CN108924310B - Mobile terminal - Google Patents

Abstract

The invention discloses a mobile terminal which comprises a shell (100), a camera (200) and a driving mechanism (300) arranged in an inner cavity (120) of the shell (100), wherein a through hole is formed in a frame (110) of the shell (100), the driving mechanism (300) comprises a driving main body (310) and an elastic telescopic piece (320), a positioning piece (130) is arranged in the inner cavity (120), the elastic telescopic piece (320) is compressed between the camera (200) and the positioning piece (130), the elastic telescopic piece (320) is used for applying elastic force for enabling the camera (200) to penetrate through the through hole, and the driving main body (310) applies traction force for enabling the camera (200) to penetrate through the through hole and retract into the inner cavity (120). The scheme can solve the problem that the arrangement of the existing camera can influence the development of the mobile terminal towards the large screen ratio direction.

Description

Mobile terminal

Technical Field

The invention relates to the technical field of mobile terminal design, in particular to a mobile terminal.

Background

With the diversification of user requirements, more and more mobile terminals enter people's lives, such as mobile phones and tablet computers. At present, mobile terminals have more and more functions, and generally have a camera shooting function, so that the shooting requirements of users can be met. The shooting function of the mobile terminal is usually performed by a camera module of the mobile terminal, and the camera 10 of the camera module is usually disposed on a frame 30 at the top end of the mobile terminal outside the display screen 20, as shown in fig. 1.

The frame 30 at the top of the mobile terminal is wide, so that enough space needs to be provided for arranging the camera 10. Along with the continuous improvement of user requirements, the performance of the mobile terminal is more and more optimized, and the more prominent expression is that the screen of the current mobile terminal is more and more large, and even a full-screen mobile terminal appears. On the premise that the overall size of the mobile terminal is determined, the area occupied by the display screen is larger and larger, so that the frame 30 is narrower and narrower, and finally the frame 30 does not have enough space to arrange the cameras 10.

In order to ensure the arrangement of the cameras 10 and increase the screen occupation ratio of the mobile terminal as much as possible, the current mobile terminal is provided with holes on the display screen to arrange the cameras, and the arrangement of the cameras on the display screen can affect the display effect of the mobile terminal and the use experience of a user. More importantly, the camera still occupies the layout area of the display screen, and the development of the mobile terminal towards a large screen ratio is still influenced.

Disclosure of Invention

The invention discloses a mobile terminal, which aims to solve the problem that the arrangement of cameras can influence the development of the mobile terminal towards a large screen ratio direction.

In order to solve the problems, the invention adopts the following technical scheme:

the utility model provides a mobile terminal includes casing, camera and sets up actuating mechanism in the casing, the perforation has been seted up to the frame of casing, actuating mechanism includes drive main part and elastic expansion piece, be provided with the setting element in the inner chamber, elastic expansion piece is compressed the camera with between the setting element, elastic expansion piece be used for to the camera is applyed and is made it wear out fenestrate elasticity, drive main part to the camera is applyed and is made it pass it is retracted extremely traction force in the inner chamber.

The technical scheme adopted by the invention can achieve the following beneficial effects:

the mobile terminal disclosed by the invention can realize the work of the mobile terminal through the position conversion of the camera on the premise of ensuring that the mobile terminal has the shooting function, and the arrangement of the camera does not occupy the area on the mobile terminal for arranging the display screen, so that the further increase of the screen occupation ratio of the mobile terminal is not limited. Therefore, the mobile terminal disclosed by the embodiment of the invention can solve the problem that the arrangement of the cameras in the prior art can influence the development of the mobile terminal towards the large screen ratio direction.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a partial structural diagram of a typical mobile terminal in the prior art;

fig. 2 is a schematic partial structure diagram of a mobile terminal according to an embodiment of the present invention;

fig. 3 is a schematic view of a partial structure of a mobile terminal according to an embodiment of the present invention when a camera is in one state;

fig. 4 is a schematic partial structural diagram of a mobile terminal according to an embodiment of the present invention when a camera is in another state.

