CN111880609A - Electronic device - Google Patents

Abstract

The application discloses electronic equipment belongs to communication equipment technical field. The electronic equipment comprises an equipment shell, a functional module and a driving mechanism; the equipment shell is provided with an inner cavity and a first opening communicated with the inner cavity, and the driving mechanism is arranged on the equipment shell; the driving mechanism comprises an operation knob, a lead screw and a support, the operation knob is arranged on the equipment shell and can rotate relative to the equipment shell, the operation knob is connected with the lead screw, the lead screw is in threaded connection with the support, the support is connected with the function module, the operation knob drives the lead screw to rotate, the lead screw drives the support to move, and the support drives the function module to move; under the condition that the operation knob rotates towards the first direction, at least part of the function module extends out of the equipment shell through the first opening; under the condition that the operation knob rotates towards the second direction, the function module retracts into the equipment shell through the first opening; the screen of the electronic equipment can be solved by the scheme, and the problem of small screen occupation is solved.

Description

Electronic device

Technical Field

The application belongs to the technical field of communication equipment, and particularly relates to electronic equipment.

Background

Along with the continuous development of science and technology, electronic equipment's such as intelligent wrist-watch, intelligent bracelet function has more and more diversified, consequently electronic equipment's prevalence is also higher and higher. The electronic equipment usually has the functions of shooting, talking, fingerprint identification and the like, and further can meet the use requirements of users. The above functions of the electronic device are usually completed by corresponding structures such as a camera module, a receiver, and a fingerprint recognition module.

In the process of implementing the invention, the inventor finds that the related technology has the following problem that the camera module, the receiver, the fingerprint identification module and other structures occupy the display area of the electronic equipment when being set, so that the screen of the electronic equipment occupies a smaller area.

Disclosure of Invention

The embodiment of the application aims to provide electronic equipment, and the problem that the screen of the electronic equipment is small in occupied ratio can be solved.

In order to solve the technical problem, the present application is implemented as follows:

the embodiment of the application provides electronic equipment, which comprises an equipment shell, a functional module and a driving mechanism;

the equipment shell is provided with an inner cavity and a first opening communicated with the inner cavity, and the driving mechanism is arranged on the equipment shell;

the driving mechanism comprises an operation knob, a lead screw and a bracket, the operation knob is arranged on the equipment shell and can rotate relative to the equipment shell, the lead screw and the bracket are positioned in the inner cavity, the operation knob is connected with the lead screw, the lead screw is in threaded connection with the bracket, the bracket is connected with the function module, the operation knob drives the lead screw to rotate, the lead screw drives the bracket to move along the axial direction of the lead screw, and the bracket drives the function module to move;

under the condition that the operation knob rotates towards a first direction, at least part of the function module extends out of the equipment shell through the first opening; under the condition that the operation knob rotates towards a second direction, the function module retracts into the equipment shell through the first opening;

wherein the first direction and the second direction are opposite.

In the embodiment of the application, when the functional module needs to be switched to the working state, a user rotates the operation knob towards the first direction, the operation knob drives the screw to rotate towards the first direction, the screw drives the support to move towards the direction of the first opening, the support drives the functional module to move, and at least part of the functional module extends out of the equipment shell through the first opening; when the function module finishes working, a user rotates the operation knob towards the second direction, the operation knob drives the screw rod to rotate towards the second direction, the screw rod drives the support to move away from the direction of the first opening, the support drives the function module to move, and the function module retracts into the equipment shell through the first opening. In this scheme, the function module sets up among the inner chamber of equipment casing, and when the function module during operation, actuating mechanism drive function module stretches out outside the equipment casing, and when the function module was out of work, actuating mechanism drive function module retracted within the equipment casing, and then made the function module hide in the inner chamber of equipment casing to make the function module can not occupy electronic equipment's display area, and then make electronic equipment's screen account for than great.

Drawings

Fig. 1 is a schematic structural diagram of an electronic device disclosed in an embodiment of the present application, in which a functional module extends out of a device housing;

fig. 2 is a schematic structural diagram illustrating a functional module of the electronic device according to the embodiment of the present disclosure retracted into a device housing;

fig. 3 is a schematic structural diagram of a functional module and a driving mechanism in the electronic device disclosed in the embodiment of the present application.

