CN219327913U - Stand for electronic equipment - Google Patents

Abstract

The application provides a support for electronic equipment, electronic equipment has the interface, and the support includes: the electronic equipment comprises a base provided with a socket and at least one guiding and limiting part arranged on the base, wherein the at least one guiding and limiting part is used for guiding the electronic equipment, so that the electronic equipment can only move back and forth relative to the base along a first direction, and the interface of the electronic equipment can be inserted into or pulled out of the socket along the first direction. Through the direction spacing effect of at least one direction spacing portion for electronic equipment is when putting into the support or take off from the support, and electronic equipment's interface only can be along first direction for the socket motion, and when electronic equipment places on the support, at least one direction spacing portion can support the show to electronic equipment, thereby makes the socket be difficult for receiving the effort of non-first direction, in order to guarantee that the socket is difficult for distortion or damage in long-time applicable in-process, has improved the life and the reliability of socket.

Description

Stand for electronic equipment

Technical Field

The application relates to the technical field of electronic equipment display devices, in particular to a bracket for electronic equipment.

Background

When electronic devices are sold on-line, the electronic devices often need to be placed on a display stand for long-time display, so that visitors can actually observe and experience the electronic devices. In order to ensure that the electronic equipment has sufficient electric quantity for long-time demonstration and ensure the display effect of the electronic equipment. The display stand in the prior art is provided with a socket which is spliced with the electronic equipment, and the electronic equipment is directly supported through the socket, so that the electronic equipment can perform omnibearing demonstration in a vertical mode or under a certain inclination angle. Meanwhile, the socket can continuously supply power to the electronic equipment through the interface, so that the phenomenon that the electronic equipment cannot normally demonstrate due to insufficient electric quantity is avoided.

However, in the actual display process of the electronic device, the user frequently takes and puts the electronic device off the display stand, and because the socket on the display stand is smaller, the user is difficult to directly insert the interface of the electronic device into the socket, and torsion force is easily applied to the socket in the process of taking and putting down, so that the socket is deformed and damaged. Further, when demonstrating electronic equipment through the socket, the gravity of electronic equipment self also can continuously act on the socket, and intensity and the rigidity of socket are relatively poor, lead to the damage rate in the socket use higher to the socket is relatively poor to electronic equipment's supporting stability and reliability, when bending deformation appears in the socket, influences the bandwagon effect to electronic equipment easily.

Disclosure of Invention

The utility model provides an among the prior art, when carrying out the show to electronic equipment, the support stability of the socket of pegging graft with the electronic equipment interface is poor, the problem of damaging easily, consequently, the application provides a support for electronic equipment, through setting up at least one direction spacing portion, lead to and spacing electronic equipment for electronic equipment is difficult for exerting extra effort to the socket in the support show in-process, leads to distortion or the damage of socket, has improved the life and the reliability of socket.

The embodiment of the application provides a support for electronic equipment, electronic equipment has the interface, and the support includes:

the base is provided with a socket, and the socket can be inserted into an interface of the electronic equipment along a first direction, so that the socket is spliced with the interface;

the at least one guiding and limiting part is arranged at the position, outside the socket, on the base, and is used for guiding the electronic equipment, so that the electronic equipment can only move back and forth relative to the base along the first direction, and the interface of the electronic equipment can be inserted into or pulled out of the socket along the first direction.

By adopting the technical scheme, through the guiding and limiting effect of the at least one guiding and limiting part, when the electronic equipment is placed in or taken down from the support, the interface of the electronic equipment can only move along the first direction relative to the socket, and when the electronic equipment is placed on the support, the at least one guiding and limiting part can support and display the electronic equipment, so that the socket is not easy to receive acting force in the non-first direction, the socket is not easy to distort or damage in the long-time application process, and the service life and reliability of the socket are improved.

In some embodiments, at least one of the guiding and limiting portions is provided with a sliding groove, and the sliding groove can slide in the first direction on the frame of the electronic device. The at least one guiding and limiting part can stably and reliably guide and limit the frame of the electronic equipment.

In some embodiments, at least part of the at least one guiding and limiting part comprises a fixing piece and a sliding piece, and a sliding groove is formed in one side of the sliding piece facing the socket; the fixed part is fixedly arranged on the base, and the sliding part can move along a second direction relative to the fixed part so as to adjust the distance between the sliding groove on the sliding part and the socket;

The second direction is the extending direction of a side frame with the interface in the electronic equipment when the socket of the base is inserted into the interface of the electronic equipment.

By adopting the technical scheme, the distance between the sliding groove and the socket is adjustable, so that the bracket can support and display electronic equipment with different sizes, and the use flexibility and the application range of the bracket are improved.

In some embodiments, an elastic member and an adjusting member are disposed between the fixed member and the sliding member;

the adjusting piece enables the fixing piece and the sliding piece to be relatively fixed, and the sliding piece can be driven by the adjusting piece to move along a second direction relative to the fixing piece; so that the user can conveniently and quickly adjust the distance between the sliding part and the fixed part through the adjusting part

The elastic member applies an elastic force to the sliding member in a second direction, the elastic force being directed away from the fixed member. When the sliding piece slides in the direction away from the fixing piece, the elastic piece can provide assistance so that the sliding piece can slide more easily.

In some embodiments, the end of the chute facing away from the base is provided with a guide opening.

