CN110035156B - Terminal equipment - Google Patents

Abstract

The present invention provides a terminal device, including: a driven member; the transmission mechanism comprises a lifting support and a lifting rod, the first end of the lifting support is connected with the first end of the lifting rod, the second end of the lifting support is connected with the second end of the lifting rod, and the driven part is connected with the first end of the lifting support; the lifting rod is provided with an inclined clamping groove, and the distance between the inclined clamping groove and the first end of the lifting rod is greater than the distance between the inclined clamping groove and the second end of the lifting rod; the driving mechanism comprises a power input rod, a telescopic taper pin structure is arranged at the first end of the power input rod, and the taper pin structure is connected with the inclined plane clamping groove in a clamping mode. The problem of the terminal that possesses telescopic camera among the solution prior art that this scheme can be fine has motor overload or transmission structure to receive the risk of strikeing and damaging.

Description

Terminal equipment

Technical Field

The invention relates to the technical field of terminals, in particular to a terminal device.

Background

With the rapid development of the full-screen mobile phone technology, the front cameras of a plurality of mobile phones are telescopic, so that the appearance is more and more exquisite. When the telescopic camera is used, a power motor is needed to provide power, and then the lifting mechanism is driven by the transmission mechanism to drive the camera to extend out.

However, the existing telescopic camera protrudes out of the outer surface of the mobile phone when in use, and if the existing telescopic camera is blocked when extending out, an internal motor is overloaded and damaged; in addition, when the mobile phone is subjected to external impact, the mobile phone can also form great impact force on an internal transmission mechanism, and the internal transmission mechanism is not protected by overload, so that the internal transmission mechanism can be deformed or damaged, and the expansion and contraction of the camera are abnormal.

As can be seen from the above, the terminal with the retractable camera in the prior art has a risk of damage due to overload of the motor or impact on the transmission structure.

Disclosure of Invention

The invention aims to provide terminal equipment to solve the problem that a terminal with a telescopic camera in the prior art has the risk of damage caused by overload of a motor or impact on a transmission structure.

In order to solve the technical problem, the invention is realized as follows:

an embodiment of the present invention provides a terminal device, including:

a driven member;

the transmission mechanism comprises a lifting support and a lifting rod, the first end of the lifting support is connected with the first end of the lifting rod, the second end of the lifting support is connected with the second end of the lifting rod, and the driven part is connected with the first end of the lifting support; the lifting rod is provided with an inclined clamping groove, and the distance between the inclined clamping groove and the first end of the lifting rod is greater than the distance between the inclined clamping groove and the second end of the lifting rod;

the driving mechanism comprises a power input rod, a telescopic taper pin structure is arranged at the first end of the power input rod, and the taper pin structure is connected with the inclined plane clamping groove in a clamping mode.

In the embodiment of the invention, the driven part is arranged; the transmission mechanism comprises a lifting support and a lifting rod, the first end of the lifting support is connected with the first end of the lifting rod, the second end of the lifting support is connected with the second end of the lifting rod, and the driven part is connected with the first end of the lifting support; the lifting rod is provided with an inclined clamping groove, and the distance between the inclined clamping groove and the first end of the lifting rod is greater than the distance between the inclined clamping groove and the second end of the lifting rod; the driving mechanism comprises a power input rod, a telescopic taper pin structure is arranged at the first end of the power input rod, and the taper pin structure is connected with the inclined plane clamping groove in a clamping manner; the driven part can be blocked in the extending process, the rotating torque force of the motor is increased, and when the preset upper limit threshold value is reached, the component force of the thrust given by the driving mechanism pushes the angle pin structure to contract inwards, so that the connection between the transmission mechanism and the driving mechanism is disconnected, and the motor is unloaded to protect the motor; when the mechanism is impacted by the outside, the angle pin structure can be retracted by the instant impact force, the connection between the transmission mechanism and the driving mechanism is disconnected, the external impact force is naturally released, the impact force is effectively buffered or released, and the transmission mechanism is effectively protected; the problem of the terminal that possesses telescopic camera among the prior art has the motor to transship or transmission structure receives the risk of assaulting and damaging is solved fine.