Description of reference numerals:

10-camera, 20-display screen, 30-frame;

100-shell, 110-frame, 120-inner cavity, 130-positioning piece, 140-limiting piece, 200-camera, 300-driving mechanism, 310-driving body, 311-rope winding mechanism, 311 a-motor, 311 b-speed reducer, 311 c-reel, 312-pull rope, 313-guide wheel, 320-elastic expansion piece, 400-camera support, 410-limiting part, 420-strip-shaped hole, 430-chute, 500-first Hall device, 600-magnet, 700-second Hall device and 800-controller.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. 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 invention.

The technical solutions disclosed in the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Referring to fig. 2-4, an embodiment of the present invention discloses a mobile terminal, which includes a housing 100, a camera 200, and a driving mechanism 300.

The housing 100 is a supporting member of the mobile terminal, and provides a mounting base and protection for other members of the mobile terminal. The casing 100 has a frame 110 and an inner cavity 120, and the frame 110 has a through hole, which is communicated with the inner cavity 120.

The drive mechanisms 300 are each disposed within the interior chamber 120 of the housing 100. The camera 200 is movably disposed on the housing 100. The driving mechanism 300 is connected to the camera 200 and can drive the camera 200 to move. The camera 200 can pass through the through hole under the driving of the driving mechanism 300, so as to extend out of the mobile terminal, and of course, the camera 200 can also retract into the inner cavity 120 of the mobile terminal under the driving of the driving mechanism 300.

In this embodiment, the driving mechanism 300 includes a driving body 310 and an elastic expansion member 320. A positioning member 130 is disposed in the inner cavity 120. Specifically, the positioning element 130 may be a positioning block or a positioning piece fixed in the housing 100. The elastic expansion member 320 is compressed between the camera head 200 and the positioning member 130, and thus can apply an elastic force to the camera head 200 based on the positioning member 130. The elastic expansion member 320 serves to apply elastic force to the camera head 200 so as to penetrate through the perforation. Drive body 310 applies a pulling force to camera head 200 that retracts it through the perforations into lumen 120.

In a specific operation process, when the driving body 310 removes the traction force applied to the camera 200, in this case, the camera 200 is pushed out of the mobile terminal through the through hole by the elastic force of the elastic expansion member 320, as shown in fig. 3, and finally, the preparation for photographing is completed. After the user finishes shooting, traction force is applied by manipulating the driving body 310, so that the camera 200 is pulled into the inner cavity 120 through the through hole against the elastic force applied to the camera by the elastic telescopic member 320, and then the retraction of the camera 200 is realized, as shown in fig. 4.

As can be seen from the above working process, the mobile terminal disclosed in the embodiment of the present invention can realize its operation by switching the position of the camera 200 (from inside the housing 100 to outside the housing 100 and from outside the housing 100 to inside the housing 100) on the premise that the mobile terminal has the shooting function. The arrangement of the camera 200 does not occupy the area of the mobile terminal where the display screen is arranged, and further increase of the screen occupation ratio of the mobile terminal is not limited. Therefore, the mobile terminal disclosed by the embodiment of the invention can solve the problem that the arrangement of the camera in the prior art can influence the development of the mobile terminal towards the large screen ratio direction.

Meanwhile, the traction force applied to the camera 200 by the driving body 310 is removed during the extension of the camera 200, and in this case, the camera 200 is under the elastic force of the elastic expansion piece 320, and is extended out of the mobile terminal from the through hole under the pushing of the elastic force. In this case, the camera 200 is supported by the elastic force of the elastic expansion piece 320 after being extended, and if the mobile terminal falls, the elastic expansion piece 320 buffers the collision at the moment when the camera 200 touches the ground, so that the collision strength of the camera 200 can be relieved. Therefore, in the mobile terminal disclosed in the embodiment of the present invention, the driving mechanism 300 can also protect the camera 200.

As described above, the driving body 310 is used to apply the traction force, and the driving body 310 has various structures. For example, the driving body 310 may be a link driving mechanism, and may be a micro hydraulic part or a micro pneumatic part. Of course, the driving body 310 may have a certain degree of freedom after the pulling force is removed, so as to be able to adapt to the movement of the camera 200 when being driven by the elastic expansion piece 320.