By adopting the technical scheme, when the frame of the electronic equipment is inserted into the chute along the direction within a certain angle range, the guiding opening of the chute can guide the frame of the electronic equipment to slide to the first direction, so that the second frame of the electronic equipment automatically adjusts to the first direction after passing through the guiding opening and slides in the chute along the first direction, thereby facilitating the insertion of the electronic equipment into the chute by a visitor and improving the use experience of the visitor

In some embodiments, the spacing between the at least one guide limiter and the socket is adjustable, and the at least one guide limiter is detachably mounted to the base. The support can support and display electronic equipment with different sizes, the use flexibility and the application range of the support are improved, the at least one guiding limiting part is convenient to replace or maintain, and the use flexibility of the support is improved

In some embodiments, the base is provided with a plurality of mounting positions for mounting the guiding limiting part, and the plurality of mounting positions are different from the socket in distance;

at least one guiding and limiting part is detachably arranged at any mounting position through a fastener or a magnetic attraction structure.

By adopting the technical scheme, at least one guiding limit part can be arranged at different installation positions to adjust the distance between at least one guiding limit part and the socket, so that the bracket can support and display electronic equipment with different sizes, and the use flexibility and the application range of the bracket are improved.

In some embodiments, the at least one guiding and limiting portion is locked with the base through the locking structure, and when the locking structure is unlocked, the at least one guiding and limiting portion can slide relative to the base to adjust the distance between the at least one guiding and limiting portion and the socket.

In some embodiments, the at least one guiding and limiting portion includes two guiding and limiting portions respectively located at two sides of the socket, so as to guide two side frames of the electronic device which are oppositely arranged.

In some embodiments, the base is provided with a receiving slot for receiving a side frame supporting the electronic device with the interface, and the socket is disposed in the receiving slot. The containing groove can play a limiting role on the frame of the interface of the electronic equipment, so that the supporting stability of the base to the electronic equipment is improved.

In some embodiments, the socket is slidably and lockably disposed within the receiving slot.

In some embodiments, the first direction is disposed obliquely with respect to the bottom surface of the base. Thereby better showing the electronic device on the stand.

In some embodiments, the socket is configured as a magnetically attractable socket, and when the magnetically attractable socket is plugged into an interface of the electronic device, data may be transmitted to the electronic device via the interface and/or the electronic device may be charged. The socket can be automatically inserted into the interface through magnetic force, so that the socket is convenient to be inserted into the interface of the electronic equipment through magnetic attraction.

In some embodiments, the base is configured to be fixedly disposed on or otherwise serve as a display stand.

Drawings

FIG. 1a is a schematic structural view of a bracket according to an embodiment of the present application;

FIG. 1b is a schematic view of a stent according to another embodiment of the present application;

fig. 2 is a schematic structural diagram of an electronic device shown in a stand according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of an electronic device provided with an interface side according to an embodiment of the present application;

FIG. 4a is a schematic structural view of another implementation of a stent according to an embodiment of the present application;

FIG. 4b is a schematic structural view of another embodiment of a stent of the present embodiments;

FIG. 5 is a schematic view of the structure of a base of another embodiment of a stand according to an example of the present application;

FIG. 6 is a schematic structural view of another implementation of a base of another implementation of a stand of an embodiment of the present application;

FIG. 7a is a schematic structural view of yet another implementation of a stent of the embodiments of the present application;

FIG. 7b is a schematic structural view of another view of yet another embodiment of a stent of the present embodiments;

fig. 8a is an exploded view of a first guiding and limiting portion of a further embodiment of a bracket according to an embodiment of the present application;

fig. 8b is an exploded view of another view of a first guiding and limiting portion of a further embodiment of a bracket according to the present application;

Fig. 9 is a schematic structural view of a base of still another embodiment of a stand according to an embodiment of the present application.

Reference numerals illustrate:

100. a bracket;

110. a base; 111. a socket; 112. a receiving groove; 113. a guide rail; 114. a mounting position; 115. a slide rail;

A. a bottom surface;

120. a guide limit part;

121. a fastener;

130. a first guide limit part;

131. a chute; 132. a fixing member; 133. a slider; 134. an adjusting member; 135. an elastic member;

140. a second guiding and limiting part;

200. an electronic device;

210. an interface;

220. rectangular frames;

221. a first frame; 222. a second frame; 223. a third frame; 224. a fourth frame;

230. a display screen;

x, a first direction; y, second direction; a. inclination angle.

Detailed Description

Further advantages and effects of the present application will be readily apparent to those skilled in the art from the present disclosure, by describing embodiments of the present application with specific examples. While the description of the present application will be presented in conjunction with some embodiments, it is not intended that the features of this application be limited to only this embodiment. Rather, the purpose of the description presented in connection with the embodiments is to cover other alternatives or modifications, which may be extended by the claims based on the present application. The following description contains many specific details in order to provide a thorough understanding of the present application. The present application may be practiced without these specific details. Furthermore, some specific details are omitted from the description in order to avoid obscuring the focus of the application. It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other.

It should be noted that in this specification, like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present application, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description of the present application and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

In the description of the present application, it should be understood that "electrically connected" in the present application may be understood as components in physical contact and in electrical conduction; it is also understood that the various components in the wiring structure are connected by physical wires such as printed circuit board (printed circuit board, PCB) copper foil or leads that carry electrical signals.