Drawings

Fig. 1 is a schematic structural diagram of a terminal device according to an embodiment of the present invention;

fig. 2 is an enlarged schematic view of the structure within the circle in fig. 1.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present 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 present invention provides a terminal device, as shown in fig. 1 and 2, for solving the problem that a terminal with a telescopic camera in the prior art has a risk of damage caused by overload of a motor or impact on a transmission structure, and the terminal device includes:

a driven member 1;

the transmission mechanism 2 comprises a lifting support 3 and a lifting rod 4, a first end of the lifting support 3 is connected with a first end of the lifting rod 4, a second end of the lifting support 3 is connected with a second end of the lifting rod 4, and the driven part 1 is connected with the first end of the lifting support 3; the lifting rod 4 is provided with an inclined clamping groove 5, and the distance between the inclined clamping groove 5 and the first end of the lifting rod 4 is larger than the distance between the inclined clamping groove 5 and the second end of the lifting rod 4 (so that when overload is generated or external impact force is applied, relative displacement is generated between the transmission mechanism and the driving mechanism, the motor of the driving mechanism is unloaded to protect the motor, or the external impact force is naturally released to effectively protect the transmission mechanism);

actuating mechanism 6, actuating mechanism 6 includes power input rod 7, the first end of power input rod 7 is equipped with telescopic taper pin structure 8, taper pin structure 8 with 5 joints in inclined plane joint groove link to each other (can guarantee the joint strength between drive mechanism and the actuating mechanism when normal use like this).

The terminal equipment provided by the embodiment of the invention is provided with a driven part; the transmission mechanism comprises a lifting support and a lifting rod, the first end of the lifting support is connected with the first end of the lifting rod, the second end of the lifting support is connected with the second end of the lifting rod, and the driven part is connected with the first end of the lifting support; the lifting rod is provided with an inclined clamping groove, and the distance between the inclined clamping groove and the first end of the lifting rod is greater than the distance between the inclined clamping groove and the second end of the lifting rod; the driving mechanism comprises a power input rod, a telescopic taper pin structure is arranged at the first end of the power input rod, and the taper pin structure is connected with the inclined plane clamping groove in a clamping manner; the driven part can be blocked in the extending process, the rotating torque force of the motor is increased, and when the preset upper limit threshold value is reached, the component force of the thrust given by the driving mechanism pushes the angle pin structure to contract inwards, so that the connection between the transmission mechanism and the driving mechanism is disconnected, and the motor is unloaded to protect the motor; when the mechanism is impacted by the outside, the angle pin structure can be retracted by the instant impact force, the connection between the transmission mechanism and the driving mechanism is disconnected, the external impact force is naturally released, the impact force is effectively buffered or released, and the transmission mechanism is effectively protected; the problem of the terminal that possesses telescopic camera among the prior art has the motor to transship or transmission structure receives the risk of assaulting and damaging is solved fine.

The number of the taper pin structures may be plural, and the taper pin structures are symmetrically arranged on the driving structure, but not limited thereto. And the driven part and the transmission mechanism can be connected through a bracket of the driven part. The carrier of the driven part can be connected to the housing of the terminal device by means of guide rails.

Specifically, as shown in fig. 1 and 2, a first end of the power input rod 7 is provided with a mounting hole 9; the angle pin structure 8 is arranged in the mounting hole 9.

More specifically, as shown in fig. 1 and 2, the radial length of the first shaft portion 10 of the lifting rod 4 is greater than the radial length of the other shaft portions 11 of the lifting rod 4; the first rod body part 10 is a rod body part provided with the inclined clamping groove 5 on the lifting rod 4; the other shaft portion 11 is the other shaft portion of the lifting rod 4 except the first shaft portion 10. The strength of the lifting rod can be guaranteed.

As shown in fig. 1 and 2, the angle pin structure 8 includes an angle pin member 12, an elastic member 13 and a fixing member 14; the tongue portion of the inclined pin piece 12 is connected with the inclined surface clamping groove 5 in a clamping mode, the tail portion of the inclined pin piece 12 is connected with the first end of the elastic piece 13, the second end of the elastic piece 13 is connected with the first end of the fixing piece 14, and the second end of the fixing piece 14 is fixed in the mounting hole 9.

Specifically, the tail part of the angle pin piece is located in the mounting hole, and the tongue part of the angle pin piece is exposed out of the first end of the mounting hole; the mounting hole is internally provided with a fixing piece and an elastic piece, the fixing piece is arranged at a second end opposite to the first end in the mounting hole, and the elastic piece is arranged between the fixing piece and the bottom of the inclined pin piece. The mounting hole can be a blind hole or a through hole. When the mounting hole is a through hole, the fixing piece can be connected with the hole wall.

