improving the operational reliability of the carrier and the display device. Specifically, a through hole 22 is formed in the locking member 20, the lead wire 24 passes through the through hole 22 first when being inserted into the wire insertion hole 18, the lead wire 24 presses the locking member 20 by abutting against the edge of the through hole 22, a locking spring 23 is arranged at the bottom of the locking member 20, when the locking member 20 is pressed down, the locking spring 23 is compressed by the locking member 20 moving downward, and the pressure of the locking spring 23 is applied to the lead wire 24 through the locking member 20 so as to press the lead wire 24 against the inner wall of the wire insertion hole 18, so that the lead wire 24 is locked, as shown in fig. 11; when the lead 24 needs to be pulled out of the wire insertion hole 18, the unlocking key 21 connected with the locking piece 20 is pressed downwards, so that the locking piece 20 further moves downwards to compress the locking spring 23 to a greater extent, at the moment, the edge of the through hole 22 is not abutted to the lead 24, and the locking spring 23 does not apply pressure to the lead 24, so that the lead 24 is unlocked, the lead 24 can be pulled out, after the lead 24 is pulled out, the acting force applied to the unlocking key 21 is removed, and the unlocking key 21 and the locking piece 20 can rise under the action of the elastic force of the locking spring 23 to restore the original position.

As shown in fig. 6, it is also preferable that the carrier 12 is provided with a level 25 capable of detecting whether the carrier is horizontally disposed on the support. When the display device is an electronic photo frame and the bearing device is fixedly connected with the wall surface, the horizontal installation of the bearing device on the wall surface needs to be ensured in order to ensure that the display device connected to the bearing device is suspended on the wall surface, and therefore, the level meter 25 is arranged on the bearing seat 12 in order to ensure that an installer can conveniently and accurately judge whether the bearing device is horizontally installed. More preferably, the level 25 is arranged on an end face of the projection 16 parallel to the carrier 12.

Moreover, the bearing seat 12 is provided with a plurality of mounting holes 27 for being penetrated by a connecting piece 26 (such as a screw) to connect the bearing device to the support, one mounting hole 27 of all the mounting holes 27, which is located at the top of the bearing seat 12 and has the largest distance with the center of the bearing seat 12, is a round hole, and the rest mounting holes 27 are strip-shaped holes, as shown in fig. 6. The mounting hole 27 having the largest distance from the center of the carrier 12 is the mounting hole 27 having the largest height when the carrier 12 is attached to a wall surface. The reason why the mounting holes 27 are round holes and the other mounting holes 27 are strip-shaped holes is that when the bearing seat 12 is mounted on the wall surface, as long as the setting height of the bearing seat 12 on the wall surface is determined, the connecting piece 26 can directly pass through the mounting hole 27 and the connecting piece 26 is connected with the wall surface, no matter whether the bearing seat 12 is horizontal or not, the position of the mounting hole 27 relative to the wall surface is not required to be changed, i.e. when adjusting the horizontal angle of the carrier 12, the carrier 12 is rotated about the connecting member 26 passing through the mounting hole 27, as shown by the dashed arrow in figure 6, during this rotation, since the positions of the other mounting holes 27 with respect to the wall surface are changed, it is necessary to provide these mounting holes 27 with a space for rotation relative to the connecting piece passing through them, i.e. the connecting piece 26 passing through the other mounting hole 27, needs to have a movement space inside the bar-shaped hole, i.e. a bar-shaped space inside the bar-shaped hole. So set up, can realize bearing device horizontal angle's accurate regulation on the wall, make bearing device's result of use more outstanding.

In this embodiment, it is further preferable that the magnetic bearings 13 are plural and distributed on the clamping bearing 14 in a circular shape, and in the circumferential direction of the circular shape, the distance between any two adjacent magnetic bearings 13 is equal. Because display device can rotate for bearing device relatively, so in order to promote display device's rotation stationarity for the user has better use and experiences, be preferably on the fixture block that circular is provided with a plurality of magnetic carrier 13, this magnetic carrier 13 preferably can with the magnet of the absorption of magnetic connector 5 on the connecting groove 8 diapire. So set up a plurality of magnets, can not realize being connected of connecting groove 8 and fixture block, but also can provide damping force for display device at display device pivoted in-process to make the user have more steady rotation and feel. Specifically, when the display device rotates, the magnetic connecting piece 5 and one magnetic bearing piece 13 are aligned each time the display device rotates by a certain angle, and when the magnetic connecting piece 5 and the magnetic bearing piece 13 are aligned, a large attractive force exists between the two, which can prevent the magnetic connecting piece 5 from continuing to rotate, so that a damping force can be formed on the display device, when the number of the magnetic bearing pieces 13 is large enough, for example, 40 magnetic bearing pieces 13 are circumferentially arranged, a continuous damping force can be formed in the rotating process of the display device, so as to ensure the smooth rotation of the display device, and the display device can stay at the position where the magnetic connecting piece 5 and each magnetic bearing piece 13 are aligned, so that more and more accurate setting angles can be provided for the display device.

