CN219552987U - Electronic system - Google Patents

Abstract

The application provides an electronic system, and relates to the technical field of electronic equipment. Wherein the electronic system comprises: a first electronic device including a first interface; the interaction device comprises at least one interaction component and a second interface, wherein the interaction component is used for responding and/or generating interaction data, and the second interface is detachably connected with the first interface so as to enable the interaction device to be connected with the first electronic device; the first limiting structure is arranged between the interaction device and the first electronic device and used for limiting the position relationship between the interaction device and the first electronic device; when the first limiting structure is in a first state, the interaction device and the first electronic device cannot be separated; when the first limiting structure is in the second state, the interaction device and the first electronic device can be separated.

Description

Electronic system

Technical Field

The present disclosure relates to electronic devices, and particularly to an electronic system.

Background

In the development process of electronic equipment, manufacturers pay more attention to sharing information between the electronic equipment and other external equipment while continuously perfecting the functional diversity of the electronic equipment. Thus, many electronic devices now have the capability to connect to one or more external devices. External devices such as cameras, sound equipment and the like are usually connected with the device main body through interfaces, then are directly placed on a display or a desktop through a bracket, and the interfaces are directly pulled out to disconnect when the external devices are disassembled. With the enrichment of functions of external equipment, the performance is higher and higher, the value is higher and higher, and when the external equipment is used in commercial or other public places, if no people take care, the situation of losing the extremely easily detachable external equipment easily occurs, so that the benefit of a user is damaged. In the prior art, some anti-theft designs are adopted for preventing the loss, for example, anti-theft chain links are arranged, external equipment is connected and fixed with one end of each anti-theft chain link, the other end of each anti-theft chain link is connected to the equipment main body through a lock hole and locked through the lock hole, and the structure can realize the anti-theft function, but on one hand, accessories are required to be additionally arranged, and on the other hand, the locking needs to be operated by a key, and the anti-theft chain link is not limited.

Accordingly, it is desirable to provide an electronic system having a function of preventing theft of external devices to further solve the above-described problems.

Disclosure of Invention

An object of an embodiment of the present utility model is to provide an electronic system having a function of preventing theft of external devices, so as to be able to solve the problem of inconvenience in operation caused by the need to add or use accessories at the time of locking.

In order to solve the technical problems, the embodiment of the utility model provides the following technical scheme:

the present utility model provides an electronic system comprising:

a first electronic device including a first interface;

an interaction device comprising at least one interaction component for responding to and/or generating interaction data and a second interface detachably connected to the first interface for connecting the interaction device to the first electronic device;

the first limiting structure is arranged between the interaction device and the first electronic device and used for limiting the position relationship between the interaction device and the first electronic device;

when the first limiting structure is in a first state, the interaction device and the first electronic device cannot be separated;

when the first limiting structure is in the second state, the interaction device and the first electronic device can be separated.

In some embodiments, the interaction means comprises:

the support assembly is provided with the second interface and the third interface;

the first interaction assembly is provided with a fourth interface which is detachably connected with the third interface so as to enable the first interaction assembly to be connected with the supporting assembly;

the first limiting structure is arranged between the supporting component and the first electronic device and used for limiting the position relation between the supporting component and the first electronic device;

the electronic system further comprises a second limiting structure, which is arranged between the first interaction component and the supporting component and used for limiting the position relation between the first interaction component and the supporting component;

when the second limiting structure is in a third state, the first interaction component and the supporting component cannot be separated;

when the second limiting structure is in a fourth state, the first interaction assembly and the supporting assembly can be separated.

In some embodiments, the first limit structure and/or the second limit structure each comprise: the device comprises a limiting unit and a butting unit;

for the first limiting structure, the limiting unit is arranged on the interaction device, the docking unit is arranged on the first electronic device corresponding to the limiting unit, or the limiting unit is arranged on the first electronic device, and the docking unit is arranged on the interaction device corresponding to the limiting unit;

For the second limiting structure, the limiting unit is arranged on the supporting component, the docking unit is arranged on the first interaction component corresponding to the limiting unit, or the limiting unit is arranged on the first interaction component, and the docking unit is arranged on the supporting component corresponding to the limiting unit;

the limiting unit is matched with the docking unit to enable the first limiting structure to be in a first state or a second state, or enable the second limiting structure to be in a third state or a fourth state.

In some embodiments, the limiting unit has a clip, and the docking unit has a clip groove;

when the clamping piece stretches into the clamping groove, the first limit structure or the second limit structure is in the first state or the third state respectively;

when the clamping piece does not extend into the clamping groove, the first limiting structure or the second limiting structure is in the second state or the fourth state respectively.

In some embodiments, the limiting unit is disposed on the supporting component, and the clamping member is exposed on the first end surface of the supporting component;

the docking unit is arranged on the first interaction assembly, an opening of the clamping groove is exposed on the second end face of the first interaction assembly, and when the third interface is connected with the fourth interface, the first end face and the second end face are in opposite states.

In some embodiments, the spacing unit further comprises a first identification portion capable of affecting movement of the clip;

when the first identification part passes through identification, the clamping piece can move to the direction deviating from the clamping groove until the first limit structure or the second limit structure is in the second state or the fourth state respectively.

In some embodiments, the limiting unit further includes a first driving portion, configured to drive the clip to rotate;

wherein the first driving part includes:

the first rotating piece is connected with the clamping piece and is used for driving the clamping piece to rotate;

the first elastic piece is used for providing a restoring force for the clamping piece so that the clamping piece moves towards the clamping groove.

