CN112467449A - Electronic equipment and sealing member of USB socket thereof - Google Patents

Abstract

The utility model relates to a sealing member of electronic equipment and USB socket thereof, this sealing member includes assembly body and cap stopper body, the assembly body is used for with electronic equipment be assembled between/be connected between, the cap stopper body is connected with the assembly body and is used for pegging graft in the USB socket, the cap stopper body is provided with the arch, the arch is used for forming seal structure when the cap stopper body is pegged graft with the USB socket, the cap stopper body is close to the one end of USB socket and is provided with dodges the structure, dodge the structure and be used for dodging when the cap stopper body separates with the USB socket. This application dodges the structure through setting up on the sealing member to reduce the resistance that the sealing member was pulled out in following the USB socket, make the user pull out the sealing member from the USB socket and become easy a little, thereby increase the user experience of sealing member.

Description

Electronic equipment and sealing member of USB socket thereof

Technical Field

The application relates to the technical field of electronic equipment, in particular to electronic equipment and a sealing piece of a USB socket of the electronic equipment.

Background

With the increasing popularity of electronic devices, electronic devices have become indispensable social and entertainment tools in people's daily life, and users have higher and higher requirements for electronic devices. Taking a mobile phone as an example, a user not only pursues cool functions such as extremely narrow frame, ultra-large display screen, high-definition photographing and the like, but also desires that the mobile phone has good waterproof, dustproof and shockproof properties. Therefore, manufacturers usually set sealing structures at the assembly joints of the display screen, the frame, the rear cover, the side keys, the USB socket, the earphone socket, and other structures to ensure or increase the waterproof and dustproof performance of the mobile phone. For the USB socket, in order to facilitate the user to plug and unplug the USB plug, the USB socket is generally in an open structure, so that the USB cap, the USB socket and other parts are directly exposed (or communicated) to the external environment, which easily affects the waterproof and dustproof performance of the mobile phone, and also affects the service life of the USB socket.

Disclosure of Invention

The embodiment of the application provides a sealing member for electronic equipment USB socket, wherein, this sealing member includes assembly body and cap stopper body, the assembly body is used for with electronic equipment assembly connection, cap stopper body and assembly body coupling are used for pegging graft in USB socket, the cap stopper body is provided with the arch, the arch is used for forming seal structure when the cap stopper body is pegged graft with USB socket, the cap stopper body is close to the one end of USB socket and is provided with dodges the structure, dodge the structure and be used for dodging when the cap stopper body separates with USB socket.

The embodiment of the application further provides an electronic equipment, wherein, this electronic equipment includes the frame, USB socket and sealing member, USB socket and frame be assembled between/be connected between, the sealing member includes assembly body and cap cock body, assembly body and frame be assembled between/be connected between, the cap cock body can peg graft in USB socket with assembly body, the cap cock body is provided with the arch, the arch is used for forming seal structure when the cap cock body is pegged graft with USB socket, the cap cock body is close to the one end of USB socket and is provided with dodges the structure, dodge the structure and be used for dodging when cap cock body and USB socket separation.

The beneficial effect of this application is: the application provides a sealing member for electronic equipment USB socket includes assembly body and cap stopper body, the assembly body be used for with electronic equipment be assembled between/be connected between, the cap stopper body with assembly body be connected and be used for pegging graft in the USB socket, the cap stopper body is provided with the arch, the arch is used for forming seal structure when the cap stopper body is pegged graft with the USB socket, the cap stopper body is close to the one end of USB socket and is provided with dodges the structure, dodge the structure and be used for dodging when the cap stopper body separates with the USB socket. This application dodges the structure through setting up on the sealing member to reduce the resistance that the sealing member was pulled out in following the USB socket, make the user pull out the sealing member from the USB socket and become easy a little, thereby increase the user experience of sealing member.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is an exploded schematic view of an embodiment of an electronic device provided in the present application;

FIG. 2 is a schematic diagram of a portion of one embodiment of the bezel of FIG. 1;

FIG. 3 is a schematic cross-sectional view of the bezel of FIG. 2 along the direction III-III;

FIG. 4 is a schematic diagram of the structure of the sealing member of the present application plugged into a USB socket;

FIG. 5 is a schematic diagram of the seal of the present application in a manner of separating from the USB receptacle;

FIG. 6 is a schematic structural view of an embodiment of the seal of FIG. 1;

FIG. 7 is a schematic structural view of another embodiment of the seal of FIG. 1;

fig. 8 is a schematic structural view of yet another embodiment of the seal of fig. 1.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be noted that the following examples are only illustrative of the present application, and do not limit the scope of the present application. Likewise, the following examples are only some examples and not all examples of the present application, and all other examples obtained by a person of ordinary skill in the art without any inventive work are within the scope of the present application.