Referring to fig. 3 to 4 again, the embodiment of the present invention discloses a driving body 310, and the disclosed driving body 310 may include a rope winding mechanism 311 and a pulling rope 312 partially wound around the rope winding mechanism 311, wherein the pulling rope 312 is connected to the camera 200 and applies a traction force to the camera 200. In a specific working process, when the rope winding mechanism 311 is facing to one direction (which may be regarded as forward rotation), the rope winding mechanism 311 winds up the rope, so that more parts of the pulling rope 312 are wound, the pulling rope 312 applies traction force after being tensioned, and the elastic force applied by the elastic expansion piece 320 can be overcome, so that the camera 200 retracts into the inner cavity 120 of the mobile terminal. When the winding mechanism 311 rotates in the other opposite direction (which may be considered as reverse rotation), the winding mechanism 311 releases the rope, and further releases more parts of the pulling rope 312, and the pulling force is removed after the pulling rope 312 is released, in this case, the elastic force applied by the elastic expansion member 320 pushes the camera 200 out of the mobile terminal.

In this embodiment, the structure of the rope winding mechanism 311 may be various, as long as the rope winding and unwinding mechanism can wind or unwind the rope 312 in the rotation process of the winding and unwinding rope. Referring to fig. 3, in a specific embodiment, the rope winding mechanism 311 may include a motor 311a, a speed reducer 311b, and a reel 311c, wherein the reel 311c is drivingly connected to the motor 311a through the speed reducer 311 b. The motor 311a can rotate bidirectionally, thereby realizing the winding and unwinding of the reel 311 c. Specifically, the reducer 311b may be a gear reducer. To improve the rotational accuracy, the motor 311a may be a stepping motor.

In order to stably pull the camera 200, the pulling rope 312 may be partially wound around the rope winding mechanism 311, and two ends of the pulling rope 312 may be respectively fixed to two ends of the bottom edge of the camera 200. In the process of retracting and releasing the pull rope 312, the two ends of the pull rope 312 can pull the two ends of the bottom edge of the camera 200, so that the camera 200 can move more stably. The rotation of the rope winding mechanism 311 can realize simultaneous rope winding and unwinding at two ends of the rope 312, and there are various rope winding manners for achieving the above purpose, which are conventional technical means in the art and will not be described herein. It should be noted that the bottom edge of the camera head 200 refers to the edge of the end of the camera head 200 that is farther from the perforation when the camera head is retracted into the cavity 120.

In a more preferable aspect, the mobile terminal disclosed in the embodiment of the present invention may further include a guide wheel 313. Both ends of the pulling rope 312 can be wound around the guide wheel 313 and fixed to both ends of the bottom edge of the camera 200. The guide wheel 313 is more favorable for adjusting the pulling force application direction of the pulling rope 312. Specifically, the rope sections of the pulling rope 312 between the camera 200 and the two guide wheels 313 are parallel to the moving direction of the camera 200. The routing manner enables both ends of the pulling rope 312 to apply a traction force along the moving direction of the camera 200, which is undoubtedly beneficial to more accurately moving the camera 200 and avoiding deviation thereof.

In this embodiment, the elastic expansion member 320 may be an elastic rubber block, an elastically bending metal sheet, or an expansion spring. The specific structure and kind of the elastic expansion elements 320 are not limited in this embodiment, and the number of the elastic expansion elements 320 is not limited in this embodiment.

When the elastic expansion member 320 is an expansion spring, the number of the elastic expansion members 320 may be two, and the two elastic expansion members 320 may be respectively compressed between the positioning member 130 and the bottom edge of the camera head 200. The rope section of the pulling rope 312 between the camera 200 and the two guide wheels 313 can pass through the corresponding elastic extensible members 320 respectively, and this assembly mode is not only beneficial to the stable extension and contraction of the elastic extensible members 320, but also beneficial to the elastic extensible members 320 to apply more balanced elasticity to the camera 200, so as to ensure that the elastic extensible members 320 extend more stably, and avoid the situation that the camera 200 deviates from the moving direction due to the telescopic deformation of the elastic extensible members 320.