In some embodiments, the limit unit further comprises:

the elastic limiting piece is arranged along the connection direction of the butt joint unit and the limiting unit corresponding to the clamping piece;

the first rotating piece is provided with a limiting part;

when the first limiting structure is in a first state or the second limiting structure is in a third state, the first end of the elastic limiting piece is elastically abutted to the first rotating piece, and the second end of the elastic limiting piece opposite to the first end is elastically abutted to the groove wall of the clamping groove;

When the first limiting structure is in the second state or the second limiting structure is in the fourth state, the first end of the elastic limiting piece is clamped in the limiting part so as to limit the clamping piece to rotate.

In some embodiments, the support assembly includes a first support unit and a second support unit that are relatively slidable in a first direction and that are capable of maintaining a relative position such that the support assembly is capable of adjusting a distance between the first interaction assembly and the first electronic device in the first direction, the first direction being a connection direction of the interaction device and the first electronic device.

In some embodiments, the first interaction component or the support component is further provided with a fifth interface;

the interaction device further comprises a second interaction component, wherein the second interaction component is provided with a sixth interface, and the sixth interface is detachably connected with the fifth interface so that the second interaction component is connected with the first interaction component or the supporting component;

the electronic system further comprises a third limiting structure, wherein the third limiting structure is arranged between the second interaction component and the first interaction component and used for limiting the position relation between the second interaction component and the first interaction component, or the third limiting structure is arranged between the second interaction component and the supporting component and used for limiting the position relation between the second interaction component and the supporting component.

Compared with the prior art, the electronic system provided by the utility model has the advantages that the relative position between the interaction device and the first electronic device is limited through the first state of the first limiting structure, and the limit of the relative position between the interaction device and the first electronic device is relieved through the second state of the second limiting structure, so that the anti-theft function of the interaction device is realized; meanwhile, the interaction device and the first electronic device are respectively limited in relative position through the first limiting structure, and compared with the mode of adopting anti-theft chain links in the prior art, reliable connection can be achieved without additional accessories.

The technical effects of the data storage device provided in the second aspect of the present utility model are the same as or similar to those of the electronic system provided in the first aspect of the present utility model.

Drawings

The above, as well as additional purposes, features, and advantages of exemplary embodiments of the present utility model will become readily apparent from the following detailed description when read in conjunction with the accompanying drawings. In the drawings, wherein like or corresponding reference numerals indicate like or corresponding parts, there are shown by way of illustration, and not limitation, several embodiments of the utility model, in which:

fig. 1 shows a schematic configuration of an electronic system according to an exemplary embodiment of the present utility model;

FIG. 2 illustrates a first perspective structural schematic view of a support assembly in an electronic system according to an exemplary embodiment of the present application;

FIG. 3 illustrates a second perspective structural schematic view of a support assembly in an electronic system according to an exemplary embodiment of the present application;

FIG. 4 shows a schematic view of the internal structure of a support assembly in an electronic system according to an exemplary embodiment of the present application;

fig. 5 is a schematic view showing a state in which the docking unit and the limiting unit are not in contact in the electronic system according to the exemplary embodiment of the present application, that is, the clip is not acted upon by an external force;

FIG. 6 is a schematic diagram showing a state that a clamping member is inserted into a clamping groove, namely a locked state, in an electronic system according to an exemplary embodiment of the application;

FIG. 7 is a schematic diagram showing a card separated from a card slot, i.e., an unlocked state, in an electronic system according to an exemplary embodiment of the present application;

fig. 8 is a schematic view showing a state in which the docking unit is separated from the limiting unit and separated from the elastic limiting member in the electronic system according to the exemplary embodiment of the present application;

fig. 9 shows a cross-sectional view of a first stopper structure in an electronic system according to still another exemplary embodiment of the present application.

Reference numerals illustrate:

1. a first electronic device;

2. an interaction device; 201. a first interactive component; 202. a support assembly; 203. a second interface; 204. a third interface;

3. A first limit structure;

4. a second limit structure; 401. a limit unit; 402. a docking unit; 403. a clamping piece; 404. a clamping groove; 405. a first identification unit; 406. a first rotating member; 407. a first elastic member; 408. an elastic limiting piece; 409. a limit part; 410. a first housing; 411. a second housing; 412. a positioning head; 413. a limit ring part; 414. a third clamping piece; 415. a first mating member; 416. a second mating member; 417. a third lock hole; 418. and (5) an inclined plane.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

It is noted that unless otherwise indicated, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs.

Example 1

In order to solve the problems of the prior art, as shown in fig. 1 to 9, embodiment 1 of the present application provides an electronic system, including:

A first electronic device 1 comprising a first interface;

an interaction device 2 comprising at least one interaction component for responding to and/or generating interaction data and a second interface 203, the second interface 203 being detachably connected to the first interface for connecting the interaction device 2 to the first electronic device 1;

the first limiting structure 3 is arranged between the interaction device 2 and the first electronic device 1 and is used for limiting the position relationship between the interaction device 2 and the first electronic device 1;

when the first limiting structure 3 is in the first state, the interaction device 2 and the first electronic device 1 cannot be separated; when the first limiting structure 3 is in the second state, the interaction device 2 and the first electronic device 1 can be separated.

In the electronic system provided by the embodiment of the present application, the first electronic device 1 may be a display, a notebook computer, a host, a server or other electronic processing terminals, etc., and the interaction device 2 may be configured to generate data interaction with the first electronic device 1, where the interacted data may include acoustic information interaction data and/or optical information interaction data, for example, sound information data or image information data.

The interaction device 2 and the first electronic device 1 are connected through the second interface 203 and the first interface to implement response or data interaction, where the interaction device 2 and the first electronic device 1 are connected through the first limit structure 3, and the interaction device 2 and the first electronic device 1 can not be separated when the first limit structure 3 is in a first state, where the first state is that the first limit structure 3 is in a locked state, and the interaction device 2 cannot be separated from the first electronic device 1 means that: under the condition that tools, accessories and the like are not used, the interaction device 2 cannot be directly separated from the first electronic device 1 by hands, so that the anti-disassembly function of the interaction device 2 relative to the first electronic device 1 is realized, and the property safety of a user can be effectively protected; the interaction device 2 and the first electronic device 1 can be separated when the first limiting structure 3 is in the second state, wherein the second state is that the first limiting structure 3 is in the unlocking state, and in this state, the interaction device 2 and the first electronic device 1 can be separated, so that a user can detach the interaction device 2 conveniently.