Reference in the specification to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the specification. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

The inventors of the present application have found, through long-term research: the USB socket can be isolated from the external environment by plugging the soft plastic workpiece into the USB socket; and the performance that the soft plastic part can elastically deform to generate a certain prepressing amount is utilized, so that the USB socket can be further sealed. Obviously, the sealing mode based on elastic deformation generally has the higher sealing grade, and the corresponding prepressing amount is also more. For the USB socket, a user needs to pull out the soft plastic part before plugging the USB plug; although the excessive prepressing amount can increase the sealing grade, the pull-out force is large, the problems that the soft plastic part interferes with the USB cap of the USB socket and the like are caused, the soft plastic part is difficult to pull out, and the user experience is influenced. To this end, the present application provides the following examples.

Referring to fig. 1, fig. 1 is an exploded schematic view of an embodiment of an electronic device provided in the present application.

The electronic device 10 of the embodiment of the present application may be a portable device such as a mobile phone, a tablet computer, a notebook computer, and a wearable device. The embodiment of the present application takes the electronic device 10 as a mobile phone as an example for description. The electronic device 10 includes a display module 11, a rear cover 12, a frame 13, a USB socket 14, and a sealing member 15. The display module 11 and the rear cover plate 12 are respectively connected with the frame 13, so that the display module 11 and the rear cover plate 12 form a basic structure which clamps the frame 13 together after being assembled. For example: the display module 11 and the rear cover plate 12 can be respectively covered on two opposite sides of the frame 13 by one or a combination of assembling modes such as clamping, gluing, welding and the like. The USB socket 14 is disposed between the display module 11 and the rear cover 12 and is connected to the frame 13, so that a USB plug (not shown) can be plugged into the USB socket 14, and the electronic device 10 is electrically connected to other devices via a USB data line (a USB plug adapted to the USB socket 14 at one end) to implement functions of charging, data transmission, and the like.

It should be noted that, a sealing structure (not shown in the figure) is disposed at an assembly connection position of the display module 11, the rear cover plate 12, the frame 13 and the USB socket 14, so that the electronic device 10 has a certain waterproof and dustproof performance, thereby increasing the reliability of the electronic device 10. The sealing structure may be made of Rubber (Rubber), Thermoplastic polyurethane elastomers (TPU), Thermoplastic elastomers (TPE), and other soft plastic, or may be formed at the assembly joint by means of dispensing, glue curing, or other methods, or may be a bonding member such as double-sided adhesive or foam. Of course, multiple sealing methods may be used at the assembly joint to increase the waterproof and dustproof performance of the electronic device 10.

The display module 11 may be a screen such as an lcd (liquid Crystal display), an OLED (Organic Light-Emitting Diode), a Mini-LED, or a Micro-LED. Generally, the display module 11 includes a transparent cover 111 and a display panel 112, as shown in fig. 1. Further, the transparent cover 111 may be a tempered glass, which is mainly used to protect the display panel 112 and serves as an outer surface of the electronic device 10, so that a user can perform touch operations such as clicking, pressing, sliding and the like. The display panel 112 is mainly used for displaying a screen and serves as an interactive interface between a user and the electronic device 10. In some other embodiments, the outer surface of the electronic device 10 (i.e., the outer surface of the transparent cover plate 111) may be further provided with any one of other functional film layers, such as a tempered film, a frosted film, a decoration film, a peep-proof film, a water condensation film, and the like, so that the electronic device 10 provides different use effects for a user.

Further, the display module 11 may be a flat screen, a hyperboloid screen, or a four-curved screen in appearance.

