CN210246819U - Electronic device - Google Patents

Abstract

The utility model discloses an electronic equipment, it includes the casing, by drive device, actuating mechanism and flexible heat-conducting piece, the casing has through-hole and casing inner chamber, the through-hole with casing inner chamber intercommunication, actuating mechanism with by drive device links to each other, the actuating mechanism drive by drive device passes through the through-hole stretch out to outside the casing or return and contract extremely within the casing, the casing includes the radiating part, the one end of flexible heat-conducting piece with by drive device links to each other, the other end of flexible heat-conducting piece with the radiating part links to each other, at least part flexible heat-conducting piece can follow by drive device's removal and warp. The scheme can solve the problem that the driven device of the existing electronic equipment has poor heat dissipation effect.

Description

Electronic device

Technical Field

The utility model relates to a communication equipment technical field especially relates to an electronic equipment.

Background

With the increase of user demands, the performance of the current electronic devices is continuously optimized, wherein the more prominent expression is as follows: the screen occupation of electronic devices is getting larger. The large screen occupation ratio can cause that functional devices such as a camera and a receiver cannot be arranged in enough space on the board surface of the electronic equipment. Based on this, more and more electronic apparatuses employ functional devices (collectively referred to herein as driven devices) capable of being lifted, such as a lift-type camera, a lift-type receiver, and the like. In a specific working process, when the driven device needs to work, the driving mechanism can drive the driven device to extend out of the shell from the inner cavity of the shell of the electronic equipment; when the driven device is finished, the driving mechanism can drive the driven device to retract into the inner cavity of the shell, so that the driven device is hidden.

The driven device can generate more heat in the working process, and if the heat is not timely dissipated, the driven device can be caused to have higher temperature and influence on performance in the working process. Since the driven device needs to move relative to the housing of the electronic apparatus, the driven device does not have a reliable heat conduction structure. When the current driven device extends out of the shell to work, the driven device mainly depends on natural convection between the driven device and air to realize heat dissipation, the heat dissipation mode has poor effect, heat generated when the driven device works cannot be eliminated in time, and the normal work of the driven device can be influenced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an electronic equipment to there is the relatively poor problem of radiating effect by the drive device to solve present electronic equipment.

In order to solve the above problem, the utility model adopts the following technical scheme:

an electronic device, comprising:

the shell is provided with a through hole and a shell inner cavity, the through hole is communicated with the shell inner cavity, and the shell comprises a heat dissipation part;

the driving mechanism is connected with the driven device and drives the driven device to extend out of the shell or retract into the shell through the through hole;

one end of the flexible heat conducting piece is connected with the driven device, the other end of the flexible heat conducting piece is connected with the heat radiating part, and at least part of the flexible heat conducting piece can deform along with the movement of the driven device.

The utility model discloses a technical scheme can reach following beneficial effect:

the utility model discloses an electronic equipment has add flexible heat-conducting piece, and flexible heat-conducting piece has good deformability, consequently can take place deformation along with the removal by the drive device adaptivity, and then can not exert an influence to the removal by the drive device. Under this prerequisite, flexible heat-conducting member connects the heat dissipation portion of casing and driven device, and then can in time transmit the heat that produces in the driven device course of operation in the heat dissipation portion, finally dispel by the heat dissipation portion, reaches the purpose that the heat that produces in the driven device course of operation in time dispels.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it. In the drawings:

fig. 1 is a schematic structural diagram of an electronic device disclosed in an embodiment of the present invention when a driven device is in an extended state;

FIG. 2 is an enlarged schematic view of a cross-sectional view taken along line A-A of FIG. 1;

fig. 3 is a cross-sectional view of a flexible heat conducting member according to an embodiment of the present invention.

Description of reference numerals:

100-shell, 110-shell inner cavity, 120-heat dissipation part,

200-driven device, 210-device bracket, 211-bracket inner cavity, 220-device body, 221-camera, 222-flash lamp, 230-guide plate,

300-flexible heat conducting member, 310-first connecting section, 320-bending deformation section, 330-second connecting section, 340-flexible shell, 350-flexible cover plate and 360-flexible capillary structure.

Detailed Description

To make the purpose, technical solution and advantages of the present invention clearer, the following will combine the embodiments of the present invention and the corresponding drawings to clearly and completely describe the technical solution of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to 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. 1-3, an electronic device is disclosed, which includes a housing 100, a driven device 200, a driving mechanism, and a flexible heat-conducting member 300.

The housing 100 is a base member of the electronic apparatus, and the housing 100 can provide a mounting base for other components of the electronic apparatus. The housing 100 has a through hole communicating with the housing inner cavity 110, and the driven device 200 is movable relative to the housing 100, and is capable of switching positions outside the housing inner cavity 110 and the housing 100 through the through hole. In a general case, the casing 100 includes the center, and the through-hole can be seted up on the center, and of course, the through-hole can also be seted up in other positions of casing 100, the embodiment of the utility model provides a do not restrict the concrete position of seting up of through-hole.