In the electronic system provided by the embodiment of the application, the relative position between the interaction device 2 and the first electronic device 1 is limited by the first state of the first limiting structure 3, and the relative position between the interaction device 2 and the first electronic device 1 is released by the second state of the first limiting structure 3, so that the anti-theft function of the interaction device 2 is realized, and meanwhile, the interaction device 2 can be disassembled. The interaction device 2 and the first electronic device 1 are respectively limited in relative positions through the first limiting structure 3, and compared with the prior art adopting an anti-theft chain ring mode, reliable connection can be realized without additional accessories.

Specifically, as shown in fig. 2 to 4, the interaction device 2 includes:

a support assembly 202 provided with a second interface 203 and a third interface 204;

the first interaction component 201 is provided with a fourth interface, and the fourth interface is detachably connected with the third interface 204 so that the first interaction component 201 is connected with the support component 202;

the first limiting structure 3 is disposed between the support assembly 202 and the first electronic device 1, and is used for limiting a positional relationship between the support assembly 202 and the first electronic device 1;

when the first limiting structure 3 is in the first state, the supporting component 202 and the first electronic device 1 cannot be separated;

When the first limiting structure 3 is in the second state, the supporting component 202 can be separated from the first electronic device 1.

In the embodiment of the present application, the first interaction component 201 is configured to provide an extended function for the first electronic device 1, for example, the first interaction component may be a camera module, a sound module, a microphone module, a display module with a display screen capable of displaying information such as pictures, time, date, temperature, humidity, weather, etc., or may be an integrated function module with two functions such as a camera and a sound.

Specifically, the electronic system further includes a second limiting structure 4 disposed between the first interaction component 201 and the support component 202, for limiting the positional relationship between the first interaction component 201 and the support component 202;

when the second limiting structure 4 is in the third state, the first interaction component 201 and the supporting component 202 cannot be separated;

when the second limiting structure 4 is in the fourth state, the first interaction component 201 and the supporting component 202 can be separated.

The third state, i.e. the second limiting structure 4 is in the locked state, and the first interaction component 201 and the supporting component 202 cannot be separated means that: the first interaction component 201 cannot be separated from the support component 202 directly and freehand without tools or accessories, so that the anti-disassembly function of the first interaction component 201 relative to the support component 202 is realized.

The fourth state, i.e. the second limiting structure 4 is in an unlocked state, in which the first interaction assembly 201 can be separated from the support assembly 202, so as to facilitate the disassembly between the first interaction assembly 201 and the support assembly 202.

The support assembly 202 is configured to support the first interaction assembly 201 and provide a connection location, and when connected, the first interface of the first electronic device 1 is connected with the second interface 203 of the support assembly 202, the third interface 204 of the support assembly 202 is connected with the fourth interface of the first interaction assembly 201, and an intermediate transfer function between the first interaction assembly 201 and the first electronic device 1 is provided through the support assembly 202.

When the support assembly 202 is used to connect between the first interaction assembly 201 and the first electronic device 1, the fourth interface of the first interaction assembly 201 is connected with the third interface 204 of the support assembly 202, the second interface 203 of the support assembly 202 is connected with the first interface of the first electronic device 1, and the second interface 203 and the third interface 204 are communicated through wires; the first limiting structure 3 is disposed between the support assembly 202 and the first electronic device 1, and the second limiting structure 4 is disposed between the support assembly 202 and the first interaction assembly 201.

The first interface, the second interface 203, the third interface 204 and the fourth interface may be USB2.0/3.0 interfaces, respectively, for implementing data transmission, where one of the first interface and the second interface 203, one of the third interface 204 and the fourth interface are arranged in a protruding manner, for example, the second interface 203 and the third interface 204 are arranged in a protruding manner with respect to the support component 202, so that the support component 202 may be provided with guiding structures corresponding to the second interface 203 and the third interface 204, so that the interfaces can be protected during plugging, and external force is prevented from being damaged. The guiding structure may include a guiding post having an external dimension larger than the interface, or the guiding post may have a fastening structure for docking, such as a hook or a fastening point.

Specifically, as shown in fig. 5 to 8, the first limiting structure 3 and/or the second limiting structure 4 respectively include: a limiting unit 401 and a docking unit 402; for the first limiting structure 3, the limiting unit 401 is arranged on the interaction device 2, the docking unit 402 is arranged on the first electronic device 1 corresponding to the limiting unit 401, or the limiting unit 401 is arranged on the first electronic device 1, and the docking unit 402 is arranged on the interaction device 2 corresponding to the limiting unit 401;

for the second limiting structure 4, the limiting unit 401 is arranged on the supporting component 202, the abutting unit 402 is corresponding to the limiting unit 401 and is arranged on the first interaction component 201, or the limiting unit 401 is arranged on the first interaction component 201, and the abutting unit 402 is corresponding to the limiting unit 401 and is arranged on the supporting component 202;

The limiting unit 401 cooperates with the docking unit 402 to enable the first limiting structure 3 to be in a first state or a second state, so as to respectively limit the position between the support assembly 202 and the first electronic device 1 or to enable the second limiting structure 4 to be in a third state or a fourth state, so as to respectively limit the position between the support assembly 202 and the first interaction assembly 201 or to enable the limitation to be released.