It should be noted that, for the mobile phone, the flat screen refers to the display module 11 which is arranged in a flat plate shape on the whole; the hyperboloid screen is that the left and right edge areas of the display module 11 are arranged in a curved shape, and other areas are still arranged in a flat plate shape, so that the black edge of the display module 11 can be reduced, the visible area of the display module 11 can be increased, and the aesthetic appearance and holding hand feeling of the electronic device 10 can be increased; the four-curved-surface screen is characterized in that the upper edge area, the lower edge area, the left edge area and the right edge area of the display module 11 are both in a curved arrangement, and other areas are still in a flat arrangement, as shown in fig. 1, so that the black edge of the display screen 13 can be further reduced, the visual area of the display module 11 can be increased, and the aesthetic appearance and the holding hand feeling of the electronic device 10 can be further increased. The electronic device 10 shown in fig. 1 only describes a portion (e.g., one quarter) of the display module 11, the rear cover 12 and the frame 13, and the structures of other portions are the same as or similar to those in the drawings, and are not repeated herein.

The rear cover 12 may be a battery cover of the electronic device 10, and may be made of glass, metal, hard plastic, or other electrochromic materials. The rear cover 12 has a certain structural strength, and is mainly used to protect the electronic device 10 together with the transparent cover 111. Accordingly, the frame 13 may be made of glass, metal, rigid plastic, or the like, and has a certain structural strength. Further, since the back cover plate 12 and the frame 13 are generally directly exposed to the external environment, the material of the back cover plate 12 and the frame 13 may preferably have certain wear-resistant, corrosion-resistant, scratch-resistant, and other properties, or the outer surface of the back cover plate 12 and the frame 13 (i.e., the outer surface of the electronic device 10) may be coated with a layer of functional material for wear-resistant, corrosion-resistant, scratch-resistant. In some embodiments, the back cover plate 12 and the frame 13 may be two separate structural members, as shown in fig. 1, and they may be assembled by one or a combination of clamping, gluing, and welding. At this time, the frame 13 may further extend toward the inside of the electronic device 10, so as to form a middle plate, a middle frame, and other structures, so as to support and fix the functional components inside the electronic device 10, such as a battery, a main board, a fingerprint module, and a camera module. In other embodiments, the rear cover plate 12 and the frame 13 may be an integral structure. For example: the two can be directly manufactured by stamping, injection molding and the like.

Referring to fig. 2, fig. 2 is a schematic partial structure diagram of an embodiment of the bezel of fig. 1.

The frame 13 is provided with a USB interface 131 and an assembling hole 132 penetrating through the frame 13, and the assembling hole 132 is disposed adjacent to the USB interface 131 at an interval as shown in fig. 2. The size, shape, and other structures of the USB interface 131 are the same as or similar to those of the USB socket 14, so that the USB socket 14 is assembled and connected with the frame 13 at the USB interface 131, and the USB plug can be plugged into the electronic device 10 through the USB socket 14, thereby achieving electrical connection. Further, the assembly hole 132 is mainly used for achieving the assembly connection between the sealing member 15 and the frame 13, which will be described in detail later.

Further, a groove 133 surrounding the USB interface 131 (and the mounting hole 132) may be further formed on a surface of the frame 13 away from the USB socket 14. The groove 133 is mainly used to accommodate a portion of the sealing member 15 when the sealing member 15 is plugged into the USB socket 14, and also to limit the position of the sealing member 15, which will be described in detail later.

Referring to fig. 3, fig. 3 is a schematic cross-sectional view of the bezel of fig. 2 along the direction III-III.

Based on the above detailed description, the assembly hole 132 may enable the interior of the electronic device 10 to directly communicate with the external environment through the assembly hole 132 while achieving the assembly connection between the sealing member 15 and the bezel 13, thereby affecting the waterproof and dustproof performance of the electronic device 10. For this purpose, a blocking wall 134 may be further disposed on a side of the frame 13 near the USB socket 14, and the blocking wall 134 may surround the mounting hole 132, as shown in fig. 3. The blocking wall 134 is mainly used to separate the inside of the electronic device 10 from the external environment, so that the frame 13 can meet the assembling requirement between the frame and the sealing member 15, and can also meet the waterproof and dustproof requirement of the electronic device 10.