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

Referring to fig. 1a to fig. 3, fig. 1a is a schematic structural diagram of a bracket according to an embodiment of the present application, fig. 1b is a schematic structural diagram of a bracket according to another view angle of the embodiment of the present application, fig. 2 is a schematic structural diagram of a bracket according to an embodiment of the present application when the bracket shows an electronic device, and fig. 3 is a schematic structural diagram of a side of the electronic device provided with an interface according to an embodiment of the present application.

As shown in fig. 1a to 3, the embodiment of the present application provides a stand 100 for an electronic device 200, where the electronic device 200 may be a smart phone, a folding mobile phone, a smart wearable device, a tablet computer, an electronic advertisement board, or the like. As shown in fig. 2-3, the electronic device 200 has an interface 210, and the interface 210 of the electronic device 200 may exchange energy (e.g., charge) and/or transfer data with an external device. The electronic device 200 in the embodiment of the present application will be described below by taking a smart phone as an example.

In one embodiment, referring to fig. 2 to 3, the electronic device 200 has a rectangular frame 220, where the rectangular frame 220 includes a first frame 221, a second frame 222, a third frame 223, and a fourth frame 224 that are sequentially connected end to end, or it can be understood that the first frame 221 is disposed opposite to the third frame 223, and the second frame 222 is disposed opposite to the fourth frame 224. The interface 210 of the electronic device 200 is disposed on the first frame 221 of the electronic device 200.

In other alternative embodiments, the electronic device 200 may have a frame with other shapes, e.g., curved, curvilinear, etc., and the interface 210 of the electronic device 200 is disposed on at least one side frame of the electronic device 200.

Those skilled in the art will appreciate that the interface 210 of the electronic device 200 may be disposed on any side bezel of the electronic device 200. Also, a plurality of interfaces 210 may be provided on any side frame of the electronic device 200. Specifically, the present application is not limited.

In one embodiment, referring to fig. 1a to 3, the stand 100 includes a base 110 provided with a socket 111, and the socket 111 is configured to allow an interface 210 of the electronic device 200 to be inserted in a first direction X, so that the socket 111 is plugged with the interface 210. Wherein, the socket 111 adopts a protruding structure, and the interface 210 adopts a concave structure matched with the socket 111, so that the socket 111 and the interface 210 can be mutually inserted or separated. At this time, the first direction X is a convex direction of the socket 111 or a concave direction of the interface 210. Or it may be understood that the first direction X is a movement direction when the socket 111 and the interface 210 are plugged into each other or separated from each other. The first direction X may extend in a straight line direction, or may extend in other directions such as an arc direction or a curved direction.

In other alternative embodiments, the socket 111 and the interface 210 may have other structures that can be plugged into each other, for example, the socket 111 may have a concave structure, and the interface 210 may have a convex structure that is adapted to the socket 111.

In one embodiment, the socket 111 is configured as a magnetic socket, so that when the interface 210 approaches the socket 111, the magnetic socket can enable the interface 210 to be automatically absorbed into the socket 111 through magnetic force, so that the interface 210 can be more easily plugged into the socket 111, and stability and reliability of plugging of the socket 111 into the interface 210 are improved. In other alternative embodiments, other types of sockets, such as non-magnetically attractable sockets, may also be employed for socket 111.

It will be appreciated by those skilled in the art that the interface 210 of the electronic device 200 may also interface with the socket 111 along a non-first direction X, and at this time, the socket 111 may apply a torsion force to the interface 210 of the electronic device 200, so that the movement direction of the interface 210 is deflected to the first direction X, and then the socket 111 of the base 110 is plugged. At this time, the resistance of the interface 210 of the electronic device 200 to insertion into the socket 111 increases, resulting in difficulty in insertion of the interface 210 of the electronic device 200 into the socket 111; meanwhile, the interface 210 of the electronic device 200 generates opposite torsion force on the socket 111 of the base 110, which easily causes torsional deformation or damage to the socket 111.

In one embodiment, the bracket 100 further includes at least one guiding and limiting portion 120, where the at least one guiding and limiting portion 120 is connected to the base 110 at a position outside the socket 111 and fixed relative to the base 110; wherein, the at least one guiding and limiting part 120 and the base 110 are integrally formed. In other alternative embodiments, the at least one guiding and limiting portion 120 and the base 110 may be in a split structure, and the at least one guiding and limiting portion 120 is fixed relative to the base 110, for example, the at least one guiding and limiting portion 120 may be detachably and fixedly disposed on the base 110.

In one embodiment, the at least one guiding and limiting portion 120 is configured to guide a frame of the electronic device 200, so that the electronic device 200 can only move back and forth along the first direction X relative to the base 110, so that the interface 210 of the electronic device 200 can be inserted into or pulled out of the socket 111 along the first direction X. Thus, when the interface 210 of the electronic device 200 is plugged into the socket 111 of the base 110, the interface 210 of the electronic device 200 can be prevented from being docked with the socket 111 along the non-first direction X, so that the socket 111 is prevented from being deformed or damaged in a torsion manner.