Description of reference numerals:

100-equipment shell,

200-functional module,

300-driving mechanism, 310-operating knob, 311-connecting part, 312-operating part, 320-lead screw, 330-bracket, 340-guide rod, 341-first limit part, 342-second limit part,

400-connecting the belt.

Detailed Description

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

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application are capable of operation in sequences other than those illustrated or described herein. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

The electronic device provided by the embodiment of the present application is described in detail below with reference to the accompanying drawings through specific embodiments and application scenarios thereof.

Referring to fig. 1 to 3, an electronic device is disclosed in the present embodiment, and the disclosed electronic device includes a device housing 100, a functional module 200, and a driving mechanism 300.

The main body of the device is a main body part of the electronic device, and the main body of the device includes main functional components of the electronic device, such as a display screen, a main board, and the like. In the embodiment of the present application, the apparatus main body includes an apparatus housing 100, and the apparatus housing 100 provides a mounting base for a part of the functional components of the electronic apparatus. In the present embodiment, the device housing 100 has an inner cavity and a first opening communicating with the inner cavity.

The device housing 100 has a bezel and the components of the device housing 100 of different configurations that form the bezel are different. For example, the device case 100 may include a front case, a rear cover, and a middle frame disposed therebetween. The rim may be formed on the middle frame. In which case the border acts as part of the middle frame. For another example, the device housing 100 includes a front cover and a back cover, and the bezel may be formed on the back cover or the front cover. In general, the frame defines a first opening, which is communicated with the inner cavity, and the first opening is used for the functional module 200 to pass through and enter the device housing 100. Of course, the function module 200 can also enter and exit the device housing 100 through other passages, and is not limited to the first opening formed on the frame.

The function module 200 is movably disposed in the inner cavity such that at least a portion of the function module 200 can enter and exit the equipment housing 100 through the first opening.

The driving mechanism 300 is provided to the apparatus casing 100, and the driving mechanism 300 includes an operation knob 310, a lead screw 320, and a bracket 330. The operation knob 310 is provided to the device case 100, and the operation knob 310 is rotatable with respect to the device case 100. A portion of the operation knob 310 protrudes from an outer surface of the apparatus housing 100, thereby facilitating the operation by the user. The lead screw 320 and the support 330 are located in the inner cavity, the device housing 100 is further provided with a second opening communicated with the inner cavity, a portion of the operation knob 310 extends out of the inner cavity through the second opening, the operation knob 310 is connected with the lead screw 320, the lead screw 320 is in threaded connection with the support 330, the support 330 is connected with the function module 200, the operation knob 310 drives the lead screw 320 to rotate, the lead screw 320 drives the support 330 to move along the axial direction of the lead screw 320, and the support 330 drives the function module 200 to move.

The operation knob 310 is rotatable in a first direction and a second direction, which are opposite to each other. For example, the first direction may be a clockwise direction and the second direction may be a counterclockwise direction, and of course, the first direction may be a counterclockwise direction and the second direction may be a clockwise direction.

In a specific operation process, when the function module 200 needs to be switched to the operating state, a user rotates the operation knob 310 toward the first direction, and when the operation knob 310 rotates toward the first direction, the operation knob 310 drives the lead screw 320 to rotate toward the first direction, the lead screw 320 drives the bracket 330 to move toward the first opening, the bracket 330 drives the function module 200 to move, and at least a portion of the function module 200 extends out of the device housing 100 through the first opening.

When the function module 200 is finished, the user rotates the operation knob 310 towards the second direction, the operation knob 310 drives the lead screw 320 to rotate towards the second direction, and under the condition that the operation knob 310 rotates towards the second direction, the operation knob 310 drives the lead screw 320 to rotate towards the second direction, the lead screw 320 drives the bracket 330 to move towards the first opening, the bracket 330 drives the function module 200 to move, and the function module 200 retracts into the device housing 100 through the first opening.

Specifically, the functional module 200 may include at least one of a camera module, a fingerprint identification module, a telephone receiver, a light supplement lamp, a card holder, a speaker, a microphone, and a sensor, and may also include other components that can enter and exit the device housing 100.