Referring to fig. 4 and 5 together, fig. 4 is a schematic structural diagram of the sealing element and the USB socket in the present application, and fig. 5 is a schematic structural diagram of a manner of separating the sealing element and the USB socket in the present application.

In the embodiment of the present application, in a case that the USB plug does not need to be plugged into the electronic device 10, the sealing member 15 can be plugged into the USB socket 14, as shown in fig. 4, so that the sealing member 15 further seals the USB socket 14, thereby increasing the waterproof and dustproof performance of the electronic device 10. Conversely, in the case that the USB plug needs to be plugged into the electronic device 10, the sealing member 15 can also be pulled out from the USB socket 14, as shown in fig. 5, so that the sealing member 15 does not affect the normal use of the USB socket 14. The relative position between the sealing member 15 and the USB socket 14 shown in fig. 5 only shows a state at a certain time during the process of pulling out the sealing member 15 from the USB socket 14.

Referring to fig. 6, fig. 6 is a schematic structural view of an embodiment of the sealing member of fig. 1.

The sealing member 15 includes an assembly 151 and a cap plug 152, and the cap plug 152 is connected to the assembly 151. Wherein the assembly 151 is assembled and connected with the frame 13, so that the sealing member 15 can be a part of the electronic device 10. The cap plug body 152 can be plugged into the USB socket 14 so that the sealing member can further seal the USB socket 14, thereby increasing the waterproof and dustproof performance of the electronic device 10.

An end of the fitting body 151 away from the cap plug body 152 is provided with a stopper portion 1511, as shown in fig. 6. In the process of assembling and connecting the assembly body 151 and the frame 13, the limiting portion 1511 can only pass through the assembling hole 132 on the frame 13 in one direction, and cannot or is not easy to be reversely separated from the frame 13, so as to prevent the sealing member 15 from being separated from the electronic device 10, and further prevent the sealing member 15 from being unnecessarily lost.

The cap plug body 152 is provided with a protrusion 153, and the protrusion 153 is used to form a sealing structure when the cap plug body 152 is plugged with the USB socket 14, so that the sealing member 15 can perform a waterproof and dustproof function. Wherein the number of the protrusions 153 may be one, two, three, or the like, so that the protrusions 153 can form a multi-stage sealing structure, thereby increasing the reliability of the sealing member 15. The embodiment of the present application takes the number of the protrusions 153 as an example, as shown in fig. 6.

It should be noted that the size, shape, and other structures of the cap plug body 152 and the protrusion 153 may be reasonably designed according to the sealing requirement between the sealing member 15 and the USB socket 14, and are not limited herein.

Based on the basic structure of the sealing member 15 and the connection manner between the sealing member 15 and the frame 13 in the embodiment of the present application, the general process of pulling out the sealing member 15 from the USB socket 14 may be: the end of the cap plug 152 away from the assembly body 151 is screwed out in a direction away from the bezel 13 and the USB socket 14 relative to the end of the cap plug 152 close to the assembly body 151, as shown in fig. 5. In this process, the end of the cap plug body 152 remote from the fitting body 151 is liable to structurally interfere with the USB socket 14. Therefore, an avoiding structure 154 is arranged at one end of the cap plug body 152 close to the USB socket 14, and the avoiding structure 154 is used for avoiding when the cap plug body 152 is separated from the USB socket 14, so as to avoid interference between the sealing member 15 and the USB socket 14 in the process of being pulled out from the USB socket 14, and further increase user experience of the electronic device 10.

The specific structure of the cap plug body 152 will be described in detail below.

The cap plug body 152 includes a cap portion 1521 and a plug portion 1522, and the plug portion 1522 and the assembly body 151 are disposed on the same side of the cap portion 1521, as shown in fig. 6. Further, the size, shape, and other structures of the cap 1521 may be the same as or similar to those of the groove 133, and the size, shape, and other structures of the plug 1522 may also be the same as or similar to those of the USB socket 14, so that the cap plug 152 can be plugged into the USB socket 14, that is, the plug 1522 can be plugged into the USB socket 14, and the cap 1521 can be accommodated in the groove 133, so as to prevent the cap 1521 from protruding out of the frame 13 completely. Moreover, the cap 1521 may protrude from the plug 1522 at a position connected to the plug 1522, as shown in fig. 6, so that the cap 1521 can be stopped by the frame 13 during the process of plugging the sealing element 15 into the USB socket 14, thereby playing a role in limiting, and further preventing the sealing element 15 from being difficult to pull out due to being plugged into the USB socket 14 too much. In other words, when the sealing member 15 is plugged into the USB socket 14, the sealing member 15 can be flush with the rim 13, so as to increase the aesthetic appearance and the grip feeling of the electronic device 10.