Further, after the interface 210 of the electronic device 200 is plugged into the socket 111 of the base 110, the at least one guiding and limiting portion 120 can still limit the movement of the electronic device 200 in the non-first direction X, so that when the electronic device 200 receives the gravity or the external force in the non-first direction X, the at least one guiding and limiting portion 120 can play a supporting and limiting role on the electronic device 200, so that the interface 210 of the electronic device 200 can be stably plugged into the socket 111 of the base 110, and meanwhile, the movement of the electronic device 200 in the non-first direction X is avoided, and additional force is applied to the socket 111 of the base 110, so that the socket 111 is torsionally deformed or damaged.

Further, after the interface 210 of the electronic device 200 is plugged into the socket 111 of the base 110, the electronic device 200 can still freely move along the first direction X under the guiding action of the at least one guiding and limiting portion 120, so that the interface 210 of the electronic device 200 is beneficial to being separated from the socket 111 on the bracket 100 along the first direction X, so as to easily remove the electronic device 200 from the bracket 100.

In one embodiment, as shown in fig. 2, the first direction X is disposed obliquely with respect to the bottom surface a of the base 110, and the inclination angle a of the first direction X with respect to the bottom surface a may be 15 ° to 85 °, for example, 15 °,30 °,45 °,60 °,75 °,80 °,85 °, or the like. At this time, when the electronic device 200 is placed on the base 110 along the first direction X, the electronic device 200 is in a state of being tilted backward, so as to better display the electronic device 200. When the base 110 is placed under a person's field of view, a person can more easily observe the appearance features of the electronic device 200.

In other alternative embodiments, the first direction X may be set in other directions that are advantageous for displaying the electronic device 200, and the inclination angle a of the first direction X with respect to the bottom surface a may be less than 15 ° or greater than 85 °. For example, when the base 110 is placed flush with the field of vision of a person, the first direction X may be perpendicular to the bottom surface a of the base 110, and the inclination angle a may be 90 °.

In one embodiment, the base 110 of the stand 100 may be fixedly disposed on a display stand. The electronic device 200 may be placed on the stand 100 for display, and the display stand may display information matched with the electronic device 200, for example, a model number, a function, a price, etc. of the electronic device 200.

It will be appreciated by those skilled in the art that the base 110 may be understood as any structure for mounting the at least one guide limiter 120 and the socket 111. In one embodiment, the base 110 may be an integrally formed strip structure, and in other alternative embodiments, the base 110 may be another structure, such as an integrally formed flat plate structure.

Further, the base 110 may be a single structure or a structure formed by combining multiple components, for example, the base 110 may be formed by splicing multiple components through a mortise and tenon structure. The base 110 may be a separate structure or may be an integral part of other components, for example, the base 110 may be a tabletop of a table or the like.

In one embodiment, the display stand may be a display stand of the electronic device 200, such as a smart phone, a tablet computer, and an intelligent wearable device, of an off-line store of the electronic device 200, and the display stand may also be used as a display stand for displaying the electronic device 200 in any scene, such as an outdoor display stand, a live broadcast display stand, and the like.

In other alternative embodiments, the base 110 may also display information that matches the electronic device 200, thereby using the base 110 directly as a display stand.

In the process that the electronic device 200 is placed on the bracket 100 for display, the interface 210 of the electronic device 200 is plugged with the socket 111 of the base 110, and the socket 111 of the base 110 can transmit data to the electronic device 200 through the interface 210, so that the content displayed by the electronic device 200 can be controlled, the diversity of the display of the electronic device 200 is enriched, and the display effect of the electronic device 200 is improved. And/or, the socket 111 of the base 110 may charge the electronic device 200 to ensure that the electronic device 200 has sufficient power for display during a long-term display.

Further, in the process of placing the electronic device 200 on the stand 100 for displaying, the visitor can easily remove the electronic device 200 from the stand 100 along the first direction X, so as to directly put on the hand to experience the electronic device 200, so as to obtain the most real use experience of the electronic device 200. And after experiencing the electronic device 200, the electronic device 200 may be placed on the base 110 of the stand 100 along the first direction X under the guiding action of the at least one limit guiding portion, so that the interface 210 of the electronic device 200 may be inserted into the socket 111 of the base 110 along the first direction X. On the one hand, the visitor can easily align the interface 210 of the electronic device 200 with the socket 111 on the base 110, so that the interface 210 of the electronic device 200 is quickly and conveniently plugged back into the socket 111 on the base 110, and the use experience of the visitor is improved. On the other hand, when the visitor removes the electronic device 200 from the stand 100 or returns the electronic device 200 to the stand 100, the visitor easily applies a force to the electronic device 200 in the non-first direction X, and at this time, the at least one limit guide portion can support and balance the force, so as to avoid that the force directly acts on the socket 111 on the base 110 through the interface 210 of the electronic device 200, resulting in torsional deformation or damage of the socket 111, and affecting the support and display effects of the stand 100 on the electronic device 200.

In one embodiment, the guiding and limiting portion 120 performs limiting and guiding only on the rectangular frame 220 of the electronic device 200, so that when the electronic device 200 is placed on the stand 100, shielding of the electronic device 200 by the guiding and limiting portion 120 can be reduced to the maximum extent, for example, shielding of a display area of the display screen 230 of the electronic device 200 is avoided, and a display effect of the electronic device 200 on the stand 100 is improved.

As can be appreciated by those skilled in the art, the stand 100 according to the embodiment of the present application can support the electronic device 200 during the power supply and/or data transmission process to the interface 210 of the electronic device 200 through the socket 111, and ensure that the socket 111 is not easy to distort or damage during long-time application process through the at least one guiding and limiting portion 120 during use, thereby improving the service life and reliability of the socket 111.