In the embodiment of the present invention, the compression degree of the elastic member can be adjusted by moving the fixing member, the fixing member can be an adjusting screw, and the elastic member can be a spring, but not limited thereto. When the acting force given by the first rod body part on the inclined pin piece reaches a preset threshold value, the inclined pin piece moves towards the inside (in the mounting hole) of the power input rod and is separated from the inclined plane clamping groove.

Specifically, as shown in fig. 1 and 2, a limiting boss 15 is arranged at the tail part of the angle pin member 12; the first end of the mounting hole 9 is provided with a limiting convex block 16 along the radial direction of the mounting hole 9, the tongue portion of the angle pin 12 passes through the limiting convex block 16 and is exposed out of the first end of the mounting hole 9, and the tongue portion of the angle pin 12 is in sliding connection with the limiting convex block 16. Therefore, the normal telescopic movement of the angle pin piece in the mounting hole can be ensured.

In the embodiment of the invention, the number of the limiting lugs is multiple, and the limiting lugs are arranged at intervals along the radial direction of the mounting hole; or the limiting projection is an annular structure annularly arranged at the first end of the mounting hole along the radial direction of the mounting hole, and is not limited herein.

Specifically, as shown in fig. 1 and 2, the tongue portion of the cam pin 12 is a wedge-shaped portion 17, and the inclined surface of the wedge-shaped portion 17 faces a first end of the lifting rod 4 or a second end of the lifting rod 4 opposite to the first end; the shape of the inclined plane clamping groove 5 is matched with the wedge-shaped part 17. Thus, the inclined pin piece can be ensured to retract into the mounting hole when the acting force given by the lifting rod reaches the preset threshold value.

As shown in fig. 1 and 2, the power input rod 7 includes a first connecting member 18, the first connecting member 18 is sleeved on the first rod portion 10 of the lifting rod 4, which is provided with the inclined plane clamping groove 5, and the mounting hole 9 is provided on the first connecting member 18. Therefore, the connection strength between the transmission mechanism and the driving mechanism can be ensured.

In an embodiment of the present invention, the first connecting member is a cylindrical structure or a polygonal cylindrical structure having a plurality of side walls, and a shape of the first rod body portion of the lifting rod on which the inclined plane clamping groove is disposed is adapted to a shape of the first connecting rod, but not limited thereto.

Specifically, as shown in fig. 1, the lifting bracket 3 includes an upper limiting member 19, a second connecting member 20 and a lower limiting member 21, a first end of the second connecting member 20 is connected to the upper limiting member 19, a second end of the second connecting member 20 is connected to the lower limiting member 21, and the lifting rod 4 is connected to the upper limiting member 19 and the lower limiting member 21, respectively.

The second connecting member may be parallel to the lifting rod, or may not be parallel to the lifting rod, or may be an integral structure, which is not limited herein.

When the second connecting member and the lifting rod are parallel, specifically, the lifting bracket 3 may include an upper limiting member 19, a second connecting member 20 and a lower limiting member 21, a first end of the second connecting member 20 is connected to a first end of the upper limiting member 19, a second end of the second connecting member 20 is connected to a first end of the lower limiting member 21, a first end of the lifting rod 4 is connected to a position on the upper limiting member 19 except the first end, and a second end of the lifting rod 4 is connected to a position on the lower limiting member 21 except the first end; wherein, the first ends of the upper limiting piece 19 and the second connecting piece 20 form the first end of the lifting bracket 3, the second ends of the lower limiting piece 21 and the second connecting piece 20 form the second end of the lifting bracket 3, and the driven part 1 is connected with the first end of the second connecting piece 20. Therefore, the strength of the connecting part of the transmission mechanism and the driven part can be ensured, and the stability of the transmission mechanism on the driving force of the driven part is ensured.

Further, as shown in fig. 1, the terminal device further includes a limiting mechanism 22, the limiting mechanism 22 is fixed in a housing 23 of the terminal device, the limiting mechanism 22 has an accommodating space, the transmission mechanism 2 is located in the accommodating space, and the driving mechanism 6 can drive the transmission mechanism 2 and the driven component 1 to move relative to the limiting mechanism 22. Therefore, after the driving mechanism and the transmission mechanism are unloaded, the driving mechanism can return to the original position, and the relative position relation and the connection relation between the driving mechanism and the transmission mechanism before unloading are restored, so that subsequent normal use is realized.

Specifically, as shown in fig. 1, the limiting mechanism 22 includes: the driving device comprises a first limiting piece 24 and a second limiting piece 25, wherein a notch 26 for the driven part 1 to extend out of the shell 23 is formed in the shell 23; the distance between the first limiting member 24 and the opening 26 is smaller than the distance between the second limiting member 25 and the opening 26, and the space between the first limiting member 24 and the second limiting member 25 constitutes the accommodating space.