It should be noted that, a side of the plug portion 1522 away from the cap portion 1521 is an open structure, so that when the plug portion 1522 is plugged into the USB socket 14, the plug portion 1522 can receive the USB socket (on which a plurality of PIN PINs adapted to the USB plug are disposed) of the USB socket 14. Further, in the plugging direction of the sealing element 15, the size of the plug portion 1522 is smaller than or equal to the depth of the USB socket 14, so that the sealing element 15, the frame 13 and the USB socket 14 can meet the plugging requirement.

The protrusion 153 is disposed around the plug portion 1522 and divides the plug portion 1522 into a connecting section 1523 and a guiding section 1524, as shown in fig. 6. The connecting section 1523 is disposed between the guiding section 1524 and the cap 1521, and the guiding section 1524 is used for guiding the plug portion 1522 to be plugged into the USB socket, so that the plug portion 1522 is plugged into the USB socket 14, and the user experience of the sealing member 15 is enhanced.

In this embodiment, the sealing member 15 may be integrally formed by two-color injection molding, so that the protrusion 153 has certain elasticity and can be elastically deformed, and other portions such as the plug portion 1522 have certain structural strength and can support the protrusion 153 to be elastically deformed, so that when the plug portion 1522 is inserted into the USB socket 14, the protrusion 153 is elastically deformed to form a sealing structure between the sealing member 15 and the USB socket 14.

Based on the above detailed description, although the guiding section 1524 can play a positive role in guiding during the process of plugging the sealing member 15 into the USB socket 14; however, during the process of pulling the sealing member 15 out of the USB socket 14, the guiding section 1524 is also liable to interfere with the USB socket 14, as shown in fig. 5, thereby causing difficulty in pulling out the sealing member 15 and affecting the user experience of the sealing member 15. For this purpose, the avoiding structure 154 is specifically disposed on the guiding section 1524 to avoid the guiding section 1524 from structurally interfering with the USB socket 14. Also, in order to secure the sealing effect of the protrusion 153, the relief structure 154 preferably does not damage the protrusion 153.

In some embodiments, the avoidance structure 154 is a chamfered structure. The avoiding structure 154 (i.e., the corner cutting structure) is disposed at an end of the guiding section 1524 away from the assembly body 151, as shown in fig. 6.

The avoidance principle can be as follows: because one end portion of the guide section 1524, which is away from the assembly body 151, is missing, in the process of separating the plug portion 1522 from the USB socket 14, the end of the guide section 1524, which is away from the assembly body 151, can be directly prevented from structurally interfering with the USB socket 14, so that the pulling-out resistance of the sealing member 15 is reduced, and the above-mentioned avoiding requirement is further met.

Further, in the process that the sealing member 15 is plugged into the USB socket 14, the above-mentioned corner cutting structure can also play a similar avoiding role, so as to reduce the difficulty of plugging the sealing member 15 into the USB socket 14, and further increase the user experience of the sealing member 15.

It should be noted that the size and shape of the above-mentioned chamfered structure (i.e. the missing part of the end of the guiding segment 1524 away from the assembly body 151) are subject to the limitation that the guiding segment 1524 does not structurally interfere with the USB socket 14. Further, the corner cutting structure may be formed directly when the sealing member 15 is manufactured, or may be formed by partially removing the sealing member 15 after the manufacturing.

Referring to fig. 7, fig. 7 is a schematic structural view of another embodiment of the sealing member of fig. 1.

In other embodiments, the relief structure 154 is a slotted structure. The avoiding structure 154 (i.e., a slot structure) includes a first groove 1541, the first groove 1541 is away from the assembly 151 and divides the guide section 1524 into a first sub-guide section 1525 and a second sub-guide section 1526; the first sub-guide section 1525 is far from the assembly body 151, and the second sub-guide section 1526 is close to the assembly body 151, as shown in fig. 7. Further, other structures of the sealing member 15 in this embodiment are the same as or similar to those of the above embodiments, and are not described again.