Therefore, the bracket 100 of the embodiment of the present application may be suitable for application scenarios where the electronic device 200 is demonstrated for a long time, and may be used for any interface 210 where the electronic device 200 needs to be plugged in, and may support application scenarios where other devices transmit data with the electronic device 200 through the bracket 100, for example, application scenarios where the bracket 100 can transmit data to the electronic device 200 under the condition of supporting the electronic device 200, so as to better observe the data transmission process and state of the electronic device 200; alternatively, only the cradle 100 is used as the cradle 100 that can supply power to the electronic device 200, the electronic device 200 may be directly used in the cradle 100, and the electronic device 200 is continuously supplied with power through the cradle 100, so as to ensure sustainable use of the electronic device 200.

Referring to fig. 4a to 6, fig. 4a is a schematic structural diagram of another implementation of the stand according to the embodiment of the present application, fig. 4b is a schematic structural diagram of another view of another implementation of the stand according to the embodiment of the present application, fig. 5 is a schematic structural diagram of the base of another implementation of the stand according to the embodiment of the present application, and fig. 6 is a schematic structural diagram of another implementation of the base of another implementation of the stand of the embodiment of the present application. The structure of the stent shown in fig. 4a to 6 is substantially the same as that of the stent shown in fig. 1a to 1b, except that: the guide and limit part 120 in the bracket 100 is connected with the base 110 in a different manner.

As shown in fig. 4a to 6, and as will be understood in connection with the applicable scenario in fig. 2 and 3, in one embodiment, the guiding and limiting portion 120 may also be detachably fixed to the base 110 by means of a fastener 121 (e.g. a screw nut, etc.), a snap connection, etc. In an alternative embodiment, the guiding and limiting part 120 is detachably and fixedly arranged on the base 110 through a magnetic attraction mode, so that the guiding and limiting part 120 on the base 110 can be freely detached or replaced.

In one embodiment, as shown in fig. 5, the base 110 may be provided with a plurality of mounting locations 114, and distances between each of the plurality of mounting locations 114 and the socket 111 are different, wherein each of the plurality of mounting locations 114 is provided as a magnetic member. The guiding and limiting part 120 is detachably fixed at any one mounting position 114 of the plurality of mounting positions 114, so that the distance between the guiding and limiting part 120 and the socket 111 is adjusted by mounting the guiding and limiting part 120 at different mounting positions 114, and the guiding and limiting part can guide and limit the electronic equipment 200 with different sizes, so that the flexibility and universality of the electronic equipment 200 displayed by the bracket 100 are improved. The electronic devices 200 of different sizes may be understood as different distances between two ends of a side frame of the electronic device 200 provided with the interface 210 and the interface 210. For example, when the interface 210 of the electronic device 200 is located in the middle of the first frame 221, different sizes of the electronic device 200 may refer to the difference in length of the first frame 221 in which the interface 210 is provided to the electronic device 200. In a specific application scenario, the electronic devices 200 with different sizes may be understood as tablet computers with different sizes, smart phones with different sizes, and folding mobile phones in an unfolded state and a folded state.

In one embodiment, as shown in fig. 6, as will be appreciated in connection with fig. 4a and 4b, the guide limit 120 may also be slidably disposed with respect to the base 110. The base 110 may be provided with a guide rail 113, the guiding and limiting portion 120 is slidably disposed in the guide rail 113 through the fastening piece 121, at this time, the fastening piece 121 is of a locking structure, and when the fastening piece 121 is locked, the guiding and limiting portion 120 is locked on the base 110 by the fastening piece 121, so that the guiding and limiting portion 120 is fixed with the base 110, and can play a guiding and limiting role on the electronic device 200. When the fastener 121 is unlocked, the fastener 121 can slide freely within the guide rail 113 such that the guide limit 120 as a whole can slide relative to the base 110, thereby freely adjusting the distance between the guide limit 120 and the socket 111. Therefore, the guiding and limiting part 120 can guide and limit the electronic equipment 200 with different sizes, and flexibility and universality of the support 100 for displaying the electronic equipment 200 are improved.

Further, in some embodiments, the interface 210 of the electronic device 200 may be plugged into the socket 111 of the base 110, then the fastener 121 of the guiding and limiting portion 120 is unlocked, so that the guiding and limiting portion 120 slides to the side frame of the electronic device 200, and then the fastener 121 is locked. Thereby more precisely and quickly adjusting the distance between the guide limit portion 120 and the socket 111.

In one embodiment, as will be understood with reference to fig. 1a to 3, the at least one guiding and limiting portion 120 includes a first guiding and limiting portion 130 and a second guiding and limiting portion 140 disposed opposite to each other, and the first guiding and limiting portion 130 and the second guiding and limiting portion 140 are located at two sides of the socket 111. At this time, the first guiding and limiting part 130, the second guiding and limiting part 140 and the socket 111 form a display assembly, and can support and display an electronic device 200 on the base 110. In other alternative embodiments, multiple display assemblies may be provided on the same base 110, such that multiple electronic devices 200 may be displayed simultaneously.