In the embodiment disclosed in the present application, the functional module 200 is disposed in the inner cavity of the device housing 100, when the functional module 200 works, at least a portion of the driving mechanism 300 drives the functional module 200 to extend out of the device housing 100, when the functional module 200 does not work, the driving mechanism 300 drives the functional module 200 to retract into the device housing 100, so that the functional module 200 is hidden in the inner cavity of the device housing 100, thereby the functional module 200 does not occupy the display area of the electronic device, and further the screen occupation ratio of the electronic device is large.

In addition, the process of the functional module 200 entering or exiting the device housing 100 can be completed only by applying an external force by a user, so that the problem of power consumption does not exist, and the energy consumption of the electronic device can be reduced. The electronic equipment does not need a driving motor and other parts with higher price, so that the production cost can be reduced. Meanwhile, the driving of the movement of the functional module 200 is realized manually by the user, so that the mechanical operation experience of the user can be improved undoubtedly.

Further, the lead screw 320 and the bracket 330 are screw-engaged, and the screw has a self-locking property, so that the function module 200 maintains this state in the case where the driving mechanism 300 drives the function module 200 to the outside of the apparatus case 100.

In order to prevent the functional module 200 from being deflected during movement, in an alternative embodiment, the driving mechanism 300 may further include a guide rod 340, the guide rod 340 may be disposed in the inner cavity, the guide rod 340 is slidably connected to the bracket 330, and the guide rod 340 may extend in the same direction as the lead screw 320. In this embodiment, the guide bar 340 can assist in limiting the moving direction of the bracket 330, so as to prevent the bracket 330 from deflecting during the moving process, and further prevent the functional module 200 from deflecting during the moving process, so as to promote the high moving precision of the functional module 200, and thus improve the reliability of the electronic device.

In the above embodiment, when the guiding rod 340 and the guiding screw 320 are both disposed on the same side of the function module 200, the guiding rod 340 and the guiding screw 320 are both located at the same end of the bracket 330, and at this time, the two ends of the bracket 330 are unbalanced in stress, which easily causes the bracket 330 to incline towards one side, thereby easily causing the function module 200 to be stuck in the apparatus housing 100.

In order to solve the above problem, in an alternative embodiment, the function module 200 may be located between the guide bar 340 and the lead screw 320, one end of the bracket 330 may be connected to the lead screw 320, and the other end of the bracket 330 may be connected to the guide bar 340. In this scheme, the guide rod 340 and the lead screw 320 are respectively located at two sides of the function module 200, the two ends of the bracket 330 are stressed in a balanced manner, and the difference between the driving forces applied to the two sides of the function module 200 is small, so that the driving forces applied to the function module 200 are relatively uniform, and the possibility that the function module 200 is stuck in the device housing 100 is further reduced.

In the above embodiment, when the functional module 200 moves by a stroke greater than the screwing length of the lead screw 320 and the bracket 330 in the process of extending the functional module 200 out of the device housing 100, the bracket 330 is easily separated from the lead screw 320, and thus the bracket 330 and the lead screw 320 are in a failure in cooperation, which causes damage to the electronic device. In an alternative embodiment, the guiding rod 340 may be provided with a first position-limiting portion 341, the first position-limiting portion 341 may be located at an end of the guiding rod 340 close to the first opening, and the first position-limiting portion 341 and the bracket 330 are in position-limiting fit in the extending direction of the function module 200. In this scheme, when the bracket 330 moves to a specific position, the first position-limiting portion 341 can obstruct the movement of the bracket 330, so that the first position-limiting portion 341 can prevent the bracket 330 from disengaging from the lead screw 320, and further can effectively prevent possible matching failure of the lead screw 320 and the bracket 330, thereby improving the safety and reliability of the electronic device, and simultaneously avoiding excessive extension of the functional module 200. Alternatively, the first position-limiting portion 341 may be a first position-limiting protrusion, and the first position-limiting protrusion is in position-limiting fit with the surface of the bracket 330 in the extending direction of the function module 200.