Preferably, in all the magnetic bearings 13, the attraction force of two magnetic bearings 13 located on the left-right connecting line of the bearing seat 12 and the attraction force of two magnetic bearings 13 located on the up-down connecting line of the bearing seat 12 is greater than that of the rest of the magnetic bearings 13. That is, after the carrier device is fixedly disposed on the wall surface, of all the magnetic carriers 13 distributed in a circular shape, the attraction force of the two magnetic carriers 13 connected in the horizontal line and the attraction force of the two magnetic carriers 13 connected in the vertical line are greater than the attraction force of the other carriers. The reason why the display device is configured as an electronic photo frame is that the probability of the electronic photo frame being vertically and horizontally arranged is the highest, so that the attraction of the magnetic bearing parts 13 corresponding to the two states is increased, which not only helps the rotating display device to stay at the two positions more easily, but also can improve the stability of the display device staying at the two positions. The increase of the attraction force of the magnetic bearings 13 can be realized by increasing the volume of the magnetic bearings 13, that is, the volume of two magnetic bearings 13 in the horizontal line and the volume of two magnetic bearings 13 in the vertical line are larger than the volume of the other magnetic bearings 13.

As shown in fig. 12 and 13, the carrying device in this embodiment preferably further includes a slide rail bracket 28 fixed on the support, the slide rail bracket 28 is provided with a strip-shaped slide groove 29, and the carrying seat 12 is slidably disposed in the strip-shaped slide groove 29. So set up, can no longer with bearing seat 12 direct fixed connection on the support, but can make it slide on the support through the connection of slide rail bracket 28, specifically be earlier with the gliding setting of bearing seat 12 on slide rail bracket 28, then fix slide rail bracket 28 on the support to realize bearing seat 12 and the sliding connection of bearing structure on the support, and then make the display device who is connected with bearing structure also can slide on the support. The slide rail bracket 28 may be a plate-shaped member, and preferably, two longer parallel edges of the slide rail bracket 28 are bent toward the same side, so as to form a receiving groove 32 on the side, when the load-bearing seat 12 is disposed on the slide rail bracket 28, the protrusion 16 and the latch disposed on the protrusion 16 pass through the strip-shaped sliding groove 29 to extend to the other side of the slide rail bracket 28 (when the slide rail bracket 28 is mounted on a support, the side is the side of the slide rail bracket 28 away from the support), and the protrusion 16 can move in the strip-shaped sliding groove 29, and the load-bearing seat 12 is located in the receiving groove 32 and is enclosed in the receiving groove 32 by the slide rail bracket 28 and the support, so as to prevent the protrusion 16 and the latch from coming out of the strip-shaped sliding groove 29 to separate the load-bearing seat 12 and the. So set up, when realizing display device pivoted through connection structure and bearing structure cooperation, can also realize display device's removal through bearing the slip of seat 12 on slide rail bracket 28, promptly, the bearing device of this kind of structure not only can realize display device at the rotation installation of support, can also realize at the removal installation of support, makes display device have more use gesture, can satisfy the user demand that the user is more diversified.

Specifically, in order to ensure that the display device can be normally powered, as shown in fig. 12, it is preferable that a conductive strip 30 is disposed on the sliding rail bracket 28, a wire 24 for connecting a power supply is electrically connected to an end of the conductive strip 30, and a conductive contact piece 31 which is in contact with the conductive strip 30 and can slide relative to the conductive strip 30 is disposed on the carrier 12, as shown in fig. 12, so that the conductive contact piece 31 can supply power to the display device through the carrier. Because the conductive contact 31 is connected to the bump 16, the conductive contact 31 will move along with the carrier 12, and during the moving process, the conductive contact 31 is always in contact with the conductive strip 30, so as to ensure that the carrier 12 can supply power to the display device at any position of the sliding rail bracket 28. An insulator is provided between the conductive strip 30 and the rail support 28, and the contact of the lead 24 is insulated from the carrier 12. By the arrangement, in the process that the bearing device drives the display device to move, the lead 24 does not need to move, and the moving smoothness and the electric connection reliability are ensured. In addition, the wires 24 may also be inserted into the receiving slots 32 to connect with the bumps 16, and the wires 24 with a greater length may be inserted into the receiving slots 32 to move along with the movement of the display device driven by the carrier 12.