The avoidance principle can be as follows: because the guide section 1524 is cut off away from the one end of assembly body 151, then in the process of separating plug portion 1522 and USB socket 14, even if guide section 1524 (specifically, first sub-guide section 1525) and USB socket 14 generate structural interference, first groove 1541 can also be used as the deformation space of first sub-guide section 1525, make first sub-guide section 1525 can take place elastic deformation towards second sub-guide section 1526, thereby reduce the resistance of extracting of sealing member 15, and then realize above-mentioned dodging demand.

Further, in the process that the sealing member 15 is plugged into the USB socket 14, the first groove 1541 may also perform a similar avoiding function, so as to reduce the difficulty of plugging the sealing member 15 into the USB socket 14, thereby increasing the user experience of the sealing member 15.

It should be noted that the size and shape of the first groove 1541 can be reasonably designed according to the deformation space required by the first sub-guide section 1525, and is not limited herein. Further, the first groove 1541 may be formed directly when the seal 15 is manufactured, or may be formed by partially removing the seal 15 after the seal 15 is manufactured.

Referring to fig. 8, fig. 8 is a schematic structural view of another embodiment of the sealing member of fig. 1.

In yet other embodiments, the avoidance structure 154 is a slotted structure. The avoiding structure 154 (i.e., a slot structure) includes a first groove 1541 and a second groove 1542, the first groove 1541 is far from the assembly body 151, and the second groove 1542 is close to the assembly body 151, so that the first groove 1541 and the second groove 1542 divide the guide section 1524 into a first sub-guide section 1525, a second sub-guide section 1526 and a third sub-guide section 1527; the first sub-guide section 1525 is far away from the assembly body 151, the second sub-guide section 1526 is close to the assembly body 151, and the third sub-guide section 1527 is located between the first sub-guide section 1525 and the second sub-guide section 1526, as shown in fig. 8. Further, other structures of the sealing member 15 in this embodiment are the same as or similar to those in any of the above embodiments, and are not described again here.

The avoidance principle can be as follows: because the guide section 1524 is cut off away from the one end of assembly body 151, then in the process of separating plug portion 1522 and USB socket 14, even if guide section 1524 (specifically, first sub-guide section 1525) and USB socket 14 generate structural interference, first groove 1541 can also be used as the deformation space of first sub-guide section 1525, make first sub-guide section 1525 can take place elastic deformation towards third sub-guide section 1527, thereby reduce the resistance of extracting of sealing member 15, and then realize above-mentioned dodging demand.

Further, in the process that the sealing member 15 is inserted into the USB socket 14, the first groove 1541 and the second groove 1542 may also have a similar avoiding function, so as to reduce the difficulty of inserting the sealing member 15 into the USB socket 14, thereby increasing the user experience of the sealing member 15. Wherein, different from the first groove 1541: the second groove 1542 is mainly avoided during the process of inserting the sealing member 15 into the USB socket 14.

It should be noted that, the size and shape of the first groove 1541 and the second groove 1542 can be reasonably designed according to the deformation space required by the first sub-guide section 1525 and the second sub-guide section 1526, and are not limited herein. Further, the first groove 1541 and the second groove 1542 may be formed directly when the seal 15 is manufactured, or may be formed by partially removing the seal 15 after the seal is manufactured.

Referring again to fig. 6-8, to facilitate the removal of the sealing member 15 from the USB socket 14, the sealing member 15 may further include a start portion 155. The handle 155 is disposed at an end of the cap 1521 away from the assembly 151, so as to facilitate the separation of the cap plug 152 from the USB socket 14. In some embodiments, a surface of the handle portion 155 adjacent to the plug portion 1522 is recessed in the cap portion 1521, and the thickness of the handle portion 155 is smaller than the thickness of the cap portion 1521 in the insertion and extraction direction of the seal 15.