The first limiting part can limit the limit position of the first connecting piece of the power input rod moving towards the opening in the shell of the terminal, and the second limiting part can limit the limit position of the first connecting piece of the power input rod moving away from the opening in the shell of the terminal.

Furthermore, at least one end corner of the rod body part, which is protruded in the radial direction relative to the other rod body parts, of the first rod body part is of a chamfer structure.

The pin can be conveniently released and then returned, namely the driving mechanism can return after the driving mechanism and the transmission mechanism are unloaded, and the relative position relation and the connection relation between the driving mechanism and the transmission mechanism before unloading are recovered, so that subsequent normal use is realized.

In the embodiment of the present invention, the driven component includes at least one of a front camera, a rear camera, and a flash, but is not limited thereto.

In the following, the terminal device provided by the embodiment of the present invention is further described, in which the driven component is a camera as an example, the elastic element is a spring as an example, and the fixing element is an adjusting screw as an example.

In order to solve the problem that an overload motor or an extension transmission system is damaged by impact, an embodiment of the present invention provides a terminal device, as shown in fig. 1 and fig. 2, mainly including: in the transmission mechanism 2, a telescopic taper pin structure 8 (also called as an overload protection device) is added, when a camera (driven part 1) rises and meets resistance, the rotating torque of a motor in the driving mechanism 6 is larger and larger, and when the rotating torque reaches a preset upper limit value, the component force of the thrust given by the driving mechanism 6 in the horizontal direction (the axial direction of an elastic part 13) pushes a taper pin part 12 to retract, so that the connection with the lifting rod 4 is disconnected, and the motor is unloaded to protect the motor; when external impact is applied, the inclined pin piece 12 is retracted by instant impact force, the lifting rod 4 and the power input rod 7 are disconnected, the external impact force is naturally released, the impact force is effectively buffered or released, and the transmission mechanism 2 is effectively protected.

Specifically, the assembly method and the working principle of the structure can be as follows:

1) assembling mode

The power input rod 7 is arranged on the lifting rod 4 through an inclined pin piece 12;

the angle pin piece 12 is pressed on the power input rod 7 through a spring (an elastic piece 13) at the tail part;

the tail end of the spring (the elastic piece 13) is fixed by an adjusting screw (a fixing piece 14);

the adjusting screw (fixing piece 14) is connected to the power input rod 7 through threads;

the lifting rod 4 is fixed on the lifting bracket 3 through a screw;

the upgrading bracket 3 is fixed on a bracket of the camera (the driven part 1) through screws;

the camera mount is attached to the housing 23 by guide rails.

2) The working principle is as follows:

the power input rod 7 inputs a lifting thrust, and the thrust pushes the lifting rod 4 to lift through an upper inclined plane (an inclined plane facing to the first end of the lifting rod 4) of the inclined pin piece 12, so that the lifting of the whole lifting rod 4 and the lifting support 3 is realized; otherwise, the speed is reduced;

when the camera is lifted, if the bracket of the camera is blocked, the lifting rod 4 cannot lift, and the power input rod 7 continuously inputs thrust, when the thrust input by the power input rod 7 reaches a preset upper limit value, the component force of the thrust in the horizontal direction overcomes the pressure of a spring (an elastic part 13), so that the inclined pin part 12 retracts, the connection between the power input rod 7 and the lifting rod 4 is disconnected, the unloading between the lifting rod 4 and the power input rod 7 is realized, and the motor is protected during overload; when the camera is completely lifted out and is severely impacted to overload the power input rod 7, the principle is the same as the working principle of the camera after being lifted and blocked, and the description is omitted;

when the lifting rod 4 is disconnected from the power input rod 7 due to overload, the whole lifting mechanism (the lifting rod 4 and the lifting support 3) moves to the position of the lower limiting block (the second limiting block 25) under the action of gravity (or manual action), and the lower limiting block limits the lifting support 3; the power input rod 7 continuously descends to realize return (the specific power input rod 7 can descend after the lifting rod 4 is unloaded, and is ready to return to realize the re-assembly with the lifting rod 4, namely the inclined pin piece 12 is inserted into the inclined plane clamping groove 5); in the process of returning the power input rod 7, the force applied to the inclined pin piece 12 overcomes the thrust of the spring (the elastic piece 13), so that the inclined pin piece 12 returns to the position which is in clamping fit with the inclined plane clamping groove 5 at first, the reconnection of the power input rod 7 and the lifting rod 4 is realized, and the operation of the whole mechanism is recovered to be normal.

