CN113963972A

CN113963972A - Electronic device

Info

Publication number: CN113963972A
Application number: CN202111187300.1A
Authority: CN
Inventors: 杨哲
Original assignee: Vivo Mobile Communication Co Ltd
Current assignee: Vivo Mobile Communication Co Ltd
Priority date: 2021-10-12
Filing date: 2021-10-12
Publication date: 2022-01-21
Anticipated expiration: 2041-10-12
Also published as: WO2023061380A1; CN113963972B

Abstract

The application discloses electronic equipment, which comprises a shell and a key module, wherein the shell is provided with a key mounting hole, and the key module is arranged at the key mounting hole; the key module comprises a trigger part and a key, the key comprises a first key body and a second key body, the first key body and the second key body are arranged in a split mode, and the first key body and the second key body are both rotatably connected with the trigger part; under the condition that at least one of the first key body and the second key body is subjected to a disassembling force, the first key body and the second key body rotate so that the first key body and the second key body at least partially extend out of the key installation hole.

Description

Electronic device

Technical Field

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

Background

Along with electronic equipment's continuous development, people use electronic equipment's frequency constantly to rise, because have the clearance between electronic equipment's button module and electronic equipment's the shell, impurity such as dust, liquid in the external environment get into this clearance easily, if can not in time clear up these impurity, will lead to the button module to appear blocking the key, can't kick-back or even the condition of inefficacy, and then lead to the unable normal use of electronic equipment, seriously influence user experience.

When the accumulated impurities in the gap are not too much and mainly concentrate on the outer side end of the gap, a user can clear the impurities through simple cleaning operation, once the accumulated impurities are more or the impurities enter the position, close to the inside of the electronic equipment, of the gap, the impurities can be cleared only through a mode of detaching the key module, the whole electronic equipment is detached only after the key module is detached, and the detaching operation of the key module is too complicated.

Disclosure of Invention

The purpose of the embodiment of the application is to provide an electronic equipment, can solve the too loaded down with trivial details problem of the dismantlement operation of button module.

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

the embodiment of the application provides electronic equipment which comprises a shell and a key module, wherein the shell is provided with a key mounting hole, and the key module is arranged at the key mounting hole;

the key module comprises a trigger part and a key, the key comprises a first key body and a second key body, the first key body and the second key body are arranged in a split mode, and the first key body and the second key body are both rotatably connected with the trigger part;

under the condition that at least one of the first key body and the second key body is subjected to a disassembling force, the first key body and the second key body rotate so that the first key body and the second key body at least partially extend out of the key installation hole.

In the embodiment of the application, the keys of the key module comprise a first key body and a second key body which are arranged separately and can rotate, when the key module needs to be detached, a user can directly apply detaching force to at least one of the first key body and the second key body, so that the first key body and the second key body rotate, and when at least part of the first key body and the second key body extends out of the key mounting hole, the first key body and the second key body can be further detached. After the structure is adopted, the key module can be disassembled without disassembling the whole electronic equipment, so that the key module is simple to disassemble.

Drawings

Fig. 1 is a schematic structural diagram of a key module disclosed in an embodiment of the present application;

fig. 2 and fig. 3 are schematic structural diagrams of a part of the electronic device disclosed in the embodiment of the present application in different states;

fig. 4 is an exploded view of a key module disclosed in an embodiment of the present application;

fig. 5 is a schematic view of a partial structure of a key module disclosed in the embodiment of the present application;

FIG. 6 is a partially enlarged view of the key module disclosed in the embodiment of the present application;

fig. 7 is an exploded view of a partial structure of a key module according to an embodiment of the present disclosure.