Specifically, the limiting unit 401 has a clip 403, and the docking unit 402 has a clip groove 404;

when the clamping piece 403 extends into the clamping groove 404, the first limit structure 3 or the second limit structure 4 is in a first state or a third state respectively;

when the clamping member 403 does not extend into the clamping groove 404, the first limiting structure 3 or the second limiting structure 4 is in the second state or the fourth state respectively.

The clamping piece 403 is matched with the clamping groove 404, so that the matching state of the limiting unit 401 and the butting unit 402 can be realized, and when the clamping piece 403 is clamped in the clamping groove 404, the limiting unit 401 and the butting unit 402 cannot be separated, so that the locking state is realized; when the clip 403 is separated from the clip groove 404, the limiting unit 401 and the docking unit 402 can be separated from each other, thereby realizing an unlocked state.

For the second limiting structure 4, when the limiting unit 401 is disposed on the supporting component 202, the clip 403 is exposed on the first end surface of the supporting component 202;

The docking unit 402 is disposed on the first interaction component 201 corresponding to the limiting unit 401, and an opening of the clamping slot 404 is exposed on a second end surface of the first interaction component 201, so that when the third interface 204 is connected with the fourth interface, the first end surface and the second end surface are opposite to each other, and the clamping piece 403 can extend into the clamping slot 404.

For the first limiting structure 3, when the limiting unit 401 is disposed on the supporting component 202, the clamping piece 403 is exposed on a third end surface of the supporting component 202 opposite to the first end surface;

the docking unit 402 of the first limiting structure 3 is disposed on the first electronic device 1 corresponding to the limiting unit 401, and an opening of the clamping slot 404 is exposed on a fourth end surface of the first electronic device 1, where the third end surface and the fourth end surface are opposite when the first interface and the second interface 203 are connected.

Specifically, the limiting unit 401 further includes a first identifying portion 405, where the first identifying portion 405 can affect the movement of the clip 403;

when the first identification portion 405 identifies passing, the clip 403 can move in a direction away from the clip slot 404 until the first limit structure 3 or the second limit structure 4 is in the second state or the fourth state.

In some embodiments of the present application, the first identifying portion 405 may be configured to perform unlocking by using an unlocking member, for example, where the first identifying portion 405 includes a lock hole provided on the locking member 403, when the unlocking member is adapted to the lock hole and can extend into the lock hole, the first identifying portion passes through the identification, and when the unlocking member is engaged with the lock hole, the unlocking member is rotated to rotate the locking member 403, so that the locking member 403 can be rotated relative to the locking slot 404 and separated from the locking slot 404, thereby enabling the first limiting structure 3 or the second limiting structure 4 to be in an unlocked state.

In some embodiments of the present application, the first identifying portion 405 may also adopt an electronic identifying manner, for example, electronic unlocking, where the first identifying portion 405 includes an electronic key or an identifying control component such as a control module in driving connection with the card 403, and the identifying control component can drive the card 403 to move relative to the card slot 404 according to an instruction, so as to separate from the card slot 404 to realize unlocking, and the specific principle is not repeated in the prior art.

Specifically, the limiting unit 401 further includes a first driving portion, configured to drive the clip 403 to rotate; wherein the first driving part includes:

the first rotating member 406, where the first rotating member 406 is connected to the clamping member 403 and is used to drive the clamping member 403 to rotate;

the first elastic member 407 is configured to provide a restoring force to the clip 403, so that the clip 403 moves toward the clip slot 404.

The first rotating member 406 is connected with the clamping member 403 and can be integrally formed with the clamping member 403, so that the clamping member 403 can be driven to rotate synchronously by rotating the first rotating member 406, the clamping member 403 can be in an L shape or a substantially L shape, so that a hook body can be provided, when the clamping member 403 contacts with the clamping groove 404, the hook body of the clamping member 403 can contact with at least part of the groove wall of the clamping groove 404, and a restoring force and a clamping force are provided for the clamping member 403 through the first elastic member 407, so that the clamping member 403 is always kept in the clamping groove 404, and a locking state is ensured.

The first rotating member 406 may have a circular structure, and the axial direction of the first rotating member 406 is a rotation center, that is, when the first rotating member 406 rotates around the axial direction thereof, the clamping member 403 can be driven to rotate around the rotation center.

In some embodiments, taking the first identifying portion 405 as an example, a lock hole of the first identifying portion 405 may be disposed at a rotation center of the first rotating member 406, and when the unlocking member is clamped in the lock hole, the first rotating member 406 can be driven to rotate synchronously around the rotation center by rotating the unlocking member.

The automatic locking process between the clamping piece 403 and the clamping groove 404 can be realized through the first elastic piece 407, the end face of the clamping piece 403, facing the clamping groove 404, is provided with a guide inclined surface 418, when the clamping groove 404 contacts with the clamping piece 403, the clamping groove 404 pushes the clamping piece 403 to rotate through the guide inclined surface 418, so that the docking unit 402 contacts with the limiting unit 401, and when the clamping piece 403 is not blocked by the clamping groove 404 any more and can be blocked into the clamping groove 404, the first elastic piece 407 provides a reset force for the clamping piece 403 so that the clamping piece 403 can reversely rotate, and therefore the clamping piece 403 is blocked into the clamping groove 404, and the locking process is completed.

Specifically, the first elastic member 407 may be a torsion spring.

When unlocking is needed, the clamping piece 403 can be driven to rotate through the identification of the first identification part 405 so as to be separated from the clamping groove 404, so that the docking unit 402 can be separated from the limiting unit 401, and the unlocking process is realized.

The first limit structure 3 and the second limit structure 4 may be the same or different, for the first limit structure 3, the docking unit 402 of the first limit structure may be disposed on the first electronic device 1, and when the first electronic device 1 is a display, the clamping slot 404 may be implemented by using some existing slots on the back surface of the first electronic device 1 opposite to the display screen, so as to avoid excessive modification on the product, and improve versatility for different models.