Of course, when the function module 200 is retracted into the device housing 100, the problem of failure of the screw 320 in cooperation with the bracket 330 may also occur, for this reason, the guide rod 340 may further be provided with a second limiting portion 342, the second limiting portion 342 may be located at an end of the guide rod 340 away from the first opening, and the first limiting portion 341 may be in limiting cooperation with the bracket 330 in the retraction direction of the function module 200. In this embodiment, when the bracket 330 retracts to the designated position, the second position-limiting portion 342 can obstruct the movement of the bracket 330, so that the second position-limiting portion 342 can prevent the bracket 330 from disengaging from the lead screw 320, thereby effectively preventing the possible matching failure of the lead screw 320 and the bracket 330, further improving the safety and reliability of the electronic device, and avoiding the retraction of the functional module 200. Alternatively, the second limiting portion 342 may be a second limiting protrusion, and the second limiting protrusion is in limiting engagement with the surface of the bracket 330 in the retraction direction of the function module 200.

Alternatively, the first position-limiting portion 341 may be in position-limiting engagement with a surface of a side of the bracket 330 facing the first opening, and the second position-limiting portion 342 may be in position-limiting engagement with a surface of a side of the bracket 330 facing away from the first opening.

In order to improve the usability of the function module 200, in an alternative embodiment, the function module 200 is detachably connected to the bracket 330, the function module 200 may have a first state and a second state, in which the function module 200 is connected to the bracket 330 in the case that the function module 200 is in the first state, in which the function module 200 is separated from the bracket 330 and the function module 200 is separated from the device housing 100 in the case that the function module 200 is in the second state. In this scheme, when the function module 200 is separated from the device case 100, the function module 200 can work independently, so that the function module 200 is not limited by the orientation and the angle when in use, and therefore the function module 200 has a higher degree of freedom when in use, so that the flexibility of use of the function module 200 is higher. Here, the independent operation means that the function module 200 can be operated separately from the device case 100.

Optionally, the functional module 200 may be provided with a first clamping portion, the bracket 330 may be provided with a second clamping portion, and the first clamping portion is clamped and matched with the second clamping portion. The scheme has simple structure and convenient disassembly. First joint portion can be the trip, and second joint portion can be the draw-in groove, and the trip cooperates with the draw-in groove joint, and perhaps first joint portion and second joint portion can be the trip, and the specific structure text of first joint portion and second joint portion does not do the restriction.

In the above embodiment, the first clamping portion and the second clamping portion are easily damaged in a long-time and high-frequency disassembling process, so that the reliability of the electronic device is reduced. For this reason, in another alternative embodiment, one of the functional module 200 and the bracket 330 is provided with a magnetic member, and the other is provided with a magnetic member, and the magnetic member are magnetically engaged. In this scheme, magnetism spare and magnetism spare are difficult to damage, and then can improve electronic equipment's reliability. Optionally, the magnetic member may be a permanent magnet, and the magnetic member may be a metal member magnetically attracted to the magnetic member, or of course, the magnetic member may also be a permanent magnet.

In this specification, the magnetic member refers to a magnetic structural member, and the magnetic member is a structural member that can be magnetically attracted by the magnetic member.

In the above embodiment, when the projection profile of the operation knob 310 in the axial direction of the second opening is smaller than the projection profile of the second opening, the operation knob 310 is easily pushed into the inner cavity, so that it is difficult for the user to rotate the operation knob 310, and further the function module 200 is difficult to drive, which undoubtedly brings inconvenience to the user. In another alternative embodiment, the operation knob 310 may include a connection portion 311 and an operation portion 312, the connection portion 311 is connected to the operation portion 312, a portion of the connection portion 311 may extend into the inner cavity through the second opening, the connection portion 311 is connected to the lead screw 320, and the operation portion 312 is in limit fit with the outer surface of the device housing 100 in the extending direction of the lead screw 320. In this scheme, the operation portion 312 is in limit fit with the outer surface of the device housing 100, and the projection profile of the second opening in the axial direction is located within the projection profile of the operation portion 312, at this time, the device housing 100 can block the operation portion 312 from entering the inner cavity, so that the operation portion 312 can be prevented from being pushed into the inner cavity, and further the operation knob 310 can be rotated easily by a user, thereby facilitating the driving of the function module 200.