Description of reference numerals:

100-trigger, 110-metal part, 120-elastic part;

200-key, 210-first key body, 211-first stress part, 212-first sliding groove, 213-first groove, 214-pulling part, 220-second key body, 221-second stress part, 222-second sliding groove, 223-second groove, 224-accommodating groove, 230-flexible connecting piece;

300-a first link, 310-a first clamping part;

400-a second connecting rod, 410-a second clamping part;

500-a first stop bar;

600-a second stop lever;

700-shell, 710-key mounting hole;

800-metal dome tablets;

900-hook tool.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely 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 7, an embodiment of the present application discloses an electronic device, which includes a housing 700 and a key module, where the housing 700 may be used as a mounting base for other components included in the electronic device, the housing 700 is provided with a key mounting hole 710, and the key module is disposed at the key mounting hole 710. Optionally, the side of the housing 700 is provided with a key mounting hole 710, and the key module may be a side key module, which may be a power key or other key module.

The key module comprises a trigger 100 and a key 200, the trigger 100 is connected with the key 200, and when the key 200 is stressed, the key 200 can drive the trigger 100 to move, so that the trigger 100 is matched with the metal dome 800 on the circuit board, and the electronic device can execute corresponding operations. Alternatively, the trigger 100 may include a metal portion 110 and a resilient portion 120, which may be integrally injection molded together.

The key 200 includes a first key body 210 and a second key body 220, the first key body 210 and the second key body 220 are separately arranged, and the first key body 210 and the second key body 220 are both rotatably connected with the trigger 100. When the key module normally works, the first key body 210 and the second key body 220 are flush with each other, and both can be integrally located in the key mounting hole 710, or slightly protrude relative to the key mounting hole 710, so as to be used for pressing the first key body 210 and the second key body 220. In the case where at least one of the first key body 210 and the second key body 220 is subjected to a removal force, the first key body 210 and the second key body 220 are rotated such that both the first key body 210 and the second key body 220 at least partially protrude through the key installation hole 710. Optionally, the first key body 210 and the second key body 220 may move after being subjected to a detaching force, and when the trigger 100 contacts with the dome sheet 800 of the circuit board, the first key body 210 and the second key body 220 may rotate around a contact point of the first key body 210 and the dome sheet 800, and a rotation angle of the first key body 210 and the second key body 220 may be 15 ° to 20 °. The detaching force here refers to a pressing force applied to the first key body 210 and the second key body 220 when a user needs to detach the key module, and the positions of the first key body 210 and the second key body 220 for bearing the detaching force can be flexibly selected as long as the detaching force can rotate the first key body 210 and the second key body 220, alternatively, the detaching force can be applied to one end of the first key body 210 close to the second key body 220 and one end of the second key body 220 close to the first key body 210, or can be applied to one end of the first key body 210 far from the second key body 220 and one end of the second key body 220 far from the first key body 210.

When the key module needs to be removed, a user can directly apply a removing force to the first key body 210 and the second key body 220, so that the first key body 210 and the second key body 220 rotate, and when the first key body 210 and the second key body 220 at least partially extend out of the key mounting hole 710, the size of the whole key module is reduced due to the rotation of the first key body 210 and the second key body 220, so that the first key body 210, the second key body 220 and even the whole key module can be further removed, and then operations such as cleaning and maintenance of the first key body 210 and the second key body 220 can be performed. After the structure is adopted, the key module can be disassembled without disassembling the whole electronic equipment, so that the key module is simple to disassemble. Moreover, the structure enables the disassembly and assembly time of the key module to be shorter, the maintenance efficiency and the prototype analysis efficiency of the electronic equipment to be higher, and the after-sale cost is lower. In addition, the embodiment only needs to improve the structure of the key module, does not need to introduce more structures, and does not increase the space occupancy rate of the electronic equipment.