The first limiting structure 3 may also adopt some locking manners commonly used in the prior art, and reference may be made to other embodiments.

Specifically, the limiting unit 401 further includes:

the elastic limiting piece 408, the elastic limiting piece 408 corresponds to the clamping piece 403 and is arranged along the connection direction of the butting unit 402 and the limiting unit 401; the first rotating member 406 has a limit portion 409;

when the first limiting structure 3 is in the first state or the second limiting structure 4 is in the third state, the first end of the elastic limiting member 408 is elastically abutted against the first rotating member 406, and the second end of the elastic limiting member 408 opposite to the first end is elastically abutted against the slot wall of the slot 404;

when the first limiting structure 3 is in the second state or the second limiting structure 4 is in the fourth state, the first end of the elastic limiting member 408 is clamped in the limiting portion 409 to limit the rotation of the clamping member 403.

Through the cooperation of the elastic limiting piece 408 and the first rotating piece 406, when the first rotating piece 406 rotates to the point that the elastic limiting piece 408 abuts against the limiting portion 409, the elastic limiting piece 408 can limit the first rotating piece 406 to reset under the action of the first elastic piece 407, so that the clamping groove 404 and the clamping piece 403 can be smoothly separated, and unlocking is achieved.

Taking the connection between the first interaction component 201 and the support component 202 as an example, the limiting unit 401 is disposed on the support component 202, and the docking unit 402 is disposed on the first interaction component 201, when the electronic system provided by the embodiment of the application is used, as shown in fig. 5, the clip 403 is in a free state under the action of the first elastic element 407 and is exposed outside the support component 202, and at this time, the first rotating element 406 is subjected to the action of the first elastic element 407 in the direction a, i.e. clockwise in fig. 6.

When the first interaction component 201 moves in opposite directions with the support component 202 to enable the third interface 204 to be in butt joint with the fourth interface, at this time, the butt joint unit 402 in the second limiting structure 4 is in butt joint with the limiting unit 401, the butt joint unit 402 extrudes the clamping piece 403 to enable the clamping piece 403 to rotate and compresses the elastic limiting piece 408 to contact with the shell of the support component 202, and at this time, the clamping piece 403 is not affected by the clamping groove 404, so that the clamping piece 403 can reset under the acting force of the first elastic piece 407 in the direction A and extend into the clamping groove 404, and the automatic locking process shown in fig. 6 is achieved.

When unlocking is needed, as shown in fig. 7, the unlocking member is inserted into the lock hole and rotates in the direction B, the direction B is the counterclockwise direction in fig. 7, so as to drive the first rotating member 406 to rotate synchronously, the first rotating member 406 drives the clamping member 403 to rotate in the same direction until the first end of the elastic limiting member 408 abuts against the limiting portion 409, at this time, the unlocking member can be pulled out, the first rotating member 406 can not reset and rotate reversely under the action of the direction a of the first elastic member 407, and the clamping member 403 is separated from the clamping slot 404, so that the clamping slot 404 can be separated from the supporting assembly 202, and unlocking and dismounting between the first interaction assembly 201 and the supporting assembly 202 can be realized.

When the elastic limiting member 408 is no longer exposed from the first end surface of the supporting assembly 202 under the action of the docking unit 402, as shown in fig. 8, the elastic limiting member 408 is separated from the limiting portion 409 of the first rotating member 406, so that the first rotating member 406 can reversely reset and rotate under the action of the first elastic member 407, and drives the clamping member 403 to synchronously rotate, thereby realizing a resetting process.

The electronic system provided by the embodiment of the application locks and unlocks the supporting component 202 and the first electronic device 1 and the supporting component 202 and the first interaction component 201 respectively through the cooperation of the limiting unit 401 and the docking unit 402 in the first limiting structure 3 and/or the second limiting structure 4, so that the use of other accessories can be omitted, the management and control of parts are facilitated, the disassembly prevention of the first interaction component 201 relative to the first electronic device 1 can be realized, and the anti-theft function is realized.

Example 2

The electronic system provided according to the present embodiment differs from embodiment 1 in that,

the interaction device 2 comprises: a support assembly 202 and a first interaction assembly 201;

the support assembly 202 is connected between the first interaction assembly 201 and the first electronic device 1, the fourth interface of the first interaction assembly 201 is connected with the third interface 204 of the support assembly 202, the second interface 203 of the support assembly 202 is connected with the first interface of the first electronic device 1, and the second interface 203 and the third interface 204 are communicated through wires.

Wherein, the limiting unit 401 of the first limiting structure 3 is set as a first limiting unit, and the docking unit 402 of the first limiting structure 3 is set as a first docking unit; the first limiting unit is disposed on the supporting component 202, and the first docking unit is disposed on the first electronic device 1 corresponding to the first limiting unit.

The first limiting unit is provided with a first clamping piece, the first butting unit is provided with a first clamping groove, and the first clamping piece and the first clamping groove are respectively positioned at the opposite ends of the supporting component 202 and the first electronic device 1 and are arranged away from the first interaction component 201; the first interface is disposed adjacent to the first card slot and the second interface 203 is disposed adjacent to the first card.

When the support assembly 202 is connected to the first electronic device 1, the first clamping member extends into the first clamping groove 4, so as to define a position between the first limiting unit and the first docking unit.

Specifically, the support assembly 202 has a support housing, a portion of the first clip is disposed in the support housing, the support housing has a first through hole adapted to rotate the first clip, and the hook of the first clip is exposed from the third end surface of the support assembly 202 through the first through hole.