In the above embodiment, the first opening and the second opening may be located on the same outer surface of the device housing 100, at this time, the functional module 200 and the driving mechanism 300 are likely to interfere with each other, and at the same time, the local strength of the device housing 100 is too low, for this reason, in an alternative embodiment, the first opening and the second opening may be respectively disposed on two outer surfaces of the device housing 100 that are opposite to each other, and the second opening and the first opening may be disposed in a staggered manner. In this scheme, first opening and second opening are located two surfaces that carry on the back mutually to make functional module 200 and actuating mechanism 300 be difficult to take place to interfere when the installation, also make things convenient for waterproof, dustproof design simultaneously.

In the above embodiment, when the diameter of the lead screw 320 is larger than the diameter of the operation knob 310, the user needs to apply a larger driving force to drive the lead screw 320 to rotate, so that the user needs to drive the function module 200 harder. Based on this, in another alternative embodiment, the diameter of the lead screw 320 may be smaller than the diameter of the connection part 311, and the diameter of the connection part 311 may be smaller than the diameter of the operation part 312. In this embodiment, the diameter of the connecting portion 311 is larger, so the torque transmitted to the lead screw 320 is larger, and the user can drive the functional module 200 more easily.

The electronic device disclosed in the embodiment of the present application may further include a connection band 400, where the connection band 400 is connected to the device housing 100, and the connection band 400 is used for enabling the electronic device to be worn on a human body. For example, in the case where the electronic device is a wristwatch, the connection band 400 may be a watch band, and the device body may be a dial. In the embodiment of the present application, the type of the connection band 400 may be various, for example, the connection band 400 may be a leather band, a metal band, or the like, and the embodiment of the present invention does not limit the specific type of the connection band 400.

In the above-described embodiment, when the first opening is located close to the connection strap 400, the functional module 200 easily interferes with the connection strap 400 when protruding out of the apparatus case 100, thereby easily causing damage to the functional module 200. In an alternative embodiment, an avoiding groove may be formed at one end of the connection belt 400 connected to the equipment enclosure 100, and in a case where at least a part of the function module 200 is located outside the equipment enclosure 100, at least a part of the function module 200 may be located inside the avoiding groove. In this scheme, under the condition that function module 200 stretches out outside equipment housing 100, can enter into and dodge in the recess to can prevent that connecting band 400 from taking place to interfere with function module 200, and then be difficult to cause function module 200 to damage.

In the above embodiment, the connection belt 400 is provided with the avoidance groove, which may cause the area of the connection surface between the connection belt 400 and the device housing 100 to be reduced, and further cause the connection reliability between the connection belt 400 and the device housing 100 to be poor. For this purpose, in an alternative embodiment, the connection surfaces of the connection belt 400 and the device housing 100 may be oriented at 90 ° to the orientation of the first opening. In this scheme, connecting band 400 is far away from first open-ended position, and simultaneously, the winding direction of connecting band 400 is different with the direction of stretching out of function module 200 to make connecting band 400 be difficult to take place to interfere with function module 200, and then be difficult to cause function module 200 to damage, and simultaneously, connecting band 400 need not to set up and dodge the groove, thereby make the area of the connecting face of connecting band 400 and equipment casing 100 great, and then make connecting band 400 and equipment casing 100's reliability higher.

Alternatively, the device case 100 may have a rectangular parallelepiped structure or a cubic structure, and the connection surface of the connection strap 400 to the device case 100 and the first opening may be located on different sides of the rectangular parallelepiped structure or the cubic structure. The device housing 100 may also be a cylinder, and the connection surface and the first opening may be located on a circumferential surface of the cylinder. Of course, the device housing 100 may have other shapes, which is not limited herein.

In the above embodiment, the connection surface of the connection belt 400 and the device housing 100 and the first opening may be disposed at other angles, as long as the connection belt 400 does not affect the extending or retracting operation of the function module 200.

In the above embodiment, when the user touches the operation knob 310 by mistake, the function module 200 is likely to malfunction. To this end, in an alternative embodiment, the operation knob 310 is detachably coupled to the lead screw 320. In this scheme, in the case where the function module 200 is extended out of the apparatus case 100 or retracted into the apparatus case 100, the operation knob 310 may be separated from the lead screw 320, thereby preventing an erroneous operation of the function module 200. Optionally, the operation knob 310 and the lead screw 320 may be inserted and matched, so that the operation knob 310 and the lead screw 320 are convenient to detach and install. Of course, the operation knob 310 and the lead screw 320 may be connected in other manners, which is not limited herein.