The first key body 210 and the second key body 220 can be directly and rotatably connected with the triggering member 100, but a certain distance is reserved between the key mounting hole 710 and the snap dome 800 on the circuit board, and if the first key body 210 and the second key body 220 are directly and rotatably connected with the triggering member 100, the first key body 210 and the second key body 220 need to be arranged to be relatively large, and enough space needs to be reserved around the circuit board for the first key body 210 and the second key body 220 to rotate. Based on this, the key module may further include a first link 300 and a second link 400, the first key body 210 is rotatably connected to the trigger 100 through the first link 300, and the second key body 220 is rotatably connected to the trigger 100 through the second link 400. Alternatively, both the first link 300 and the second link 400 may be hinged with the trigger 100 by a ball hinge. The first and

second links

300 and 400 can compensate for the distance between the first and second

key bodies

210 and 220 and the snap dome 800, so the first and second

key bodies

210 and 220 can be set to be smaller in size, and at the same time, there is enough space around the first and

second links

300 and 400 for the first and second

key bodies

210 and 220 to rotate, so there is no need to reserve space around the circuit board, and the space utilization of the electronic device will be higher.

Optionally, a first force-receiving portion 211 is disposed at an end of the first key body 210 away from the second key body 220, a second force-receiving portion 221 is disposed at an end of the second key body 220 away from the first key body 210, and a connection portion between the first key body 210 and the first link 300 and a connection portion between the second key body 220 and the second link 400 are located between the first force-receiving portion 211 and the second force-receiving portion 221. When a user needs to detach the key module, a detaching force can be applied to the first force-receiving portion 211 and the second force-receiving portion 221, so that the first key body 210 and the second key body 220 rotate; when the user normally uses the key module, the user can apply an acting force to the middle region of the key 200, that is, the end of the first key body 210 close to the second key body 220 and the end of the second key body 220 close to the first key body 210, and at this time, the stressed region of the key 200 is basically opposite to the joint of the first key body 210 and the first link 300 and the joint of the second key body 220 and the second link 400, so that the first key body 210 and the second key body 220 are not easy to rotate, and can integrally move, thereby realizing the function of the key module. Since the first key body 210 is disposed at one end close to the second key body 220 and the second key body 220 is disposed at one end close to the first key body 210 in a concentrated manner, it is more convenient for a user to press the key 200 with a single finger, so that the user experience is better.

When a user applies an acting force to the first key body 210 and the second key body 220 to detach the first key body 210 and the second key body 220, the detaching force is easily transmitted to the trigger 100 through the first key body 210 and the second key body 220, so that the trigger 100 is contacted with the snap dome 800 of the circuit board, and the snap dome 800 is pressed hard to trigger the key module. To prevent this, in an alternative embodiment, the first key body 210 is provided with a first sliding slot 212, the second key body 220 is provided with a second sliding slot 222, a first end of the first link 300 is hinged to the triggering member 100, a second end of the first link 300 is connected to the first sliding slot 212, a third end of the second link 400 is hinged to the triggering member 100, and a fourth end of the second link 400 is connected to the second sliding slot 222. In the case where at least one of the first and second

force receiving portions

211 and 221 is subjected to a detaching force, the first link 300 rotates relative to the trigger 100, the second end of the first link 300 slides in the first sliding slot 212, the second link 400 rotates relative to the trigger 100, and the fourth end of the second link 400 slides in the second sliding slot 222. Optionally, the first sliding chute 212 and the second sliding chute 222 are both obliquely arranged strip-shaped grooves, and extending directions of the two are oblique with respect to the length direction of the key 200. After the first key body 210 and the second key body 220 are detached, the first link 300 slides relative to the first sliding groove 212, one end of the first link 300 connected with the first key body 210 can move towards one side far away from the trigger 100, the second link 400 slides relative to the second sliding groove 222, and one end of the second link 400 connected with the second key body 220 can move towards one side far away from the trigger 100, so that the trigger 100 is not easy to press the metal dome 800 forcibly due to the action of the first link 300 and the second link 400, and the metal dome 800 is prevented from being pressed by mistake.