The driving mechanism is connected to the driven device 200, and drives the driven device 200 to extend out of the housing 100 or retract into the housing 100 through the through hole. When the driven device 200 needs to work, the driving mechanism drives the driven device 200 to move relative to the casing 100 and finally extends out of the casing 100 through the through hole; when the driven device 200 is finished, the driving mechanism may drive the driven device 200 to move relative to the housing 100, and finally retract into the housing 100 through the through hole. The actuating mechanism can be hydraulic pressure extensible member, atmospheric pressure extensible member, screw mechanism, link structure etc. can drive the mechanism of being driven the motion of device 200, the embodiment of the utility model provides a do not restrict actuating mechanism's specific kind.

The driven device 200 generally refers to a functional device that needs to extend out of the housing 100 to perform work, and the driven device 200 may have a plurality of types, for example, the driven device 200 may include at least one of a camera 221, a flash 222, a receiver, an ambient light sensor, and a fingerprint identification module, and of course, the driven device 200 may also include other functional devices, which is not limited by the embodiment of the present invention.

In the embodiment of the present invention, the casing 100 includes the heat dissipation portion 120, and the heat dissipation portion 120 is generally a portion or an area of the casing 100 with good heat dissipation performance. In a specific embodiment, the heat dissipation portion 120 may be a metal middle frame support, which has a larger volume and a larger heat dissipation area, and thus has better heat dissipation performance.

The flexible heat-conductive member 300 has good deformability and can also exert a heat-conductive function. In the embodiment of the present invention, one end of the flexible heat conducting member 300 is connected to the driven device 200, and the other end of the flexible heat conducting member 300 is connected to the heat dissipating portion 120, so that the heat generated by the driving device 200 during the operation process is transmitted to the heat dissipating portion 120 through the flexible heat conducting member 300, and finally dissipated by the heat dissipating portion 120. At least a portion of the flexible heat-conducting member 300 can deform with the movement of the driven device 200, and thus can adapt to the position change of the driven device 200.

The embodiment of the utility model discloses electronic equipment adds flexible heat-conducting piece 300, and flexible heat-conducting piece 300 has good deformability, consequently can take place deformation along with by the removal of drive device 200 adaptability, and then can not exert an influence to the removal by drive device 200. Under this prerequisite, flexible heat-conducting piece 300 connects radiating part 120 and driven device 200 of casing 100, and then can in time transmit the heat that produces in the driven device 200 course of operation to radiating part 120, finally by radiating part 120 dispel, reaches the purpose that the heat that produces in the driven device 200 course of operation can in time be dispelled by the heat dissipation, finally can solve present electronic equipment driven device and have the relatively poor problem of radiating effect.

Referring to fig. 2 again, in the embodiment of the present invention, the flexible heat conducting member 300 may include a first connecting section 310, a bending deformation section 320, and a second connecting section 330 connected in sequence, the first connecting section 310 is connected to the heat dissipating portion 120, the second connecting section 330 is connected to the driven device 200, the bending deformation section 320 may deform along with the movement of the driven device 200, and the bending deformation section 320 adapts to the position of the driven device 200 through its own deformation during the movement of the driven device 200. In order to better deform the bending deformation section 320, in a preferable scheme, the bending deformation section 320 may have a strength smaller than that of the first connection section 310 and the second connection section 330.

In order to improve the heat conduction capability, in a more preferable scheme, the first connection section 310 may be attached to the driven device 200, and similarly, the second connection section 330 may be at least partially attached to the driven device 200. The mode that the aforesaid adopted the laminating to connect can improve area of contact undoubtedly, reaches the purpose of the heat conduction of more efficient. Specifically, the first connecting section 310 may be attached to the heat dissipation part 120 by a thermal conductive adhesive layer, and the second connecting section 330 may be attached to the driven device 200 by a thermal conductive adhesive layer. Of course, the first connection section 310 and the heat sink 120 and the second connection section 330 and the driven device 200 may be connected by a screw, a rivet, or other structures.

In the embodiment of the present invention, the flexible heat conducting member 300 may have a plurality of structures, please refer to fig. 3, in a more preferable scheme, the flexible heat conducting member 300 may include a flexible housing 340, a flexible cover 350 and a flexible capillary structure 360, the flexible housing 340 has an opening, the flexible cover 350 covers the opening and forms a heat conducting inner cavity with the flexible housing 340, and the flexible capillary structure 360 is filled in the heat conducting inner cavity. The structure is similar to a flexible vapor chamber, so that heat conduction in a two-dimensional plane can be realized, and the heat dissipation effect can be further improved undoubtedly.

In order to further improve the heat conduction effect, both the flexible housing 340 and the flexible cover 350 may be organic soaking films, and both the flexible capillary structure 360 and the flexible capillary structure are organic fiber members.

As described above, the driven device 200 may have various kinds, and in general, the driven device 200 includes the device holder 210 and the device main body 220, the device main body 220 is disposed on the device holder 210, and the device holder 210 is connected to the driving mechanism, and the driving mechanism drives the device holder 210, thereby driving the movement of the whole driven device 200. Specifically, the device body 220 may be fixed to the device holder 210.