The first limiting unit further comprises a first driving part, wherein the first driving part comprises a first rotating member 406 and a first elastic member 407; the first rotating member 406 is rotatably connected in the supporting housing and connected with the first clamping member, one end of the first elastic member 407 is fixed in the supporting housing, the other end is connected to the first rotating member 406, and the middle part of the first elastic member 407 is wound around a rotation center of the first rotating member 406, where the rotation center may be a shaft structure.

The first rotating member 406 may be a circular structure, and the first clamping member extends from an edge of the first rotating member 406, and a rotation center of the first rotating member 406 may be a center of a circle of the circular structure, so as to ensure concentricity of rotation.

The edge of the first rotating member 406 may also be outwardly convex to form a connection location to provide a connection location for the first resilient member 407.

The first recognition unit 405 adopts a physical recognition method, and specifically, the first recognition unit 405 includes:

A first locking hole provided at the rotation center of the first rotating member 406, the first locking hole being exposed from the surface of the support housing;

one end of the first unlocking piece is matched with the first lock hole;

when unlocking, the first unlocking piece can be inserted into the first lock hole, at this time, the identification is passed, and the first rotating piece 406 can be driven to synchronously rotate by rotating the first unlocking piece, so that the first clamping piece is separated from the first clamping groove.

In order to improve the unlocking operation effect, the first lock hole may be a non-circular hole, such as a triangular hole, a rectangular hole, a pentagonal hole, a hexagonal hole, a quincuncial hole, or other special-shaped holes; one end of the first unlocking piece and the first lock hole have an adaptive shape, and the other end of the first unlocking piece can be provided with a handheld part so as to be convenient for handheld operation. If the first unlocking member cannot be inserted into the first lock hole, the first identification portion 405 does not pass the identification.

Example 3

The electronic system provided according to the present embodiment is different from embodiment 2 in that the first limiting structure 3 is the same as the second limiting structure 4.

Specifically, the limiting unit 401 of the second limiting structure 4 is set as a second limiting unit, and the docking unit 402 of the second limiting structure 4 is a second docking unit; the second limiting unit is disposed on the supporting component 202, and the second docking unit is disposed on the first interaction component 201 corresponding to the second limiting unit.

The second limiting unit is provided with a second clamping piece, the second butting unit is provided with a second clamping groove, the second clamping piece and the second clamping groove are respectively positioned at opposite ends of the supporting component 202 and the first interaction component 201, the third interface 204 is adjacent to the second clamping piece, and the fourth interface is adjacent to the second clamping groove.

When the support assembly 202 is connected to the first interaction assembly 201, the second clamping member 403 extends into the second clamping groove 404, so as to define a position between the second limiting unit and the second docking unit.

Specifically, the support assembly 202 has a support housing, a portion of the second clip is disposed in the support housing, the support housing has a second through hole adapted to rotate the second clip, and the hook of the second clip is exposed from the first end surface of the support assembly 202 through the second through hole.

The second limiting unit comprises a second driving part, and the second driving part comprises a second rotating piece and a second elastic piece; the second rotates the piece and rotates to be connected in supporting the casing, and is connected with the second fastener, and the one end of second elastic component is fixed in supporting the casing, and the other end is connected in the second and rotates the piece, and the middle part of second elastic component is around locating the rotation center that the second rotated the piece, and rotation center can be the axle construction.

The second rotates the piece and can be circular structure, and the second fastener stretches out from the edge of second rotation piece and sets up, and the rotation center of second rotation piece can be the centre of a circle of circular structure to guarantee pivoted concentricity.

The edge of the second rotating member may further be protruded outward to form a connection position to provide a connection position of the second elastic member.

The second identifying part adopts a physical identifying mode, and specifically, the second identifying part comprises:

the second lock hole is arranged at the rotation center of the second rotating piece and is exposed on the surface of the support shell;

the second unlocking piece is provided with one end which is matched with the second lock hole;

when the unlocking is performed, the second unlocking piece can be inserted into the second lock hole, at the moment, the identification is performed, and the second unlocking piece can be rotated to drive the second rotating piece to synchronously rotate, so that the second clamping piece is separated from the second clamping groove.

In order to improve the unlocking operation effect, the second lock hole may be a non-circular hole, such as a triangular hole, a rectangular hole, a pentagonal hole, a hexagonal hole, a quincuncial hole, or other special-shaped holes; one end of the second unlocking piece and the second lock hole are provided with an adaptive shape, the other end of the second unlocking piece can be provided with a handheld part so as to facilitate handheld operation, and if the second unlocking piece cannot be inserted into the second lock hole, the second identification part cannot be identified.

Example 4

The electronic system provided according to the present embodiment is different from embodiment 2 in that the first limiting structure 3 has a structure different from that of the second limiting structure 4.

Specifically, the support assembly 202 has a support housing, as shown in fig. 4 and 9, the first limiting structure 3 includes:

the third clamping piece 414 is positioned between the second interface 203 and the third structure, a third through hole corresponding to the third clamping piece 414 is formed in the first surface of the support shell facing the first electronic device 1, and the third clamping piece 414 can extend out of the third through hole or retract;

the third clamping groove is arranged on the surface of the first electronic device 1 facing the first surface, and the third clamping piece 414 can extend into the third clamping groove or be separated from the third clamping groove.

The first limiting structure 3 further includes: the first fitting piece 415 and the second fitting piece 416, the first fitting piece 415 is cylindrical, one end of the first fitting piece 415 is provided with a third lock hole 417, and the other end of the first fitting piece 415 is provided with an inclined surface 418 matched with the second fitting piece 416; the second matching piece 416 is a plate body structure, the third clamping piece 414 is arranged at one end of the second matching piece 416, and the inclined surface 418 of the first matching piece 415 is connected to the middle part of the second matching piece 416.