In order to improve the usability of the operation knob 310. In an optional embodiment, the electronic device disclosed in the embodiment of the present application may further include a control component, where the control component may control the electronic device, for example, the control component may control a volume of the electronic device, and control the camera module to perform operations such as shooting, and specifically, the control component may be an operation key of the electronic device, and of course, may also control other functions, which is not limited herein.

The operation knob 310 has a first position and a second position, and in the first position, the operation knob 310 is connected with the lead screw 320, so that the lead screw 320 can be driven to rotate under the condition of being rotated; in the second position, the operating knob 310 is disengaged from the lead screw 320 and the operating knob 310 is in control communication with the control assembly.

Specifically, the operation knob 310 may be moved in a penetrating direction of the second opening, thereby achieving switching between the first position and the second position. The operation knob 310 may be detachably engaged with the lead screw 320, for example, a polygonal groove or a spline hole may be formed at an end of the operation knob 310 connected to the lead screw 320, and a polygonal protrusion or a spline shaft may be formed at an end of the lead screw 320 connected to the operation knob 310.

In the operation process, a user can push the operation knob 310 to enable the polygonal protrusion or the spline shaft to be inserted into the polygonal groove or the spline hole, so as to achieve connection with the lead screw 320, in this case, the operation knob 310 is in the first position, and the operation knob 310 and the lead screw 320 are in limited fit in the rotation direction of the operation knob 310, so that the lead screw 320 can rotate along with the operation knob 310 when the operation knob 310 is controlled to rotate, and finally, power transmission is achieved. The user can operate the operation knob 310 to rotate alone by pulling the operation knob 310 to separate the polygonal protrusion or spline shaft from the polygonal groove or spline hole, so that the operation knob 310 is separated from the lead screw 320, and the transmission connection between the two is finally cut off. With the operation knob 310 in the second position, the operation knob 310 may be considered to be in a position where it can be connected to the control assembly, so that the control operation of the control assembly is realized through the rotation of the operation knob 310.

In this embodiment, the operation knob 310 can drive the function module 200 to enter or exit the device case 100, and can control a part of functions of the electronic device, so as to implement the sharing of the operation knob 310, and promote the operation knob 310 to have higher usability. In addition, the electronic equipment can be provided with fewer control keys, so that the manufacturing difficulty of the electronic equipment is reduced, and the manufacturing cost is lower.

Of course, the operation knob 310 and the lead screw 320 can be magnetically coupled or decoupled by an electromagnet, and are not limited to the above-mentioned separable coupling structure.

Optionally, the control assembly may include a contact spring, and the circumferential surface of the operation knob 310 may be provided with a protrusion, and the protrusion and the contact spring are distributed in a staggered manner, so that the rotation of the operation knob 310 does not cause the protrusion and the contact spring to act. When the operation knob 310 is located at the first position, the operation knob 310 may be connected to the lead screw 320, and at this time, the operation knob 310 is used to drive the function module 200; under the condition that the operation knob 310 is located at the second position, the operation knob 310 is separated from the lead screw 320, at this time, the protrusion and the contact elastic sheet are located at opposite positions, when the operation knob 310 rotates towards the first direction, the protrusion can rotate along with the operation knob 310, and when the protrusion rotates to a position where the protrusion is in contact with the contact elastic sheet, the protrusion presses the contact elastic sheet, so that the contact elastic sheet is electrically conducted, and a control function is started; when the operation knob 310 rotates in the second direction, the rotation of the operation knob 310 can drive the protrusion to be separated from the contact spring, so that the contact spring can be released from being pressed, and the control function can be turned off. Of course, the control function may be turned on or off in other manners, which is not limited herein.