Based on the above structure, the flexible heat-conducting member 300 may be connected to the device support 210, the device main body 220 may be a heat source of the driven device 200, and heat generated by the device main body 220 may be conducted to the flexible heat-conducting member 300 through the device support 210. In order to further improve the heat conduction effect, in a more preferable embodiment, the device main body 220 may be fixed to a portion of the flexible heat-conducting member 300 connected to the device holder 210, in which case the heat generated by the device main body 220 can also be directly transmitted to the flexible heat-conducting member 300. In order to improve the heat dissipation performance, the device support 210 may be made of a material with good heat dissipation performance, for example, the device support 210 may be a metal structural member.

In order to protect the device main body 220, the device holder 210 has a holder inner cavity 211, the device main body 220 is disposed in the holder inner cavity 211, and one end of the flexible heat-conducting member 300 extends into the holder inner cavity 211, so that the device main body 220 is better connected to the flexible heat-conducting member 300.

The device main body 220 is a functional main body of the driven device 200, and in the embodiment of the present invention, the device main body 220 includes at least one of a camera 221, a flash 222, a receiver, an ambient light sensor, and a fingerprint identification module. The embodiments of the present invention do not limit the specific type of the device main body 220.

As described above, the flexible heat conducting member 300 is deformed along with the movement of the driven device 200, so as to avoid that the flexible heat conducting member 300 is deformed and folded to affect the retraction of the driven device 200, in a preferred embodiment, the driven device 200 may further include a guide plate 230, as shown in fig. 2, one end of the guide plate 230 may be fixedly connected to the device support 210, the other end of the guide plate 230 may extend toward the retraction direction of the driven device 200, a portion of the flexible heat conducting member 300 overlaps the guide plate 230, the other end of the guide plate 230 may be in sliding contact with the flexible heat conducting member 300, the guide plate 230 moves synchronously along with the retraction of the driven device 200, and under the pushing of the guide plate 230, accumulation near the driven device 200 can be avoided, and interference on the movement of the driven device 200 can be avoided.

Since the flexible heat conducting member 300 is in contact with the guide plate 230, in order to further improve the heat dissipation performance, in a preferable scheme, the guide plate 230 may be made of a material with good heat dissipation performance, for example, the guide plate 230 may be a metal structural member.

For convenience of assembly, in a more preferred embodiment, the guide plate 230 and the device holder 210 may be of an integral structure. For example, the guide plate 230 and the device holder 210 may be a one-piece metal member.

The embodiment of the utility model provides an electronic equipment can be equipment such as cell-phone, panel computer, electronic book reader, game machine, intelligent wrist-watch, the embodiment of the utility model provides a do not restrict electronic equipment's specific kind.

The utility model discloses what the key description in the above embodiment is different between each embodiment, and different optimization characteristics are as long as not contradictory between each embodiment, all can make up and form more preferred embodiment, consider that the literary composition is succinct, then no longer describe here.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. An electronic device, comprising:

the shell is provided with a through hole and a shell inner cavity, the through hole is communicated with the shell inner cavity, and the shell comprises a heat dissipation part;

the driving mechanism is connected with the driven device and drives the driven device to extend out of the shell or retract into the shell through the through hole;

one end of the flexible heat conducting piece is connected with the driven device, the other end of the flexible heat conducting piece is connected with the heat radiating part, and at least part of the flexible heat conducting piece can deform along with the movement of the driven device.

2. The electronic device according to claim 1, wherein the flexible heat conducting member includes a first connecting section, a bent and deformed section, and a second connecting section connected in sequence, the first connecting section is attached to the heat dissipating portion, at least a portion of the second connecting section is attached to the driven device, and the bent and deformed section is deformable in response to movement of the driven device.

3. The electronic device of claim 1, wherein the flexible heat conducting member comprises a flexible housing, a flexible cover plate and a flexible capillary structure, the flexible housing has an opening, the flexible cover plate covers the opening and forms a heat conducting cavity with the flexible housing, and the flexible capillary structure is filled in the heat conducting cavity.

4. The electronic device of claim 3, wherein the flexible housing and the flexible cover are both organic soaking films and the flexible capillary structure is an organic fiber.

5. The electronic device of claim 1, wherein the heat sink portion is a metal bezel support.

6. The electronic apparatus according to claim 1, wherein the driven device includes a device holder and a device main body, the device main body being provided on the device holder, the flexible heat-conducting member being connected to the device holder.

7. The electronic device of claim 6, wherein the device holder has a holder lumen, the device body being disposed in the holder lumen, and an end of the flexible thermal conductor extending into the holder lumen.

8. The electronic device of claim 6, wherein the device body comprises at least one of a camera, a flash, a microphone, an ambient light sensor, and a fingerprint recognition module.

9. The electronic device according to claim 6, wherein the driven device further comprises a guide plate, one end of the guide plate is fixedly connected to the device holder, the other end of the guide plate extends in a direction in which the driven device retracts, a portion of the flexible heat-conducting member overlaps the guide plate, and the other end of the guide plate is in sliding contact with the flexible heat-conducting member.

10. The electronic device of claim 9, wherein at least one of the device support and the guide plate is a metallic structural member.

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