It will be appreciated by those skilled in the art that the guiding and limiting portion 120 in each display assembly is used for guiding and limiting the corresponding electronic device 200, and the socket 111 is used for plugging the interface 210 of the corresponding electronic device 200, and may supply power and/or data to the electronic device 200. Therefore, when the side frame of the electronic device 200 is provided with the plurality of interfaces 210, the display assembly may only provide one socket 111 corresponding to one of the interfaces 210 of the electronic device 200, or may provide a plurality of sockets 111 corresponding to the plurality of interfaces 210 of the electronic device 200.

In other alternative embodiments, the guide limit 120 of the display assembly may be provided as one, three or more. For example, when the electronic device 200 is a folding mobile phone in the bending process, the display assembly may set three limit guiding portions to respectively limit and guide the two side frames and the rotating shaft mechanism of the folding mobile phone, so as to improve the display effect and the support stability of the folding mobile phone.

Further, the limit guiding portions of the adjacent display assemblies on the same base 110 can be shared, so as to simplify the structure of the bracket 100 and improve the integration level of the bracket 100.

When the electronic device 200 is placed on the stand 100, the interface 210 of the first frame 221 of the electronic device 200 can be plugged into the socket 111 of the base 110, and the first guiding and limiting portion 130 and the second guiding and limiting portion 140 respectively guide and limit the second frame 222 and the fourth frame 224 of the electronic device 200, so as to stably support and display the electronic device 200 on the stand 100. Further, when the electronic device 200 receives an acting force (e.g., gravity, an external acting force applied by a visitor) in a non-first direction X, the first guiding and limiting portion 130 and the second guiding and limiting portion 140 can perform a limiting supporting function on the electronic device 200, so as to avoid that the acting force directly acts on the socket 111 through the interface 210 of the electronic device 200, which results in distortion or damage of the socket 111 and affects the normal display of the electronic device 200.

It will be appreciated by those skilled in the art that the first guiding and limiting portion 130 and the second guiding and limiting portion 140 may have the same structure, and therefore, the following description will be given by taking the first guiding and limiting portion 130 as an example, and the structures of the first guiding and limiting portion 130 are all applicable to the second guiding and limiting portion 140, and in this embodiment, the first guiding and limiting portion 130 and the second guiding and limiting portion 140 have the same structure, and in other alternative embodiments, the first guiding and limiting portion 130 and the second guiding and limiting portion 140 may have different structures.

In one embodiment, the first guiding and limiting portion 130 is provided with a sliding slot 131 extending along the first direction X, and the sliding slot 131 can slide in the first direction X along the second frame 222 of the electronic device 200. Meanwhile, when the second frame 222 of the electronic device 200 slides in the chute 131, the interface 210 of the electronic device 200 faces the socket 111 of the base 110 in the first direction X, so that the interface 210 of the electronic device 200 can be plugged into or pulled out of the socket 111 along the first direction X. To avoid distortion or damage to the socket 111 of the base 110 caused by the interface 210 of the electronic device 200 applying a force to the socket 111 of the base 110 in a direction other than the first direction X.

In one embodiment, the width of the chute 131 is adapted to the thickness of the frame of the electronic device 200, so that the second frame 222 of the electronic device 200 can be accommodated in the chute 131 and can move freely along the first direction X in the chute 131, thereby restricting the second frame 222 of the electronic device 200 in the first direction X.

In one embodiment, the end of the chute 131 facing away from the base 110 is provided with a guide opening (not shown). When the frame of the electronic device 200 is inserted into the chute 131 along the direction within a certain angle range, the guiding opening of the chute 131 can guide the frame of the electronic device 200 to slide to the first direction X, so that the second frame 222 of the electronic device 200 is automatically adjusted to the first direction X after passing through the guiding opening and slides in the chute 131 along the first direction X, thereby facilitating the visitor to insert the electronic device 200 into the chute 131 and improving the use experience of the visitor.

In other alternative embodiments, the first guiding and limiting portion 130 may also be configured with other structures to perform guiding and limiting functions on the frame of the electronic device 200, for example, the first guiding and limiting portion 130 may be configured with a roller structure to perform guiding and limiting on the frame of the electronic device 200.

In one embodiment, as shown in fig. 1a to 3, the first guide stopper 130 is provided as: the guide limit seat with an integrated structure is adopted, so that the support reliability and stability of the first guide limit part 130 are ensured, the structure of the first guide limit part 130 is simplified, and the manufacturing cost of the first guide limit part 130 is reduced. In other alternative embodiments, the first guiding and limiting portion 130 may be provided in other forms, for example, the first guiding and limiting portion 130 may be formed by a plurality of components.

Referring to fig. 7a to 8b, fig. 7a is a schematic structural view of a further embodiment of the bracket according to the present application, fig. 7b is a schematic structural view of another view of a further embodiment of the bracket according to the present application, fig. 8a is a schematic exploded structural view of a first guiding and limiting portion of a further embodiment of the bracket according to the present application, and fig. 8b is a schematic exploded structural view of another view of a first guiding and limiting portion of a further embodiment of the bracket according to the present application. The structure of the stent shown in fig. 7a to 8b is substantially the same as that of the stent of fig. 1a and 1b, except that: the structure of the guide limiting portion 120 and the connection manner between the guide limiting portion 120 and the base 110 are different.