Optionally, the second end of the first link 300 is provided with a first clamping portion 310, the first clamping portion 310 is in clamping fit with the first chute 212, and the first clamping portion 310 has certain elasticity, so that the first clamping portion 310 can be deformed by pressing the first clamping portion 310, so that the first clamping portion is matched with the first chute 212, and meanwhile, the first clamping portion 310 does not affect the sliding fit of the first link 300 and the first chute 212. For example, a portion of the first engaging portion 310 is a protruding structure, the protruding structure can pass through the first sliding groove 212 after being deformed, and at this time, different portions of the first engaging portion 310 are respectively located at two sides of the first sliding groove 212, so that the first engaging portion 310 can be reliably connected to the first key body 210, and one end of the first link 300 can flexibly slide relative to the first sliding groove 212. Meanwhile, this structure facilitates the separation of the first key body 210 and the first link 300.

Similarly, the fourth end of the second link 400 is provided with a second clamping portion 410, and the second clamping portion 410 is clamped and matched with the second sliding groove 222. The second clamping portion 410 has a certain elasticity, so pressing the second clamping portion 410 can deform the second clamping portion 410 to cooperate with the second sliding slot 222, and meanwhile, the second clamping portion 410 does not affect the sliding fit between the second link 400 and the second sliding slot 222. For example, a portion of the second engaging portion 410 is a protruding structure, and the protruding structure can pass through the first sliding slot 212 after being deformed, and at this time, different portions of the second engaging portion 410 are respectively located at two sides of the second sliding slot 222, so that the second engaging portion 410 can be reliably connected to the second key body 220, and one end of the second connecting rod 400 can flexibly slide relative to the second sliding slot 222. Meanwhile, this structure facilitates the separation of the second key body 220 and the second link 400.

In order to better prevent the first key body 210 and the second key body 220 from rotating due to the pressing force applied by the user when the key module is in the operating state, the key module may further include a first limiting rod 500 and a second limiting rod 600, two ends of the first limiting rod 500 are respectively hinged to one ends of the first connecting rod 300 and the second limiting rod 600, and the other end of the second limiting rod 600 is hinged to the second connecting rod 400, that is, the first limiting rod 500 and the second limiting rod 600 are rotatably disposed between the first connecting rod 300 and the second connecting rod 400. Alternatively, the first stopper rod 500 may be hinged to the first link 300 by a ball hinge, the second stopper rod 600 may be hinged to the second link 400 by a ball hinge, and the first stopper rod 500 and the second stopper rod 600 may be hinged by a cylindrical rotating shaft. Under the condition that the first key body 210 and the second key body 220 are flush, the first limiting rod 500 and the second limiting rod 600 are locked and matched; in the case where at least one of the first key body 210 and the second key body 220 is subjected to a removal force, the first stopper rod 500 and the second stopper rod 600 relatively rotate. Under the condition that the first key body 210 and the second key body 220 are flush, the stress positions of the first key body 210 and the second key body 220 are mainly in the middle area of the whole key 200, and under the condition that at least one of the first key body 210 and the second key body 220 is subjected to dismounting force, the stress positions of the first key body 210 and the second key body 220 are mainly in the edge area of the whole key 200, so that the rotation directions corresponding to the rotation trends of the first key body 210 and the second key body 220 are opposite in two cases, the rotation of the first limiting rod 500 and the second limiting rod 600 in one direction is limited, and the rotation of the first limiting rod 500 and the second limiting rod 600 in the other direction is allowed, therefore, under the condition that the first key body 210 and the second key body 220 are flush, the first limiting rod 500 and the second limiting rod 600 cannot rotate relatively, the rotation of the first key body 210 and the second key body 220 is limited, and the first limiting rod 500, the second limiting rod 600, The first link 300 and the second link 400 constitute a stable triangular structure, and are not easily rotated even if the first key body 210 and the second key body 220 are forced. In the case that at least one of the first key body 210 and the second key body 220 is subjected to a removal force, the first limiting rod 500 and the second limiting rod 600 can rotate relatively, and the first key body 210 and the second key body 220 can rotate accordingly. Therefore, the embodiment more reliably limits the rotation of the first key body 210 and the second key body 220 by the first limiting rod 500 and the second limiting rod 600, so that the user can use the key module conveniently.