Of course, the elastic expansion member 320 may be a cylindrical elastic expansion member, in which case, the string 312 may be located at a string section between the camera 200 and the two guide wheels 313, or may pass through the corresponding elastic expansion members 320. Of course, the elastic expansion element 320 may also be assembled in other ways, and the upper section is only a preferred embodiment.

The mobile terminal disclosed in the embodiment of the present invention may further include a camera support 400, the camera 200 is mounted on the camera support 400, and the camera support 400 is connected to the driving mechanism 300. The driving mechanism 300 is indirectly connected to the camera 200 through the camera mount 400. The driving mechanism 300 drives the camera support 400 to indirectly drive the camera 200 to move. The camera bracket 400 can facilitate the assembly of the camera 200. Generally, the camera support 400 has a frame structure, and can also play a role in protecting the camera 200.

The camera bracket 400 may be provided with a limiting portion 410, and the limiting portion 410 is used for limiting and matching with a perforated inner side port in a state that the camera 200 extends out of the perforation, so that excessive movement of the camera 200 can be avoided. In the process that the camera 200 is driven to extend, when the camera 200 extends to a position, the limiting part 410 can be in limiting fit with the inner side port of the through hole. It should be noted that the inner port refers to a port through which the bore is closer to the inner cavity 120. The bore has an inner port and an outer port, the outer port being the other port of the bore, the outer port being a greater distance from the inner lumen 120 than the inner port.

In an optimal scheme, the limiting part 410 can be sealed and plugged between the edge of the inner port of the through hole and the camera support 400, in this case, the limiting part 410 not only can play a limiting role, but also can realize the sealing and plugging between the camera support 400 and the inner wall of the through hole, and achieve better dustproof and waterproof purposes. The structure of the limiting portion 410 has various structures, and in a specific embodiment, the limiting portion 410 can be a limiting sheet, which is thinner, so that the occupied space of the limiting portion 410 can be reduced.

The mobile terminal disclosed in the embodiment of the present invention may implement control of the driving main body 310 in various ways. Referring to fig. 3 and 4 again, in a specific implementation manner, the mobile terminal disclosed in the embodiment of the present invention may further include a first hall device 500, a magnet 600 and a controller 800, wherein the magnet 600 is disposed on the camera 200 and moves with the camera 200, and specifically, the magnet 600 may be a magnet. The first hall device 500 is disposed at an inner side of the bezel 110 (i.e., one side of the bezel 110 closer to the inner cavity 120 and the other side of the bezel 110 is located outside the mobile terminal), the controller 800 is connected to the first hall device 500, and the controller 800 can control the driving body 310 to be closed according to a magnetic flux change of the magnet 600 sensed by the first hall device 500.

During the process of extending the camera 200, the camera 200 gradually approaches the frame 110 and finally extends out of the through hole. In this process, the magnet 600 gradually approaches the first hall device 500 along with the camera 200, the magnetic flux of the magnet 600 that can be sensed by the first hall device 500 changes greatly, when the limiting portion 410 is in limiting fit with the inner port of the through hole or the driving main body 310 pushes the camera 200 to the protruding limit position, the magnetic flux of the magnet 600 that can be sensed by the first hall device 500 does not change any more (that is, the magnetic flux changes to zero) or the magnetic flux changes little (for example, smaller than a threshold value preset by a designer), in this case, the controller 800 controls the driving main body 310 to close accordingly, and finally the driving of the camera 200 stops. When the driving body 310 includes the winding mechanism 311 and the pulling rope 312, the controller 800 controls the winding mechanism 311 to stop the reverse rotation.

Of course, if the magnetic flux variation of the magnet 600 sensed by the first hall device 500 is large (for example, the magnetic flux is greater than zero or the magnetic flux variation is greater than the threshold value preset by the designer), it indicates that the camera 200 is not extended in place, and in this case, the controller 800 still controls the driving main body 310 to maintain the driving operation state.