As shown in fig. 7a to 8b, and as will be understood in connection with the applicable scenario in fig. 2 and 3, in one embodiment, the first guiding and limiting portion 130 includes a fixing member 132 and a sliding member 133, and a side of the sliding member 133 facing the socket 111 is provided with a chute 131 extending in the first direction X. The fixing piece 132 is fixedly arranged on the base 110, the sliding piece 133 can move along the second direction Y relative to the fixing piece 132, so that the distance between the sliding groove 131 and the jack 111 on the sliding piece 133 can be adjusted, and the distance between the sliding groove 131 and the jack 111 can be adjusted according to the distance between the two ends of a side frame of the electronic device 200 with a structure and the interface 210, so that the bracket 100 can be suitable for electronic devices 200 with different structures and different sizes, and the use flexibility and universality of the bracket 100 are improved. The second direction Y is an extending direction of a side frame of the electronic device 200 having the interface 210 when the socket 111 of the base 110 is plugged with the interface 210 of the electronic device 200.

In one embodiment, the fixing member 132 and the sliding member 133 of the first guide stopper 130 each have a columnar structure. The first guiding and limiting portion 130 is detachably fixed to the base 110 through a fixing member 132. In other alternative embodiments, the fixing member 132 of the first guiding and limiting part 130 may have any other structure that can be fixed to the base 110, for example, a cylinder, a semi-cylinder, a sphere, etc.; a decorative structure, such as a structural model that fits the supported electronic device 200, may also be used. The slider 133 may take any other slidable configuration with respect to the fixed member 132, such as a cylinder, a half cylinder, a sphere, etc.

Further, the fixing member 132 of the first guiding and limiting portion 130 may be integrally formed with the base 110.

In one embodiment, the fixing member 132 is provided with a through hole 1321 penetrating in the second direction Y, the sliding member 133 is provided with an inwardly recessed screw groove 1331 corresponding to the through hole 1321, and the adjusting member 134 penetrates the through hole 1321 from an end of the fixing member 132 facing away from the sliding member 133 and is screw-engaged with the screw groove 1331 of the sliding member 133. When the adjusting member 134 is rotated, the adjusting member 134 may extend into the threaded slot 1331, thereby adjusting the distance between the sliding member 133 and the fixing member 132, and further adjusting the distance between the sliding slot 131 on the sliding member 133 and the socket 111. And adopt the screw thread mode of adjusting, can make slider 133 carry out the regulation of a small margin relative to mounting 132 for spout 131 on slider 133 can with the second frame 222 looks adaptation better of electronic equipment 200, promote the spacing guide effect of spout 131 to second frame 222.

Further, a first groove 1332 is disposed on a side of the fixing member 132 facing the sliding member 133, a second groove 1332 is disposed at a position of the sliding member 133 corresponding to the first groove 1322, and the elastic member 135 is configured as a spring and is compressed between the first groove 1322 and the second groove 1332, so as to apply an elastic force to the sliding member 133 along the second direction Y and away from the fixing member 132, thereby facilitating the sliding of the sliding member 133 away from the fixing member 132.

In some alternative embodiments, the adjustment member 134 and the elastic member 135 may take other configurations, for example, the adjustment member 134 may be provided with a pull rod structure to pull the sliding member 133 to slide with respect to the fixed member 132; the elastic member 135 may employ elastic rubber to apply elastic force to the slider 133.

It will be understood by those skilled in the art that the first guiding and limiting portion 130 may not be provided with the elastic member 135, and the sliding member 133 may slide relative to the fixing member 132 only by means of the adjusting member 134.

In one embodiment, the base 110 is provided with the receiving groove 112, and the extending direction of the receiving groove 112 is the second direction Y, so that the receiving groove 112 can receive the first bezel 221 supporting the electronic device 200 with the interface 210. Further, the socket 111 is disposed in the accommodating groove 112, when the interface 210 of the electronic device 200 is plugged into the socket 111, the first frame 221 of the electronic device 200 can be placed in the accommodating groove 112, and the accommodating groove 112 can play a role in limiting the first frame 221 of the electronic device 200, so that the supporting stability of the base 110 on the electronic device 200 is improved.

In one embodiment, when the interface 210 of the electronic device 200 is plugged into the socket 111, the first frame 221 of the electronic device 200 abuts against the accommodating groove 112 of the base 110, so that the accommodating groove 112 plays a supporting role on the first frame 221 of the electronic device 200, thereby improving the risk resistance of the electronic device 200 and avoiding the situation that the gravity or the external acting force of the electronic device 200 along the first direction X is concentrated on the socket 111, so that the socket 111 is damaged under the long-time external acting force. For example, when the electronic device 200 is inserted, the socket 111 is damaged by impact due to the application of a large force in the first direction X.

In one embodiment, as shown in fig. 1a to 3, the socket 111 is connected to the base 110 and fixed relative to the base 110, where the socket 111 may be embedded in a receiving groove 112 fixed to the base 110, or may be integrally formed with the base 110. In other alternative embodiments, the socket 111 may also be slidably disposed with respect to the base 110.

Referring to fig. 9, fig. 9 is a schematic structural view of a base of a further embodiment of a stand according to an embodiment of the present application.

As shown in fig. 9, the socket 111 is slidably and lockably disposed in the receiving groove 112. The distance between the socket 111 and the first guiding and limiting part 130 and the second guiding and limiting part 140 can be adjusted at the same time, so that the bracket 100 can be suitable for electronic devices 200 with different sizes, and the flexibility and universality of the use of the bracket 100 are improved.