The third unlocking piece adapted to the third locking hole 417 is used for driving the first matching piece 415 to rotate around the axial direction, and when the first unlocking piece rotates, the inclined surface 418 of the first matching piece 415 rotates to push the second matching piece 416 to swing reciprocally relative to the axis of the first matching piece 415, so that the third clamping piece 414 extends out of or retracts into the third through hole, and is clamped into or separated from the third clamping groove.

The locking state of the support assembly 202 and the first electronic device 1 can be realized through the cooperation of the third clamping piece 414 and the third clamping groove, so that the anti-disassembly function is realized.

Example 5

The electronic system provided according to the present embodiment differs from embodiment 1 in that,

as shown in fig. 5 to 8, the limiting unit 401 further includes:

the elastic limiting piece 408, wherein the elastic limiting piece 408 is arranged along the connection direction of the first interaction component 201 and the first electronic device 1 corresponding to the clamping piece 403; the first rotating member 406 has a limit portion 409;

when the first limiting structure 3 is in the first state or the second limiting structure 4 is in the third state, the first end of the elastic limiting member 408 is elastically abutted against the first rotating member 406, and the second end of the elastic limiting member 408 opposite to the first end is elastically abutted against the slot wall of the slot 404;

when the first limiting structure 3 is in the second state or the second limiting structure 4 is in the fourth state, the first end of the elastic limiting member 408 is clamped in the limiting portion 409 to limit the rotation of the clamping member 403.

Taking the example that the limiting unit 401 is disposed on the supporting component 202 and the docking unit 402 is disposed on the first interaction component 201 as an example:

the support assembly 202 has a support housing, a portion of the clip 403 is disposed in the support housing, the support housing has a through hole adapted to rotate the clip 403, a hook body of the clip 403 passes through the through hole to be exposed on a first end surface of the support assembly 202, and an opening of the clip slot 404 is exposed on a second end surface of the first interaction assembly 201 and is opposite to the first end surface;

The support housing is provided with the mounting hole in the direction that the coupler body of fastener 403 is towards, and elastic limiting part 408 is the cylindricality, sets up in the mounting hole, and can follow the axial expansion and contraction of mounting hole.

When the docking unit 402 moves towards the support assembly 202 under the condition of no external force, the docking unit 402 compresses the elastic limiting member 408, so that the first end of the elastic limiting member 408 abuts against the first rotating member 406;

when the first rotating member 406 rotates to the position of the elastic limiting member 408 corresponding to the limiting portion 409, the elastic limiting member 408 can elastically stretch out to be connected to the inside of the limiting portion 409;

when the docking unit 402 is separated from the limiting unit 401 and the elastic limiting member 408 is not pressed, the elastic limiting member 408 can elastically reset to the second end exposed out of the supporting housing, and meanwhile, the first end of the elastic limiting member 408 can be separated from the limiting portion 409, so that the clamping member 403 resets under the action of the first elastic member 407.

The elastic limiting piece 408 can limit the clamping piece 403 when the docking unit 402 is separated from the limiting unit 401, so that the separation of the clamping groove 404 is prevented from being influenced, and the unlocking operation convenience is improved.

Specifically, the elastic stopper 408 includes a first housing 410, a second housing 411, a stopper 412, a second elastic member, and a third elastic member; the first casing 410 is connected to the mounting hole and has an axial through structure, the second casing 411 is movably connected to the first casing 410, and a limiting ring 413 is arranged in the middle of the outer wall of the second casing 411 to limit the movement displacement of the second casing 411 along the axial direction, and the second casing 411 is separated from the first casing 410; the first elastic member 407 is provided between the first housing 410 and a side of the stopper ring portion 413 toward the rotation center of the first rotation member 406; the limiting head 412 may have one end connected to the second housing 411 in an extendable manner, and a third elastic member is disposed between the limiting head 412 and the second housing 411.

When no external force is applied, the second housing 411 can be exposed outside the support housing under the action of the second elastic member;

when the docking unit 402 presses the elastic stopper 408, the second housing 411 does not protrude from the supporting housing, and at the same time, the third elastic member is pressed to push the stopper 412 to protrude from a side of the second housing 411 toward the rotation center of the first rotating member 406 so as to be able to contact the stopper 409.

When the clamping groove 404 is separated from the clamping piece 403 and unlocked, the docking unit 402 is separated from the limiting unit 401, the elastic limiting piece 408 is not pressed any more, and the second elastic piece and the third elastic piece can generate restoring force to enable the second housing 411 to move along the axial direction, so that the limiting head 412 is separated from the limiting portion 409.

Specifically, the second elastic member and the third elastic member may be springs.

Specifically, the limiting portion 409 on the first rotating member 406 may be a groove structure recessed from the inner edge of the first rotating member 406, or may be a protruding structure formed by protruding the outer edge of the first rotating member 406 outward, and the limiting head 412 may extend into the groove structure or contact with a side of the protruding structure away from the clamping member 403, so as to limit the reset rotation of the first rotating member 406.

Example 6

The electronic system provided according to the present embodiment differs from embodiment 1 in that,

The first interaction component 201 or the support component 202 is further provided with a fifth interface;

the interaction device 2 further comprises a second interaction component provided with a sixth interface detachably connected to the fifth interface for connecting the second interaction component to the first interaction component 201 or the support component 202;

the electronic system further includes a third limiting structure, where the third limiting structure is disposed between the second interaction component and the first interaction component 201 and is used to limit a positional relationship between the second interaction component and the first interaction component 201, or the third limiting structure is disposed between the second interaction component and the support component 202 and is used to limit a positional relationship between the second interaction component and the support component 202.

The third limit structure may be the same as the second limit structure or the first limit structure 3, or may also adopt a locking structure commonly used in the prior art, thereby realizing the anti-disassembly function.

The second interaction component may be different from the first interaction component 201 in function, and the second interaction component may be multiple, and the multiple second interaction components may have different functions, for example, the first interaction component 201 may include a camera module, and the second interaction component may be a sound module, a microphone module, and the like.