The electronic equipment disclosed by the embodiment of the application can be equipment such as an intelligent watch, an intelligent bracelet and an electronic belt, and the embodiment of the application does not limit the specific type of the electronic equipment.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (11)

1. An electronic apparatus, comprising an apparatus case (100), a function module (200), and a drive mechanism (300);

the device housing (100) is provided with an inner cavity and a first opening communicated with the inner cavity, and the driving mechanism (300) is arranged on the device housing (100);

the driving mechanism (300) comprises an operation knob (310), a lead screw (320) and a bracket (330), the operation knob (310) is arranged on the equipment shell (100), the operation knob (310) can rotate relative to the equipment shell (100), the lead screw (320) and the bracket (330) are positioned in the inner cavity, the operation knob (310) is connected with the lead screw (320), the lead screw (320) is in threaded connection with the bracket (330), the bracket (330) is connected with the function module (200), the operation knob (310) drives the lead screw (320) to rotate, the lead screw (320) drives the bracket (330) to move along the axial direction of the lead screw (320), and the bracket (330) drives the function module (200) to move;

when the operation knob (310) is rotated towards a first direction, at least part of the function module (200) extends out of the equipment housing (100) through the first opening; when the operation knob (310) rotates towards a second direction, the function module (200) retracts into the equipment shell (100) through the first opening;

wherein the first direction and the second direction are opposite.

2. The electronic device of claim 1, wherein the driving mechanism (300) further comprises a guide rod (340), the guide rod (340) is disposed in the inner cavity, the guide rod (340) is slidably connected to the bracket (330), and the guide rod (340) extends in the same direction as the lead screw (320).

3. The electronic device of claim 2, wherein the function module (200) is located between the guide bar (340) and the lead screw (320), one end of the bracket (330) is connected to the lead screw (320), and the other end of the bracket (330) is connected to the guide bar (340).

4. The electronic device according to claim 2, wherein the guide rod (340) is provided with a first position-limiting part (341), the first position-limiting part (341) is located at one end of the guide rod (340) close to the first opening, and the first position-limiting part (341) is in position-limiting fit with the bracket (330) in the extending direction of the function module (200); and/or the presence of a gas in the gas,

the guide rod (340) is provided with a second limiting part (342), the second limiting part (342) is located at one end, deviating from the first opening, of the guide rod (340), and the second limiting part (342) is in limiting fit with the support (330) in the retraction direction of the functional module (200).

5. The electronic device of claim 1, wherein the functional module (200) is detachably connected to the stand (330), the functional module (200) having a first state and a second state, the functional module (200) being connected to the stand (330) with the functional module (200) in the first state, and the functional module (200) being separated from the stand (330) and from the device housing (100) with the functional module (200) in the second state.

6. The electronic device according to claim 5, wherein the function module (200) is provided with a first clamping portion, the bracket (330) is provided with a second clamping portion, and the first clamping portion is in clamping fit with the second clamping portion.

7. The electronic device of claim 5, wherein one of the function module (200) and the bracket (330) is provided with a magnetic member, and the other is provided with a magnetic member, and the magnetic member is magnetically engaged with the magnetic member.

8. The electronic device according to claim 1, wherein the device housing (100) has a second opening, the second opening is communicated with the inner cavity, the operation knob (310) comprises a connecting portion (311) and an operation portion (312), the connecting portion (311) is connected with the operation portion (312), a portion of the connecting portion (311) extends into the inner cavity through the second opening, the connecting portion (311) is connected with the lead screw (320), and the operation portion (312) is in limit fit with an outer surface of the device housing (100) in an extending direction of the lead screw (320).

9. The electronic device according to claim 1, further comprising a connecting strap (400), wherein the connecting strap (400) is connected to the device housing (100), an avoiding groove is formed at an end of the connecting strap (400) connected to the device housing (100), and when at least a portion of the functional module (200) is located outside the device housing (100), at least a portion of the functional module (200) is located inside the avoiding groove.

10. The electronic device according to claim 1, further comprising a connecting strip (400), wherein the connecting strip (400) is connected to the device housing (100), and the connecting strips (400) and the device housing (100) are arranged such that the connecting surfaces thereof face at 90 ° to the first opening.

11. The electronic device according to any of claims 1-10, wherein the functional module (200) comprises at least one of a camera module, a fingerprint recognition module, a receiver, a fill light, a sensor, and a card holder.

Images