More preferably, as shown in fig. 13, a plurality of carrying seats 12 may be provided on the slide rail bracket 28 at the same time. That is, through being provided with a slide rail support 28 on the wall, just can realize a plurality of carriers 12 and set up the installation on the support of a plurality of display device on bearing the carrier 12 to make a plurality of display device can be through removing and rotate the work of mutually supporting, for example make every display device's display module assembly 2 show the different parts of an image respectively, and then splice into complete image through a plurality of parts. So set up, can realize mutually supporting of a plurality of display device multiple gestures to further satisfy the more diversified user demand of user.

In this embodiment, an electronic device is further provided, which includes the display device and the carrying device, where the display device specifically includes: a body 1; the display module 2 is arranged on the first surface 3 of the body 1 and used for outputting image information; the connecting structure is arranged on the second surface 4 of the body 1 and can be connected with a bearing device arranged on a support so as to install the body 1 on the support, and the connecting structure comprises a magnetic connecting piece 5 and a clamping connecting piece 6; wherein the first surface 3 and the second surface 4 are opposite outer surfaces; the bearing device comprises: the bearing seat 12 can be fixedly connected to a support; a bearing structure arranged on the bearing seat 12 and capable of being connected with a display device so as to mount the display device on a support; wherein the carrier structure comprises a magnetic carrier 13 and a snap carrier 14.

The electronic equipment, the display device and the bearing device can be connected through the matching of the connecting structure and the bearing structure, particularly through the connection of the magnetic connecting piece 5 and the magnetic bearing piece 13 and the connection of the clamping connecting piece 6 and the clamping bearing piece 14, the bearing device can be arranged on a support through the bearing seat 12, and the display device can output image information through the display module 2. Owing to realize the magnetism connecting piece 5 of connecting through magnetic force absorption and can also make display device rotate and/or remove for bearing the device when guaranteeing to connect with bearing connecting piece 26, so can make display device satisfy more diversified user demand, and, because the joint connecting piece 6 of joint and the joint of joint bearing 14 joint can also strengthen connection structure and bear the device's firm in connection nature when not forming the restriction to rotating, so assurance display device that can be better and bear the stable connection of device, therefore, firm connection and diversified use of electronic equipment on the support have obtained the consideration, can show user's use experience that promotes.

Specifically, as shown in fig. 4, 6 and 12, the connecting structure includes a connecting seat 7, and the connecting seat 7 can be rotatably engaged with the bearing structure; wherein, the connection of the connection structure and the bearing structure is realized by the adsorption of the magnetic connecting piece 5 and the magnetic bearing piece 13 and the clamping of the clamping connecting piece 6 and the clamping bearing piece 14. That is, in the present embodiment, the display device can rotate relative to the carrier device, and the connection between the display device and the carrier device is realized by the attraction of the magnetic connector 5 and the magnetic carrier 13 and the engagement of the snap connector 6 and the snap carrier 14.

Wherein, display device and bear device normal running fit's structure does: a connecting groove 8 is formed in the connecting seat 7, the magnetic connecting piece 5 is arranged in the connecting groove 8, and the clamping connecting piece 6 can stretch out and draw back along the radial direction of the connecting groove 8; the clamping bearing part 14 of the bearing structure is a fixture block, and the magnetic bearing part 13 is arranged on the fixture block; the fixture block can stretch into the connecting groove 8, the clamping connecting piece 6 can clamp the fixture block in the connecting groove 8 and allow the fixture block to rotate in the connecting groove 8, and the magnetic connecting piece 5 and the magnetic bearing piece 13 which are positioned in the connecting groove 8 can be mutually adsorbed. That is to say, in this embodiment, the rotation fit of the display device and the carrying device is realized by the relative rotation of the connecting groove 8 and the fixture block extending into the connecting groove, the connection of the display device and the carrying device is mainly realized by the mutual adsorption of the magnetic bearing piece 13 and the magnetic connecting piece 5, and the accidental separation of the display device and the carrying device is mainly realized by the mutual clamping of the clamping bearing piece 14 and the clamping connecting piece 6.