In the process of detaching the key module, after the first key body 210 and the second key body 220 rotate, a user may apply a force to the exposed portions of the first key body 210 and the second key body 220 by using a tool, so as to detach the first key body 210 and the second key body 220, and in order to facilitate the user to apply a force to the first key body 210 and the second key body 220, in an alternative embodiment, a pulling portion 214 is disposed on a surface of the first key body 210 facing the second key body 220, and an accommodating groove 224 is disposed on a surface of the second key body 220 facing the first key body 210. With the first and second

key bodies

210 and 220 flush, the pulling part 214 is located within the receiving groove 224; in the case where the first and second

key bodies

210 and 220 are at least partially protruded out of the key installation hole 710, the pulling part 214 is located outside the receiving groove 224, and a user can apply a force to the pulling part 214, thereby more conveniently and rapidly detaching the first and second

key bodies

210 and 220. In addition, the receiving groove 224 of the second key body 220 can receive the pulling part 214, so the pulling part 214 does not occupy additional space, the gap between the first key body 210 and the second key body 220 is smaller, impurities such as dust are not easily accumulated between the first key body 210 and the second key body 220, and the aesthetic property of the key module is improved accordingly.

The pulling portion 214 may be a rectangular block structure, and correspondingly, the receiving groove 224 is a rectangular groove, but this structure has a problem of stress concentration, so in another implementation, the pulling portion 214 has a first arc-shaped surface, and the receiving groove 224 has a second arc-shaped surface, and in a case that the first key body 210 and the second key body 220 are flush, the first arc-shaped surface faces the second arc-shaped surface. Such an arc structure is less likely to cause stress concentration, so that the structural strength of the pulling part 214 and the second key body 220 is higher. Further alternatively, the pulling part 214 may be a pull ring, and the hook tool 900 may hook the pull ring, thereby pulling the first key body 210.

In an alternative embodiment, the first key body 210 is provided with a first groove 213, the second key body 220 is provided with a second groove 223, the first groove 213 extends to the side of the first key body 210 facing the second key body 220, and the second groove 223 extends to the side of the second key body 220 facing the first key body 210. In the case where the first key body 210 and the second key body 220 are flush, the first groove 213 and the second groove 223 are flush, and the first groove 213 and the second groove 223 together form a recessed area, which is more easily touched by a user's hand when the user uses the key module, thereby providing tactile feedback to the user, so that the user more accurately presses the first key body 210 and the second key body 220.

In order to enhance the coupling strength between the first key body 210 and the second key body 220, the first key body 210 may be provided with a first magnetic part, the second key body 220 may be provided with a second magnetic part, and the first key body 210 may be magnetically coupled to the second key body 220 through the first magnetic part and the second magnetic part. In this embodiment, the first key body 210 and the second key body 220 are restricted by magnetic force and thus are not easily separated, and the coupling strength between the two is higher. Meanwhile, if the user wants to detach the key module, a large force needs to be applied to overcome the force between the first magnetic part and the second magnetic part, so the embodiment can prevent the user from causing the first key body 210 and the second key body 220 to rotate due to misoperation, thereby improving the user experience.

Considering that the first key body 210 and the second key body 220 are separately arranged and can move relatively, in a further embodiment, the key 200 further includes a flexible connecting member 230, and the first key body 210 is connected to the second key body 220 through the flexible connecting member 230. The flexible connection member 230 has flexibility that does not hinder the rotation of the first and second

key bodies

210 and 220, and at the same time, the flexible connection member 230 can connect the first and second

key bodies

210 and 220 together, preventing the first and second

key bodies

210 and 220 from being separated accidentally and losing at least one of them. Alternatively, the flexible connecting member 230 may be connected to the first key body 210 and the second key body 220 by integral injection molding, and after molding, the flexible connecting member 230 may have a protrusion, and the first key body 210 and the second key body 220 may have a groove matching with the protrusion, so as to improve the connection strength of the flexible connecting member 230 with the first key body 210 and the second key body 220.