Specifically, the length of the slope of the taper pin member 12 projected in the horizontal direction is longer than the length of the first body portion 10 projected in the horizontal direction.

Therefore, the scheme provided by the embodiment of the invention can effectively solve the problem that the transmission structure is easily damaged due to the fact that the telescopic camera is blocked in the extending process or impacted in the extending state, and can effectively buffer and release external impact force while ensuring normal transmission of the transmission mechanism, thereby effectively protecting the normal functions and performances of the transmission mechanism.

It should be noted that the solution provided by the embodiment of the present invention can be applied to a mobile phone product, and can also be applied to other products, but the present invention is not limited to any product that includes a mechanism similar to the transmission mechanism.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (12)

1. A terminal device, comprising:

a driven member;

the transmission mechanism comprises a lifting support and a lifting rod, the first end of the lifting support is connected with the first end of the lifting rod, the second end of the lifting support is connected with the second end of the lifting rod, and the driven part is connected with the first end of the lifting support; the lifting rod is provided with an inclined clamping groove, and the distance between the inclined clamping groove and the first end of the lifting rod is greater than the distance between the inclined clamping groove and the second end of the lifting rod;

the driving mechanism comprises a power input rod, a telescopic taper pin structure is arranged at the first end of the power input rod, and the taper pin structure is connected with the inclined plane clamping groove in a clamping mode.

2. The terminal device according to claim 1, wherein the first end of the power input rod is provided with a mounting hole; the angle pin structure is arranged in the mounting hole.

3. A terminal device according to claim 1, characterised in that the radial length of a first mast portion on the lifting mast is greater than the radial length of the other mast portions on the lifting mast;

the first rod body part is a rod body part provided with the inclined plane clamping groove on the lifting rod;

the other rod body part is the other rod body part except the first rod body part on the lifting rod.

4. The terminal device of claim 2, wherein the latch structure includes a latch member, a resilient member, and a fixed member;

the tongue portion of the taper pin piece is connected with the inclined plane clamping groove in a clamping mode, the tail portion of the taper pin piece is connected with the first end of the elastic piece, the second end of the elastic piece is connected with the first end of the fixing piece, and the second end of the fixing piece is fixed in the mounting hole.

5. The terminal equipment according to claim 4, wherein the tail part of the angle pin piece is provided with a limit boss;

the first end of the mounting hole is provided with a limiting lug along the radial direction of the mounting hole, the tongue part of the angle pin piece penetrates through the limiting lug and is exposed out of the first end of the mounting hole, and the tongue part of the angle pin piece is connected with the limiting lug in a sliding mode.

6. The terminal device according to claim 5, wherein the number of the limiting lugs is multiple and is arranged at intervals along the radial direction of the mounting hole;

or the limiting lug is an annular structure which is annularly arranged at the first end of the mounting hole along the radial direction of the mounting hole.

7. The terminal device of claim 4, wherein the tongue of the cotter is a wedge, and the bevel of the wedge faces a first end of the lifter or a second end of the lifter opposite the first end; the shape of the inclined plane clamping groove is matched with the wedge-shaped part.

8. The terminal device of claim 2, wherein the power input rod comprises a first connecting member, the first connecting member is sleeved on a first rod portion of the lifting rod, the first rod portion is provided with the inclined clamping groove, and the mounting hole is formed in the first connecting member.

9. The terminal device according to claim 1 or 3, wherein the lifting bracket comprises an upper limiting member, a second connecting member and a lower limiting member, a first end of the second connecting member is connected with the upper limiting member, a second end of the second connecting member is connected with the lower limiting member, and the lifting rod is respectively connected with the upper limiting member and the lower limiting member.

10. The terminal device according to claim 1, further comprising a limiting mechanism fixed in a housing of the terminal device, wherein the limiting mechanism has an accommodating space, the transmission mechanism is located in the accommodating space, and the driving mechanism can drive the transmission mechanism and the driven component to move relative to the limiting mechanism.

11. The terminal device of claim 10, wherein the limiting mechanism comprises: the shell is provided with a notch for the driven part to extend out of the shell;

the distance between the first limiting part and the opening is smaller than the distance between the second limiting part and the opening, and the space between the first limiting part and the second limiting part forms the accommodating space.

12. The terminal device according to claim 1, wherein the driven member includes at least one of a front camera, a rear camera, and a flash.

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