Similarly, in a preferred embodiment, the mobile terminal disclosed in the embodiment of the present invention may further include a second hall device 700 connected to the controller 800, the second hall device 700 and the first hall device 500 are sequentially arranged in the moving direction of the camera 200, the first hall device 500 is disposed between the second hall device 700 and the frame 110, and the controller 800 controls the driving main body 310 to be turned off according to the magnetic flux change of the magnet 600 sensed by the second hall device 700.

In the process of retracting the camera 200, the magnet 600 gradually approaches the second hall device 700 along with the camera 200, the magnetic flux of the magnet 600 sensed by the second hall device 700 is always changed, when the camera 200 is fully retracted into the inner cavity 120, and the camera 200 cannot drive the camera 200 to further retract through other component positioning or the driving mechanism 300 (that is, the retraction limit position is reached), the magnetic flux of the magnet 600 sensed by the second hall device 700 is no longer changed (that is, the magnetic flux changes to zero) or the magnetic flux changes are small (for example, smaller than a threshold value preset by a designer), in this case, the controller 800 controls the driving main body 310 to close accordingly, and finally the driving of the camera 200 is stopped. When the drive main body 310 includes the winding mechanism 311 and the pull cord 312, the controller 800 controls the winding mechanism 311 to stop the forward rotation.

When the magnetic flux of the magnet 600 sensed by the second hall device 700 is changed greatly (for example, the magnetic flux is greater than zero or the magnetic flux change is greater than the threshold preset by the designer), the controller 800 controls the driving main body 310 to maintain the driving operation state accordingly.

Of course, it should be noted that, when the magnet 600 moves, the magnet 600 gradually approaches the first hall device 500, and then the controller 800 controls the driving body 310 according to the sensing result of the first hall device 500. The magnet 600 is gradually close to the second hall device 700, and the controller 800 controls the driving body 310 based on the sensing result of the second hall device 500.

There are various ways to achieve the above object, for example, a shielding member may be provided between the first hall device 500 and the second hall device 700, and when the magnet 600 passes through the shielding member to gradually approach the first hall device 500, the second hall device 700 does not sense the magnetic flux of the magnet 600, in which case the controller 800 can only control the sensing result of the first hall device 500. Also, when the magnet 600 passes through the shield to be gradually close to the second hall device 700, the first hall device 500 does not sense the magnetic flux of the magnet 600, and in this case, the controller 800 can control only the sensing result of the second hall device 700.

Of course, the controller 800 may select a control basis from the sensing results of the first hall device 500 and the second hall device 700 according to the position of the magnet 600. For example, when the magnet 600 is close to the first hall device 500, the controller 800 uses the sensing result of the first hall device 500 as the control basis; when the magnet 600 is close to the second hall device 700, the controller 800 controls based on the sensing result of the second hall device 700.

The camera 200 can move by the driving of the driving mechanism 300. In general, the camera bracket 400 is slidably engaged with the housing 100, so as to drive the camera 200 to move relative to the housing 100. Specifically, the camera bracket 400 may be provided with a sliding groove 430, the sliding groove 430 extends along the moving direction of the camera 200, the housing 100 includes a guide rail disposed in the inner cavity 120, and the sliding groove 430 is in sliding fit with the guide rail. Of course, the guide rails may be disposed on the camera bracket 400, and correspondingly, the sliding grooves 430 may be disposed on the surface inside the inner cavity 120.

In the preferred scheme, can set up the bar hole 420 that extends along the moving direction of camera 200 on the camera support 400, set up stopper 140 in the inner chamber 120, stopper 140 sets up in bar hole 420, and with the spacing cooperation in bar hole 420's both ends. Under this condition, the both ends of bar hole 420 are through the spacing cooperation with stopper 140, realize the spacing of removing camera 200, avoid camera 200 to take place excessive movement.

The mobile terminal disclosed by the embodiment of the invention can be equipment with a camera and a display screen, such as a mobile phone, a tablet computer, an electronic book reader, wearable equipment and the like, and the specific type of the mobile terminal is not limited by the embodiment of the invention.