Further, in order to prevent the seal 15 from structurally interfering with the USB plug after being pulled out from the USB socket 14, the seal 15 may be further provided with a recess 156. The recessed portion 156 is disposed on one surface of the cap portion 1521 close to the plug portion 1522, that is, a local portion of the cap portion 1521 is thinned; the recessed portion 156 is located between the plug portion 1522 and the assembly 151, so that the plug portion 1522 can be bent with respect to the assembly 151 via the recessed portion 156.

It should be noted that, for electronic devices such as a mobile phone, the technical solution of the embodiment of the present application may also be applied to sealing and avoiding interfaces such as an earphone hole, and details are not described herein.

The above description is only a part of the embodiments of the present application, and not intended to limit the scope of the present application, and all equivalent devices or equivalent processes performed by the content of the present application and the attached drawings, or directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims (10)

1. The sealing element for the USB socket of the electronic equipment is characterized by comprising an assembly body and a cap plug body, wherein the assembly body is used for being assembled and connected with the electronic equipment, the cap plug body is connected with the assembly body and used for being plugged in the USB socket, the cap plug body is provided with a protrusion, the protrusion is used for forming a sealing structure when the cap plug body is plugged in the USB socket, one end, close to the USB socket, of the cap plug body is provided with a avoiding structure, and the avoiding structure is used for avoiding when the cap plug body is separated from the USB socket.

2. The sealing member according to claim 1, wherein the cap plug body comprises a cap portion and a plug portion, the plug portion and the assembly body are connected and disposed on the same side of the cap portion, the plug portion is used for being plugged into a USB socket, the protrusion is disposed around the plug portion and divides the plug portion into a connecting section and a guiding section, the connecting section is connected and disposed between the guiding section and the cap portion, the guiding section is used for guiding the plug portion to be plugged into the USB socket, and the avoiding structure is disposed on the guiding section.

3. The seal of claim 2, wherein the avoiding structure is a chamfered structure and is disposed at an end of the guide section away from the fitting body to avoid when the plug portion is separated from the USB socket.

4. The sealing member of claim 2, wherein the avoiding structure is a slot structure and comprises a first groove, the first groove is far away from the assembly body and divides the guiding section into a first sub-guiding section and a second sub-guiding section, the first sub-guiding section is far away from the assembly body, the second sub-guiding section is close to the assembly body, so that when the plug portion is separated from the USB socket, the first groove serves as a deformation space of the first sub-guiding section, so that the first sub-guiding section can be elastically deformed towards the second sub-guiding section.

5. The sealing member of claim 2, wherein the avoiding structure is a slot structure and comprises a first groove and a second groove, the first groove is far away from the assembly body, the second groove is close to the assembly body, the guide section is divided into a first sub-guide section, a second sub-guide section and a third sub-guide section by the first groove and the second groove, the first sub-guide section is far away from the assembly body, the second sub-guide section is close to the assembly body, and the third sub-guide section is located between the first sub-guide section and the second sub-guide section, so that when the plug portion is separated from the USB socket, the first groove serves as a deformation space of the first sub-guide section, so that the first sub-guide section can be elastically deformed toward the third sub-guide section.

6. The seal of claim 2, wherein a face of the cap portion adjacent the plug portion is provided with a depression between the plug portion and the fitting body.

7. The seal of claim 2, wherein an end of the cap portion remote from the fitting body is provided with a handle portion for facilitating separation of the cap plug body from the USB receptacle.

8. The seal of claim 7, wherein a face of the handle portion adjacent to the plug portion is recessed in the cap portion, and a thickness of the handle portion is smaller than a thickness of the cap portion in a direction of insertion and extraction of the seal.

9. The sealing member according to claim 1, wherein an end of the assembly body away from the cap plug body is provided with a stopper portion for preventing the sealing member from being separated from the electronic device.

10. The electronic equipment is characterized by comprising a frame, a USB socket and a sealing element, wherein the USB socket is in assembly connection with the frame, the sealing element comprises an assembly body and a cap plug body, the assembly body is in assembly connection with the frame, the cap plug body is connected with the assembly body and can be inserted into the USB socket, the cap plug body is provided with a protrusion, the protrusion is used for forming a sealing structure when the cap plug body is inserted into the USB socket, one end, close to the USB socket, of the cap plug body is provided with an avoiding structure, and the avoiding structure is used for avoiding when the cap plug body is separated from the USB socket.

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