Further, the accommodating groove 112 is provided with a sliding rail 115 for accommodating the socket 111, and the extending direction of the sliding rail 115 is the same as the second direction Y, so that the socket 111 can adjust the distance between the socket 111 and the first guiding and limiting parts 130 and the second guiding and limiting parts 140 at two sides in the sliding process of the socket 111 relative to the base 110 in the sliding rail 115.

Further, the socket 111 and the sliding rail 115 are pressed against each other and have a damping force for blocking the sliding of the socket 111, so that the socket 111 can be fixed relative to the sliding rail 115 when not receiving the force in the second direction Y, and the socket 111 can be made to slide in the sliding rail 115 in the second direction Y when receiving the external force greater than the damping force in the second direction Y, thereby adjusting the distance between the socket 111 and the first guide limiting portion 130 and the second guide limiting portion 140 on both sides.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present application without departing from the spirit or scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims and the equivalents thereof, the present application is intended to cover such modifications and variations.

Claims (14)

1. A cradle for an electronic device, the electronic device (200) having an interface (210), the cradle (100) comprising:

-a base (110), the base (110) being provided with a socket (111), the socket (111) being insertable into the interface (210) of the electronic device (200) along a first direction (X) such that the socket (111) is plugged into the interface (210);

at least one guiding and limiting part (120), wherein the at least one guiding and limiting part (120) is arranged on the base (110) and positioned at a position outside the socket (111), and the at least one guiding and limiting part (120) is used for guiding the electronic equipment (200) so that the electronic equipment (200) can only move back and forth relative to the base (110) along the first direction (X), and the interface (210) of the electronic equipment (200) can be inserted into or pulled out of the socket (111) along the first direction (X).

2. The stent of claim 1, wherein:

the at least one guiding and limiting part (120) is provided with a chute (131), and the chute (131) can enable the frame of the electronic equipment (200) to slide in the first direction (X).

3. The stent of claim 2, wherein:

at least part of the guiding and limiting parts (120) in the at least one guiding and limiting part (120) comprise a fixing piece (132) and a sliding piece (133), and the sliding piece (133) is provided with the sliding groove (131) towards one side of the socket (111); the fixing piece (132) is fixedly arranged on the base (110), and the sliding piece (133) can move along a second direction (Y) relative to the fixing piece (132) so as to adjust the distance between the sliding groove (131) on the sliding piece (133) and the socket (111);

the second direction (Y) is an extending direction of a side frame of the electronic device (200) having the interface (210) when the socket (111) of the base (110) is plugged with the interface (210) of the electronic device (200).

4. A bracket according to claim 3, characterized in that between the fixing element (132) and the sliding element (133) there are arranged elastic elements (135) and adjusting elements (134);

The adjusting piece (134) enables the fixing piece (132) and the sliding piece (133) to be relatively fixed, and the sliding piece (133) can be driven to move along the second direction (Y) relative to the fixing piece (132) through the adjusting piece (134);

the elastic element (135) applies an elastic force to the sliding element (133) in the second direction (Y) in a direction away from the fixing element (132).

5. A bracket according to any one of claims 2-4, characterized in that the end of the chute (131) facing away from the base (110) is provided with a guide opening.

6. The bracket according to any of claims 1-4, characterized in that the distance between the at least one guiding and limiting part (120) and the socket (111) is adjustable, and that the at least one guiding and limiting part (120) and the base (110) are detachably mounted.

7. The bracket according to claim 6, wherein the base (110) is provided with a plurality of mounting positions (114) for mounting the guide limiting portions (120), and a plurality of the mounting positions (114) are spaced apart from the socket (111) differently;

the at least one guiding limiting part (120) is detachably arranged at any one of the installation positions (114) through a fastener (121) or a magnetic attraction structure.

8. The bracket according to any of the claims 1-4, wherein the at least one guiding and limiting part (120) is locked with the base (110) by a locking structure, and when the locking structure is unlocked, the at least one guiding and limiting part (120) is slidable relative to the base (110) to adjust the distance between the at least one guiding and limiting part (120) and the socket (111).

9. The stand according to any one of claims 1 to 4, wherein the at least one guiding and limiting part (120) comprises two guiding and limiting parts respectively positioned at two sides of the socket (111) so as to guide two side frames oppositely arranged to the electronic device (200).

10. The stand according to any one of claims 1 to 4, wherein the base (110) is provided with a receiving groove (112), the receiving groove (112) is configured to receive a side frame supporting the electronic device (200) having the interface (210), and the socket (111) is disposed in the receiving groove (112).

11. A bracket as claimed in claim 10, characterised in that the socket (111) is slidably and lockably arranged in the receiving groove (112).

12. The stand according to any one of claims 1 to 4, characterized in that the first direction (X) is arranged obliquely with respect to the bottom surface (a) of the base (110).

13. The stand according to any of claims 1 to 4, characterized in that the socket (111) is arranged as a magnetically attractable socket and that, when the magnetically attractable socket is plugged into the interface (210) of the electronic device (200), data can be transmitted to the electronic device (200) via the interface (210) and/or the electronic device (200) can be charged.

14. A stand according to any one of claims 1 to 4, wherein the base (110) is adapted to be fixedly arranged on or used as a display stand.

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