The electronic device disclosed in the embodiment of the present application may be an electronic device such as a smart phone, a tablet computer, an electronic book reader, a wearable device (e.g., a smart watch), and an electronic game machine, and the kind of the electronic device is not particularly limited in the embodiment of the present application.

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

1. An electronic device is characterized by comprising a shell and a key module, wherein the shell is provided with a key mounting hole, and the key module is arranged at the key mounting hole;

2. The electronic device of claim 1, wherein the key module further comprises a first link and a second link, the first key body is rotatably connected to the trigger via the first link, and the second key body is rotatably connected to the trigger via the second link.

3. The electronic device according to claim 2, wherein an end of the first key body remote from the second key body is provided with a first force-receiving portion, an end of the second key body remote from the first key body is provided with a second force-receiving portion, and a connection of the first key body and the first link and a connection of the second key body and the second link are both located between the first force-receiving portion and the second force-receiving portion.

4. The electronic device of claim 3, wherein the first key body is provided with a first sliding slot, the second key body is provided with a second sliding slot, a first end of the first link is hinged to the triggering member, a second end of the first link is connected to the first sliding slot, a third end of the second link is hinged to the triggering member, and a fourth end of the second link is connected to the second sliding slot;

in the case where at least one of the first force receiving portion and the second force receiving portion is subjected to a removal force, the first link rotates relative to the trigger, and the second end of the first link slides within the first slide groove, the second link rotates relative to the trigger, and the fourth end of the second link slides within the second slide groove.

5. The electronic device according to claim 4, wherein a first clamping portion is arranged at the second end of the first connecting rod, and the first clamping portion is clamped and matched with the first sliding groove;

the fourth end of second connecting rod is equipped with second joint portion, second joint portion with the cooperation of second spout joint.

6. The electronic device according to claim 2, wherein the key module further comprises a first limiting rod and a second limiting rod, two ends of the first limiting rod are respectively hinged to one ends of the first connecting rod and the second limiting rod, and the other end of the second limiting rod is hinged to the second connecting rod;

under the condition that the first key body and the second key body are flush, the first limiting rod and the second limiting rod are in locking fit; under the condition that at least one of the first key body and the second key body is subjected to a disassembling force, the first limiting rod and the second limiting rod rotate relatively.

7. The electronic device of claim 1, wherein a surface of the first key body facing the second key body is provided with a pulling portion, and a surface of the second key body facing the first key body is provided with an accommodating groove;

the pulling part is positioned in the accommodating groove under the condition that the first key body and the second key body are flush; the first key body and the second key body at least partially extend out of the key mounting hole, and the pulling part is located outside the accommodating groove.

8. The electronic device of claim 7, wherein the pulling portion has a first arc-shaped surface and the receiving groove has a second arc-shaped surface;

the first arc-shaped face faces the second arc-shaped face when the first key body and the second key body are flush.

9. The electronic device of claim 1, wherein the first key body is provided with a first groove, the second key body is provided with a second groove, the first groove extends to a face of the first key body facing the second key body, and the second groove extends to a face of the second key body facing the first key body;

the first groove is flush with the second groove when the first key body and the second key body are flush.

10. The electronic device of claim 1, wherein the first key body is provided with a first magnetic part, the second key body is provided with a second magnetic part, and the first key body is magnetically connected to the second key body through the first magnetic part and the second magnetic part.

11. The electronic device of claim 1, wherein the key further comprises a flexible connector, and wherein the first key body is connected to the second key body via the flexible connector.