Meanwhile, the bearing structure is electrically connected with the connecting structure so as to supply power to the display device through the bearing device; as shown in fig. 4 and 6, a conductive plug 11 electrically connected with the display module 2 is disposed on the bottom wall of the connecting groove 8; the block is provided with a conductive socket 19 for conducting electricity to the display device by plugging with the conductive plug 11. Through such arrangement, the display device and the bearing device can be mechanically connected and can also be electrically connected, the arrangement of parts specially used for electrical connection is avoided, the structures of the display device and the bearing device are simplified, and the appearance attractiveness of the display device and the bearing device is also improved.

In this specification, structures of each part are described in a progressive manner, and a structure of each part is mainly described to be different from an existing structure, and the whole and part structures of the display device, the carrying device, and the electronic device can be obtained by combining structures of a plurality of parts.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A display device, comprising:

a body;

the display module is arranged on the first surface of the body and used for outputting image information;

the connecting structure is arranged on the second surface of the body and can be connected with a bearing device arranged on a support so as to install the body on the support, and the connecting structure comprises a magnetic connecting piece and a clamping connecting piece;

wherein the first surface and the second surface are opposing outer surfaces.

2. The display device according to claim 1, wherein the connecting structure comprises a connecting seat, the magnetic connector and the clamping connector are arranged on the connecting seat, and the connecting seat can be rotatably matched with the bearing device and can be connected with the bearing device through the magnetic connector and the clamping connector.

3. The display device according to claim 2, wherein the connecting base is provided with a connecting groove capable of matching with the bearing device, and the magnetic connector is arranged in the connecting groove.

4. The display device of claim 3, wherein the clamping connector extends and retracts in the radial direction of the connecting groove, and the clamping connector can clamp and stop the part of the bearing device in the connecting groove by extending into the connecting groove in the radial direction, so that the part of the bearing device is prevented from being separated from the connecting groove and is allowed to rotate in the connecting groove.

5. The display device of claim 4, wherein the body is provided with an input device for controlling the clamping connection piece to retract radially relative to the connection groove;

the clamping connecting piece and the input device are provided with a plurality of clamping connecting pieces, the clamping connecting pieces and the input device are arranged in a one-to-one mode, and when all the input device controls all the clamping connecting pieces to retract radially, the local part of the bearing device can be separated from the connecting groove.

6. The display device according to claim 3, wherein the connecting structure is electrically connected with the carrying device to supply power to the display module;

wherein the content of the first and second substances,

and a conductive plug which is electrically conducted through being plugged with the bearing device is arranged on the bottom wall of the connecting groove.

7. An electronic device comprising a display device and a carrier device, wherein:

the display device includes: a body; the display module is arranged on the first surface of the body and used for outputting image information; the connecting structure is arranged on the second surface of the body and can be connected with a bearing device arranged on a support so as to install the body on the support, and the connecting structure comprises a magnetic connecting piece and a clamping connecting piece; wherein the first surface and the second surface are opposing outer surfaces;

the bearing device comprises: the bearing seat can be fixedly connected to the support; the bearing structure is arranged on the bearing seat and can be connected with a display device so as to install the display device on the support; wherein, bearing structure includes magnetic carrier and joint and holds carrier.

8. The electronic device of claim 7, the connecting structure comprising a connecting seat that is rotatably mated with the carrying structure; wherein, through the magnetism connecting piece with the absorption that the magnetism held the thing and the joint connecting piece with the joint that the joint held the thing is realized connection structure with bearing structure's connection.

9. The electronic device according to claim 8, wherein the connecting seat is provided with a connecting groove, the magnetic connector is arranged in the connecting groove, and the clamping connector can extend and retract along the radial direction of the connecting groove; the clamping bearing piece is a fixture block, and the magnetic bearing piece is arranged on the fixture block;

the clamping block can extend into the connecting groove, the clamping connecting piece can clamp and stop the clamping block in the connecting groove and allow the clamping block to rotate in the connecting groove, and the magnetic connecting piece and the magnetic bearing piece in the connecting groove can be mutually adsorbed.

10. The electronic device of claim 9, the carrier structure electrically connected to the connecting structure to provide power to the display device through the carrier device;

wherein the content of the first and second substances,

a conductive plug electrically connected with the display module is arranged on the bottom wall of the connecting groove; and the clamping block is provided with a conductive socket which is connected with the conductive plug in an inserting manner and conducts electricity to the display device.

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