Example 7

The electronic system provided according to the present embodiment differs from embodiment 1 in that,

the support assembly 202 includes a first support unit and a second support unit that are relatively slidable in a first direction and that are capable of maintaining a relative position such that the support assembly 202 is capable of adjusting a distance between the first interaction assembly 201 and the first electronic device 1 in the first direction, which is a connection direction of the interaction device 2 and the first electronic device 1.

The first support unit and the second support unit can slide relatively and can be locked with each other at a preset position, locking can be achieved in a clamping or bolting mode, and the like, and the locking can be specific according to actual conditions. The adjustment of the distance between the first interaction component 201 and the first electronic device 1 is achieved by the cooperation of the first support unit and the second support unit, so as to be suitable for use according to more use requirements.

The foregoing is merely illustrative of the present application, and the present application is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. An electronic system, the electronic system comprising:

a first electronic device including a first interface;

an interaction device comprising at least one interaction component for responding to and/or generating interaction data and a second interface detachably connected to the first interface for connecting the interaction device to the first electronic device;

the first limiting structure is arranged between the interaction device and the first electronic device and used for limiting the position relationship between the interaction device and the first electronic device;

when the first limiting structure is in a first state, the interaction device and the first electronic device cannot be separated;

when the first limiting structure is in the second state, the interaction device and the first electronic device can be separated.

2. An electronic system according to claim 1, wherein the interaction means comprises:

the support assembly is provided with the second interface and the third interface;

the first interaction assembly is provided with a fourth interface which is detachably connected with the third interface so as to enable the first interaction assembly to be connected with the supporting assembly;

The first limiting structure is arranged between the supporting component and the first electronic device and used for limiting the position relation between the supporting component and the first electronic device;

the electronic system further comprises a second limiting structure, which is arranged between the first interaction component and the supporting component and used for limiting the position relation between the first interaction component and the supporting component;

when the second limiting structure is in a third state, the first interaction component and the supporting component cannot be separated;

when the second limiting structure is in a fourth state, the first interaction assembly and the supporting assembly can be separated.

3. An electronic system according to claim 2, wherein the first limit structure and/or the second limit structure each comprise: the device comprises a limiting unit and a butting unit;

for the first limiting structure, the limiting unit is arranged on the interaction device, the docking unit is arranged on the first electronic device corresponding to the limiting unit, or the limiting unit is arranged on the first electronic device, and the docking unit is arranged on the interaction device corresponding to the limiting unit;

For the second limiting structure, the limiting unit is arranged on the supporting component, the docking unit is arranged on the first interaction component corresponding to the limiting unit, or the limiting unit is arranged on the first interaction component, and the docking unit is arranged on the supporting component corresponding to the limiting unit;

the limiting unit is matched with the docking unit to enable the first limiting structure to be in a first state or a second state, or enable the second limiting structure to be in a third state or a fourth state.

4. An electronic system according to claim 3, wherein the limiting unit has a clamping member, and the docking unit has a clamping groove;

when the clamping piece stretches into the clamping groove, the first limit structure or the second limit structure is in the first state or the third state respectively;

when the clamping piece does not extend into the clamping groove, the first limiting structure or the second limiting structure is in the second state or the fourth state respectively.

5. An electronic system according to claim 4, wherein,

the limiting unit is arranged on the supporting component, and the clamping piece is exposed on the first end face of the supporting component;

The docking unit is arranged on the first interaction assembly, an opening of the clamping groove is exposed on the second end face of the first interaction assembly, and when the third interface is connected with the fourth interface, the first end face and the second end face are in opposite states.

6. The electronic system of claim 4, wherein the limit unit further comprises a first identification portion capable of affecting movement of the clip;

when the first identification part passes through identification, the clamping piece can move to the direction deviating from the clamping groove until the first limit structure or the second limit structure is in the second state or the fourth state respectively.

7. An electronic system according to claim 4, wherein,

the limiting unit further comprises a first driving part for driving the clamping piece to rotate;

wherein the first driving part includes:

the first rotating piece is connected with the clamping piece and is used for driving the clamping piece to rotate;

the first elastic piece is used for providing a restoring force for the clamping piece so that the clamping piece moves towards the clamping groove.

8. The electronic system of claim 7, wherein the limit unit further comprises:

The elastic limiting piece is arranged along the connection direction of the butt joint unit and the limiting unit corresponding to the clamping piece;

the first rotating piece is provided with a limiting part;

when the first limiting structure is in a first state or the second limiting structure is in a third state, the first end of the elastic limiting piece is elastically abutted to the first rotating piece, and the second end of the elastic limiting piece opposite to the first end is elastically abutted to the groove wall of the clamping groove;

when the first limiting structure is in the second state or the second limiting structure is in the fourth state, the first end of the elastic limiting piece is clamped in the limiting part so as to limit the clamping piece to rotate.

9. An electronic system according to claim 2, wherein,

the support assembly comprises a first support unit and a second support unit which can relatively slide in a first direction and can keep relative positions, so that the support assembly can adjust the distance between the first interaction assembly and the first electronic device in the first direction, and the first direction is the connection direction of the interaction device and the first electronic device.

10. An electronic system according to claim 2, wherein the first interaction component or the support component is further provided with a fifth interface;

the interaction device further comprises a second interaction component, wherein the second interaction component is provided with a sixth interface, and the sixth interface is detachably connected with the fifth interface so that the second interaction component is connected with the first interaction component or the supporting component;

the electronic system further comprises a third limiting structure, wherein the third limiting structure is arranged between the second interaction component and the first interaction component and used for limiting the position relation between the second interaction component and the first interaction component, or the third limiting structure is arranged between the second interaction component and the supporting component and used for limiting the position relation between the second interaction component and the supporting component.