In the above embodiments of the present invention, the difference between the embodiments is mainly described, and different optimization features between the embodiments can be combined to form a better embodiment as long as they are not contradictory, and further description is omitted here in view of brevity of the text.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (9)

1. A mobile terminal is characterized by comprising a shell (100), a camera (200) and a driving mechanism (300) arranged in an inner cavity (120) of the shell (100), wherein a through hole is formed in a frame (110) of the shell (100), the driving mechanism (300) comprises a driving main body (310) and an elastic telescopic piece (320), a positioning piece (130) is arranged in the inner cavity (120), the elastic telescopic piece (320) is compressed between the camera (200) and the positioning piece (130), the elastic telescopic piece (320) is used for applying elastic force for enabling the camera (200) to penetrate out of the through hole, and the driving main body (310) applies traction force for enabling the camera (200) to penetrate through the through hole and retract into the inner cavity (120);

the driving body (310) comprises a rope winding mechanism (311) and a pulling rope (312) partially wound on the rope winding mechanism (311), and the pulling rope (312) is connected with the camera (200) and can apply the traction force to the camera (200) along with the rotation of the rope winding mechanism (311);

the part of the pull rope (312) is wound on the rope winding mechanism (311), and two ends of the pull rope (312) are respectively fixed at two ends of the bottom edge of the camera (200);

the mobile terminal further comprises guide wheels (313), two ends of the pulling rope (312) are wound around the guide wheels (313) and fixed to two ends of the edge of the bottom of the camera (200) respectively, and rope sections, located between the camera (200) and the two guide wheels (313), of the pulling rope (312) are parallel to the moving direction of the camera (200).

2. The mobile terminal according to claim 1, wherein the elastic expansion members (320) are all expansion springs, the number of the elastic expansion members (320) is two, the two elastic expansion members (320) are respectively compressed between the positioning member (130) and the bottom edge of the camera (200), and the pulling rope (312) is located at a rope section between the camera (200) and the two guide wheels (313) and respectively passes through the corresponding elastic expansion member (320).

3. The mobile terminal of claim 1, further comprising a camera holder (400), wherein the camera (200) is mounted on the camera holder (400), and wherein the camera holder (400) is connected to the driving mechanism (300).

4. A mobile terminal according to claim 3, wherein the camera holder (400) is provided with a limiting portion (410), and the limiting portion (410) is configured to be in limiting fit with an inner side port of the through hole in a state that the camera (200) protrudes out of the through hole.

5. The mobile terminal according to claim 4, wherein the limiting part (410) is a limiting sheet, and the limiting part (410) is sealed and sealed between the edge of the inner port of the through hole and the camera bracket (400).

6. The mobile terminal of claim 1, further comprising a first hall device (500), a magnet (600), and a controller (800), wherein the magnet (600) is disposed on the camera (200) and moves with the camera (200), the first hall device (500) is disposed inside the bezel (110), the controller (800) is connected to the first hall device (500), and the controller (800) controls the driving body (310) to be turned off according to a variation of magnetic flux sensed by the first hall device (500).

7. The mobile terminal of claim 6, further comprising a second Hall device (700) connected to the controller (800), wherein the second Hall device (700) and the first Hall device (500) are sequentially arranged in a moving direction of the camera (200), the first Hall device (500) is disposed between the second Hall device (700) and the bezel (110), and the controller (800) controls the driving body (310) to be turned off according to a magnetic flux variation sensed by the second Hall device (700).

8. The mobile terminal according to claim 3, wherein the camera support (400) is provided with a strip-shaped hole (420) extending along a moving direction of the camera (200), the inner cavity (120) is provided with a limiting block (140), and the limiting block (140) is disposed in the strip-shaped hole (420) and is in limiting fit with two ends of the strip-shaped hole (420).

9. A mobile terminal according to claim 3, wherein the camera support (400) is provided with a slide groove (430), the housing (100) comprises a guide rail arranged in the inner cavity (120), the slide groove (430) is in sliding engagement with the guide rail, and the slide groove (430) extends in the direction of movement of the camera (200).

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